1 |
IS 869 (2020) |
Specification for Ethylene Dichloride ( Third Revision ) |
Industrial Chemical-Ethylene Dichloride |
24500 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
3.1(Description) |
- |
500 |
|
- |
3.1.1(Solubility) |
- |
500 |
|
- |
4.1() |
- |
500 |
|
- |
4.2(Marking) |
- |
500 |
|
- |
3.2 Table -1, Sl no. 1(Relative density at 15°C/15°C, Annex A2) |
- |
2000 |
|
- |
3.2 Table -1, Sl no. 2(1,2 Dichloroethane (EDC), weight percent, ASTM D 6806) |
- |
8500 |
|
- |
3.2 Table -1, Sl no. 3(Residue on evaporation, percent by mass, Annex A3) |
- |
3000 |
|
- |
3.2 Table -1, Sl no. 4(Acidity (as HCl), percent by mass, Annex A4) |
- |
3000 |
|
- |
3.2 Table -1, Sl no. 5(Colour, Annex A6) |
- |
3000 |
|
- |
3.2 Table -1, Sl no. 6(Moisture content, percent by mass, Annex A5) |
- |
3000 |
|
- |
3.1(Description) |
- |
0 |
|
- |
3.1.1(Solubility) |
- |
0 |
|
- |
4.1() |
- |
0 |
|
- |
4.2(Marking) |
- |
0 |
|
- |
3.2 Table -1, Sl no. 1(Relative density at 15°C/15°C, Annex A2) |
- |
0 |
|
- |
3.2 Table -1, Sl no. 2(1,2 Dichloroethane (EDC), weight percent, ASTM D 6806) |
- |
0 |
|
- |
3.2 Table -1, Sl no. 3(Residue on evaporation, percent by mass, Annex A3) |
- |
0 |
|
- |
3.2 Table -1, Sl no. 4(Acidity (as HCl), percent by mass, Annex A4) |
- |
0 |
|
- |
3.2 Table -1, Sl no. 5(Colour, Annex A6) |
- |
0 |
|
- |
3.2 Table -1, Sl no. 6(Moisture content, percent by mass, Annex A5) |
- |
0 |
|
- |
|
15 May, 2027 |
- Included w.e.f 30.06.2025 |
2 |
IS 12029 (2023) |
Acid Oil - Specification (first revision of IS 12029) |
Industrial Fine chemical-Acid Oil |
13800 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
4.1(Iodine Value) |
- |
800 |
|
- |
4.2 Table 1 (i)(Total Fatty Matter (TFM) - IS 286 : 2018) |
- |
2000 |
|
- |
4.2 Table 1 (ii)(Moisture and volatile matter - IS 286 : 2018) |
- |
2000 |
|
- |
4.2 Table 1 (iii)(Free fatty Acid - IS 548 (Part 1/Sec 2) : 2021) |
- |
2000 |
|
- |
4.2 Table 1 (iv)(Free Mineral Acid ( As H₂SO₄) - IS 12029:2023) |
- |
1000 |
|
- |
4.2 Table 1 (v)(Unsaponifiable matter - IS 548 (Part 1/Sec 2) : 2021) |
- |
1000 |
|
- |
4.2 Table 1 (vi)(Oxidized Fatty Acid - IS 12029:2023) |
- |
2000 |
|
- |
4.2 Table 1 (vii)(Iron - IS 12029:2023) |
- |
2000 |
|
- |
4.2 Table 1 (viii)(Ash - IS 12029:2023) |
- |
1000 |
|
- |
4.1(Iodine Value) |
- |
0 |
|
- |
4.2 Table 1 (i)(Total Fatty Matter (TFM) - IS 286 : 2018) |
- |
0 |
|
- |
4.2 Table 1 (ii)(Moisture and volatile matter - IS 286 : 2018) |
- |
0 |
|
- |
4.2 Table 1 (iii)(Free fatty Acid - IS 548 (Part 1/Sec 2) : 2021) |
- |
0 |
|
- |
4.2 Table 1 (iv)(Free Mineral Acid ( As H₂SO₄) - IS 12029:2023) |
- |
0 |
|
- |
4.2 Table 1 (v)(Unsaponifiable matter - IS 548 (Part 1/Sec 2) : 2021) |
- |
0 |
|
- |
4.2 Table 1 (vi)(Oxidized Fatty Acid - IS 12029:2023) |
- |
0 |
|
- |
4.2 Table 1 (vii)(Iron - IS 12029:2023) |
- |
0 |
|
- |
4.2 Table 1 (viii)(Ash - IS 12029:2023) |
- |
0 |
|
- |
|
15 May, 2027 |
- Included w.e.f 30.06.2025 |
3 |
IS 18340 (2023) |
Vinyl Sulphone - Specification |
Vinyl Sulphone |
20500 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
Cl-3.1(Description) |
- |
250 |
|
- |
Cl-3.2, Table-1 (i)(Assay (by nitrite value), percent by mass (on dry basis), Min) |
- |
3000 |
|
- |
Cl-3.2, Table-1 (i)(Assay (by HPLC1)), percent area (on dry basis),Min) |
- |
6000 |
|
- |
Cl-3.2, Table-1 (ii)(Hydrolysis value, percent by mass (on 100 percent basis), Min) |
- |
3000 |
|
- |
Cl-3.2, Table-1 (iii)(Matter insoluble in sodium carbonate solution percent by mass, Max) |
- |
4000 |
|
- |
Cl-3.2, Table-1 (iv)(4-Chloroaniline content, percent by mass (on 100 percent basis), Max) |
- |
4000 |
|
- |
Cl-4.2(Marking) |
- |
250 |
|
- |
Cl-3.1(Description) |
- |
0 |
|
- |
Cl-3.2, Table-1 (i)(Assay (by nitrite value), percent by mass (on dry basis), Min) |
- |
0 |
|
- |
Cl-3.2, Table-1 (i)(Assay (by HPLC1)), percent area (on dry basis),Min) |
- |
0 |
|
- |
Cl-3.2, Table-1 (ii)(Hydrolysis value, percent by mass (on 100 percent basis), Min) |
- |
0 |
|
- |
Cl-3.2, Table-1 (iii)(Matter insoluble in sodium carbonate solution percent by mass, Max) |
- |
0 |
|
- |
Cl-3.2, Table-1 (iv)(4-Chloroaniline content, percent by mass (on 100 percent basis), Max) |
- |
0 |
|
- |
Cl-4.2(Marking) |
- |
0 |
|
- |
|
15 May, 2027 |
- Included w.e.f 30.06.2025 |
4 |
IS 8637 (2020) |
H Acid ? Specification ( Second Revision ) |
Industrial Chemical-H Acid |
25500 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
3.1(Description) |
- |
500 |
|
- |
3.2-Table 1-(i)(Purity (by nitrite value)) |
- |
4000 |
|
- |
3.2-Table 1-(ii)(Difference between nitrite value and coupling value) |
- |
3000 |
|
- |
3.2-Table 1-(iii)(Matter insoluble in sodium carbonate solution) |
- |
4000 |
|
- |
3.2-Table 1-(iv)(Purity (by HPCL)) |
- |
5000 |
|
- |
3.2-Table 1-(v)(Chromotropic acid content,) |
- |
5000 |
|
- |
3.2-Table 1-(vi)(Koch’s acid content) |
- |
3500 |
|
- |
4.1(Packing ) |
- |
250 |
|
- |
4.2(Marking) |
- |
250 |
|
- |
3.1(Description) |
- |
0 |
|
- |
3.2-Table 1-(i)(Purity (by nitrite value)) |
- |
0 |
|
- |
3.2-Table 1-(ii)(Difference between nitrite value and coupling value) |
- |
0 |
|
- |
3.2-Table 1-(iii)(Matter insoluble in sodium carbonate solution) |
- |
0 |
|
- |
3.2-Table 1-(iv)(Purity (by HPCL)) |
- |
0 |
|
- |
3.2-Table 1-(v)(Chromotropic acid content,) |
- |
0 |
|
- |
3.2-Table 1-(vi)(Koch’s acid content) |
- |
0 |
|
- |
4.1(Packing ) |
- |
0 |
|
- |
4.2(Marking) |
- |
0 |
|
- |
3.1(Description) |
- |
0 |
|
- |
3.2-Table 1-(i)(Purity (by nitrite value)) |
- |
0 |
|
- |
3.2-Table 1-(ii)(Difference between nitrite value and coupling value) |
- |
0 |
|
- |
3.2-Table 1-(iii)(Matter insoluble in sodium carbonate solution) |
- |
0 |
|
- |
3.2-Table 1-(iv)(Purity (by HPCL)) |
- |
0 |
|
- |
3.2-Table 1-(v)(Chromotropic acid content,) |
- |
0 |
|
- |
3.2-Table 1-(vi)(Koch’s acid content) |
- |
0 |
|
- |
4.1(Packing ) |
- |
0 |
|
- |
4.2(Marking) |
- |
0 |
|
- |
|
15 May, 2027 |
- Included w.e.f.18.06.2025 |
5 |
IS 14707 (1999) |
Methyl acrylate - Specification |
Methyl acrylate |
26500 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
4.1(Packing) |
- |
26500 |
|
- |
4.2(Marking) |
- |
26500 |
|
- |
3 - Table -1, Sl no. 1(Assay, percent by mass, Min, Annex A) |
- |
26500 |
|
- |
3 - Table -1, Sl no. 2(Acidity (as acrylic acid),percent by mass, Max, Annex B) |
- |
26500 |
|
- |
3 - Table -1, Sl no. 3(Colour, Pt-Co scale, Max, IS 8768) |
- |
26500 |
|
- |
3 - Table -1, Sl no. 4(Water, percent by mass,Max, 2362) |
- |
26500 |
|
- |
3 - Table -1, Sl no. 5(" Inhibitors (as methyl etherhydroquinone), ppm Max , Annex C
") |
- |
26500 |
|
- |
4.1(Packing) |
- |
0 |
|
- |
4.2(Marking) |
- |
0 |
|
- |
3 - Table -1, Sl no. 1(Assay, percent by mass, Min, Annex A) |
- |
0 |
|
- |
3 - Table -1, Sl no. 2(Acidity (as acrylic acid),percent by mass, Max, Annex B) |
- |
0 |
|
- |
3 - Table -1, Sl no. 3(Colour, Pt-Co scale, Max, IS 8768) |
- |
0 |
|
- |
3 - Table -1, Sl no. 4(Water, percent by mass,Max, 2362) |
- |
0 |
|
- |
3 - Table -1, Sl no. 5(" Inhibitors (as methyl etherhydroquinone), ppm Max , Annex C
") |
- |
0 |
|
- |
|
15 May, 2027 |
- Included w.e.f.18.06.2025 |
6 |
IS 16112 (2013) |
Beta picoline - Specification |
Beta picoline |
16500 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
3.1(Description) |
- |
500 |
|
- |
3.2(Solubility) |
- |
500 |
|
- |
4.1(Packing) |
- |
250 |
|
- |
4.2(Marking) |
- |
250 |
|
- |
3.3 - Table -1, Sl no. 1(Beta picoline content,percent by mass, Min, Annex A) |
- |
2500 |
|
- |
3.3 - Table -1, Sl no. 2(2-Ethyl pyridine content,percent by mass, Max, Annex A) |
- |
2500 |
|
- |
3.3 - Table -1, Sl no. 3(Alpha picoline content,percent by mass, Max,Annex A) |
- |
2500 |
|
- |
3.3 - Table -1, Sl no. 4(Gamma picoline content,percent by mass, Max, Annex A) |
- |
2500 |
|
- |
3.3 - Table -1, Sl no. 5(Other unknown impurities,percent by mass, Max, Annex A) |
- |
2500 |
|
- |
3.3 - Table -1, Sl no. 6(Moisture content,percent by mass, Max, Annex B) |
- |
2500 |
|
- |
3.1(Description) |
- |
0 |
|
- |
3.2(Solubility) |
- |
0 |
|
- |
4.1(Packing) |
- |
0 |
|
- |
4.2(Marking) |
- |
0 |
|
- |
3.3 - Table -1, Sl no. 1(Beta picoline content,percent by mass, Min, Annex A) |
- |
0 |
|
- |
3.3 - Table -1, Sl no. 2(2-Ethyl pyridine content,percent by mass, Max, Annex A) |
- |
0 |
|
- |
3.3 - Table -1, Sl no. 3(Alpha picoline content,percent by mass, Max,Annex A) |
- |
0 |
|
- |
3.3 - Table -1, Sl no. 4(Gamma picoline content,percent by mass, Max, Annex A) |
- |
0 |
|
- |
3.3 - Table -1, Sl no. 5(Other unknown impurities,percent by mass, Max, Annex A) |
- |
0 |
|
- |
3.3 - Table -1, Sl no. 6(Moisture content,percent by mass, Max, Annex B) |
- |
0 |
|
- |
3.1(Description) |
- |
0 |
|
- |
3.2(Solubility) |
- |
0 |
|
- |
4.1(Packing) |
- |
0 |
|
- |
4.2(Marking) |
- |
0 |
|
- |
3.3 - Table -1, Sl no. 1(Beta picoline content,percent by mass, Min, Annex A) |
- |
0 |
|
- |
3.3 - Table -1, Sl no. 2(2-Ethyl pyridine content,percent by mass, Max, Annex A) |
- |
0 |
|
- |
3.3 - Table -1, Sl no. 3(Alpha picoline content,percent by mass, Max,Annex A) |
- |
0 |
|
- |
3.3 - Table -1, Sl no. 4(Gamma picoline content,percent by mass, Max, Annex A) |
- |
0 |
|
- |
3.3 - Table -1, Sl no. 5(Other unknown impurities,percent by mass, Max, Annex A) |
- |
0 |
|
- |
3.3 - Table -1, Sl no. 6(Moisture content,percent by mass, Max, Annex B) |
- |
0 |
|
- |
|
15 May, 2027 |
- Included .w.e.f.18.06.2025 |
7 |
IS 16113 (2013) |
Gamma picoline - Specification |
Industrial Chemical-Gamma picoline |
16500 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
3.1(Description) |
- |
500 |
|
- |
3.2(Solubility) |
- |
500 |
|
- |
4.1(Packing) |
- |
250 |
|
- |
4.2(Marking) |
- |
250 |
|
- |
3.3 - Table -1, Sl no. 1(Gamma picoline content,percent by mass, Min, Annex A) |
- |
2500 |
|
- |
3.3 - Table -1, Sl no. 2(2-Ethyl pyridine content,percent by mass, Max, Annex A) |
- |
2000 |
|
- |
3.3 - Table -1, Sl no. 3(Alpha picoline content,percent by mass, Max,Annex A) |
- |
2000 |
|
- |
3.3 - Table -1, Sl no. 4(Beta picoline content,percent by mass, Max, Annex A) |
- |
2000 |
|
- |
3.3 - Table -1, Sl no. 5(2,6-Lutidine content,percent by mass, Max,Annex A) |
- |
2500 |
|
- |
3.3 - Table -1, Sl no. 6(Other unknown impurities,percent by mass, Max, Annex A) |
- |
2000 |
|
- |
3.3 - Table -1, Sl no. 7(Moisture content,percent by mass, Max, Annex B) |
- |
2000 |
|
- |
|
15 May, 2027 |
- Included w.e.f.18.06.2025 |
8 |
IS 12345 (2024) |
Vinyl Acetate Monomer â Specification (First Revision) |
VINYLY ACETATE MONOMER |
22500 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
3.1("The material shall be clear, colourless liquid,
free from any suspended matter") |
- |
500 |
|
- |
3.1 Table 1(i)("Acidity (as acetic acid), percent by
mass") |
- |
2000 |
|
- |
3.1 Table 1(ii)("Vinyl acetate content (as ester),
percent by mass") |
- |
4000 |
|
- |
3.1 Table 1(iii)("Aldehyde (as acetaldehyde), percent
by mass") |
- |
2500 |
|
- |
3.1 Table 1(iv)(Moisture, percent by mass) |
- |
2000 |
|
- |
3.1 Table 1(v)(Distillation range at 760 mm of Hg) |
- |
2000 |
|
- |
3.1 Table 1(vi)(Colour, Pt-Co) |
- |
1500 |
|
- |
3.1 Table 1(vii)(Specific gravity, 20 °C/20 °C) |
- |
1000 |
|
- |
3.1 Table 1(viii, a)(Hydroquinone) |
- |
2000 |
|
- |
3.1 Table 1(viii, b)(Diphenylamine) |
- |
2000 |
|
- |
3.1 Table 1(ix)(Polymer content) |
- |
2000 |
|
- |
4.1(Packing) |
- |
500 |
|
- |
4.2(Marking) |
- |
500 |
|
- |
3.1("The material shall be clear, colourless liquid,
free from any suspended matter") |
- |
0 |
|
- |
3.1 Table 1(i)("Acidity (as acetic acid), percent by
mass") |
- |
0 |
|
- |
3.1 Table 1(ii)("Vinyl acetate content (as ester),
percent by mass") |
- |
0 |
|
- |
3.1 Table 1(iii)("Aldehyde (as acetaldehyde), percent
by mass") |
- |
0 |
|
- |
3.1 Table 1(iv)(Moisture, percent by mass) |
- |
0 |
|
- |
3.1 Table 1(v)(Distillation range at 760 mm of Hg) |
- |
0 |
|
- |
3.1 Table 1(vi)(Colour, Pt-Co) |
- |
0 |
|
- |
3.1 Table 1(vii)(Specific gravity, 20 °C/20 °C) |
- |
0 |
|
- |
3.1 Table 1(viii, a)(Hydroquinone) |
- |
0 |
|
- |
3.1 Table 1(viii, b)(Diphenylamine) |
- |
0 |
|
- |
3.1 Table 1(ix)(Polymer content) |
- |
0 |
|
- |
4.1(Packing) |
- |
0 |
|
- |
4.2(Marking) |
- |
0 |
|
- |
3.1("The material shall be clear, colourless liquid,
free from any suspended matter") |
- |
0 |
|
- |
3.1 Table 1(i)("Acidity (as acetic acid), percent by
mass") |
- |
0 |
|
- |
3.1 Table 1(ii)("Vinyl acetate content (as ester),
percent by mass") |
- |
0 |
|
- |
3.1 Table 1(iii)("Aldehyde (as acetaldehyde), percent
by mass") |
- |
0 |
|
- |
3.1 Table 1(iv)(Moisture, percent by mass) |
- |
0 |
|
- |
3.1 Table 1(v)(Distillation range at 760 mm of Hg) |
- |
0 |
|
- |
3.1 Table 1(vi)(Colour, Pt-Co) |
- |
0 |
|
- |
3.1 Table 1(vii)(Specific gravity, 20 °C/20 °C) |
- |
0 |
|
- |
3.1 Table 1(viii, a)(Hydroquinone) |
- |
0 |
|
- |
3.1 Table 1(viii, b)(Diphenylamine) |
- |
0 |
|
- |
3.1 Table 1(ix)(Polymer content) |
- |
0 |
|
- |
4.1(Packing) |
- |
0 |
|
- |
4.2(Marking) |
- |
0 |
|
- |
|
15 May, 2027 |
- Included w.e.f.18.06.2025 |
9 |
IS 16948 (2018) |
Medical textile – Permeable nonwoven surgical adhesive tape – Specification |
- |
7500 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
4.1 and 4.2(Workmanship and finish) |
- |
500 |
|
- |
5.1 - Table 1 -(i)(Weight of backing material) |
- |
1250 |
|
- |
5.1 - Table 1 -(ii)(Weight of adhesive mass) |
- |
1250 |
|
- |
5.1 - Table 1 -(iii)(Water vapour permeability) |
- |
1000 |
|
- |
5.1 - Table 1 -(iv)(Adhesiveness) |
- |
2000 |
|
- |
5.1 - Table 1 -(v)(Width of the tape) |
- |
500 |
|
- |
6(Marking) |
- |
300 |
|
- |
5.1 - Table 1 -(v)(Width of the tape) |
- |
0 |
|
- |
5.1 - Table 1 -(vi)(Perforations) |
- |
500 |
|
- |
6(Marking) |
- |
0 |
|
- |
8(Packing) |
- |
200 |
|
- |
4(Workmanship and finish) |
- |
0 |
|
- |
5- Table-1- i)(Weight of backing material) |
- |
0 |
|
- |
5- Table-1- ii)(Weight of adhesive mass) |
- |
0 |
|
- |
5- Table-1- iii)(Water vapour permeability) |
- |
0 |
|
- |
5- Table-1- iv)(Adhesiveness) |
- |
0 |
|
- |
5- Table-1- v)(Width of the tape) |
- |
0 |
|
- |
5- Table-1- vi)(Width of the tape) |
- |
0 |
|
- |
6(Marking) |
- |
0 |
|
- |
8(Packing) |
- |
0 |
|
- |
|
15 May, 2027 |
- Included w.e.f.23.06.2025 |
10 |
IS 8698 (2022) |
expanded vinyl coated fabrics-Specification Second Revision |
Type A and Type B |
16000 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
Cl-7.1(Description) |
- |
500 |
|
- |
Cl-7.2(Base Fabric) |
- |
500 |
|
- |
Cl-7.3(Appearance) |
- |
500 |
|
- |
Cl-7.4(Colour, Grain and Finish) |
- |
500 |
|
- |
Cl-7.5(Coating) |
- |
500 |
|
- |
Cl-7.6(Resistance to Heat and Loss of Mass on Heating) |
- |
1000 |
|
- |
Cl-7.7(Resistance to Cold) |
- |
1000 |
|
- |
Cl-7.8(Colour Fastness to Dry and Wet Rubbing) |
- |
500 |
|
- |
Cl-7.9(Colour Fastness to Light) |
- |
500 |
|
- |
Cl-7.10(Gelling Test) |
- |
500 |
|
- |
Cl-7.11(Adhesion of Print) |
- |
500 |
|
- |
Cl-7.12(Flame Resistance) |
- |
1000 |
|
- |
Cl-7.13(Adhesion of Coating) |
- |
1000 |
|
- |
Cl-7.14(Blocking Resistance) |
- |
1000 |
|
- |
Cl-7.15(Resistance to Penetration of Water) |
- |
1000 |
|
- |
Cl-7.16("Elongation and Elastic Recovery for a Constant
Load") |
- |
1000 |
|
- |
Cl-7.17, 8.1 Table-1 (i)(Usable width, Min, cm) |
- |
500 |
|
- |
Cl-7.17, 8.1 Table-1 (ii)(Mass of finished fabric, Min, g/m2) |
- |
500 |
|
- |
Cl-7.17, 8.1 Table-1 (iii)(a) Longitudinal direction) |
- |
1000 |
|
- |
Cl-7.17, 8.1 Table-1 (iii)(b) Transverse direction) |
- |
0 |
|
Breaking strength test price is 1000/-. |
Cl-7.17, 8.1 Table-1 (iv)(Tear strength) |
- |
1000 |
|
- |
Cl-7.17, 8.1 Table-1 (v)(Resistance to damage by flexing) |
- |
500 |
|
- |
Cl-8.2(Test Specimens) |
- |
300 |
|
- |
Cl-9.2(Marking) |
- |
200 |
|
- |
Cl-7.1(Description) |
- |
0 |
|
- |
Cl-7.2(Base Fabric) |
- |
0 |
|
- |
Cl-7.3(Appearance) |
- |
0 |
|
- |
Cl-7.4(Colour, Grain and Finish) |
- |
0 |
|
- |
Cl-7.5(Coating) |
- |
0 |
|
- |
Cl-7.6(Resistance to Heat and Loss of Mass on Heating) |
- |
0 |
|
- |
Cl-7.7(Resistance to Cold) |
- |
0 |
|
- |
Cl-7.8(Colour Fastness to Dry and Wet Rubbing) |
- |
0 |
|
- |
Cl-7.9(Colour Fastness to Light) |
- |
0 |
|
- |
Cl-7.10(Gelling Test) |
- |
0 |
|
- |
Cl-7.11(Adhesion of Print) |
- |
0 |
|
- |
Cl-7.12(Flame Resistance) |
- |
0 |
|
- |
Cl-7.13(Adhesion of Coating) |
- |
0 |
|
- |
Cl-7.14(Blocking Resistance) |
- |
0 |
|
- |
Cl-7.15(Resistance to Penetration of Water) |
- |
0 |
|
- |
Cl-7.16("Elongation and Elastic Recovery for a Constant
Load") |
- |
0 |
|
- |
Cl-7.17, 8.1 Table-1 (i)(Usable width, Min, cm) |
- |
0 |
|
- |
Cl-7.17, 8.1 Table-1 (ii)(Mass of finished fabric, Min, g/m2) |
- |
0 |
|
- |
Cl-7.17, 8.1 Table-1 (iii)(a) Longitudinal direction) |
- |
0 |
|
- |
Cl-7.17, 8.1 Table-1 (iii)(b) Transverse direction) |
- |
0 |
|
- |
Cl-7.17, 8.1 Table-1 (iv)(Tear strength) |
- |
0 |
|
- |
Cl-7.17, 8.1 Table-1 (v)(Resistance to damage by flexing) |
- |
0 |
|
- |
Cl-8.2(Test Specimens) |
- |
0 |
|
- |
Cl-9.2(Marking) |
- |
0 |
|
- |
Cl-7.1(Description) |
- |
0 |
|
- |
Cl-7.2(Base Fabric) |
- |
0 |
|
- |
Cl-7.3(Appearance) |
- |
0 |
|
- |
Cl-7.4(Colour, Grain and Finish) |
- |
0 |
|
- |
Cl-7.5(Coating) |
- |
0 |
|
- |
Cl-7.6(Resistance to Heat and Loss of Mass on Heating) |
- |
0 |
|
- |
Cl-7.7(Resistance to Cold) |
- |
0 |
|
- |
Cl-7.8(Colour Fastness to Dry and Wet Rubbing) |
- |
0 |
|
- |
Cl-7.9(Colour Fastness to Light) |
- |
0 |
|
- |
Cl-7.10(Gelling Test) |
- |
0 |
|
- |
Cl-7.11(Adhesion of Print) |
- |
0 |
|
- |
Cl-7.12(Flame Resistance) |
- |
0 |
|
- |
Cl-7.13(Adhesion of Coating) |
- |
0 |
|
- |
Cl-7.14(Blocking Resistance) |
- |
0 |
|
- |
Cl-7.15(Resistance to Penetration of Water) |
- |
0 |
|
- |
Cl-7.16("Elongation and Elastic Recovery for a Constant
Load") |
- |
0 |
|
- |
Cl-7.17, 8.1 Table-1 (i)(Usable width, Min, cm) |
- |
0 |
|
- |
Cl-7.17, 8.1 Table-1 (ii)(Mass of finished fabric, Min, g/m2) |
- |
0 |
|
- |
Cl-7.17, 8.1 Table-1 (iii)(a) Longitudinal direction) |
- |
0 |
|
- |
Cl-7.17, 8.1 Table-1 (iii)(b) Transverse direction) |
- |
0 |
|
- |
Cl-7.17, 8.1 Table-1 (iv)(Tear strength) |
- |
0 |
|
- |
Cl-7.17, 8.1 Table-1 (v)(Resistance to damage by flexing) |
- |
0 |
|
- |
Cl-8.2(Test Specimens) |
- |
0 |
|
- |
Cl-9.2(Marking) |
- |
0 |
|
- |
|
15 May, 2027 |
- Included w.e.f.23.06.2025 |
11 |
IS 8699 (1977) |
Specification for pvc coated fabrics for footwear industry |
Type A/Type B |
12000 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
3.1.1 and 4.1, Table - 1 (ii)(Total Mass) |
- |
500 |
|
- |
3.1.1 and 4.1, Table - 1 (iii)(Breaking Strength Warp direction) |
- |
1000 |
|
- |
3.1.1 and 4.1, Table - 1 (iii)(Breaking Strength Weft direction) |
- |
0 |
|
- |
3.1.1 and 4.1, Table - 1 (iv)("Resistance to damage by flexing Stage I
") |
- |
1000 |
|
- |
3.1.1 and 4.1, Table - 1 (iv)("Resistance to damage by flexing Stage II
") |
- |
0 |
|
- |
3.1.1 and 4.1, Table - 1 (v)(Thickness) |
- |
500 |
|
- |
4.2(Appearance) |
- |
500 |
|
- |
4.3(Colour , Grain, Embossing and finish) |
- |
500 |
|
- |
4.4.1(Resistance to cold) |
- |
1000 |
|
- |
4.4.2(Colour fastness to Dry and Wet Rubbing) |
- |
1000 |
|
- |
4.4.3(Colour fastness to light) |
- |
1000 |
|
- |
4.4.4(Resistance to heat and loss of mass of coating on heating) |
- |
1000 |
|
- |
4.4.5(Stability at Vulcanization Temperature) |
- |
1000 |
|
- |
4.5(Resistance to Gelling) |
- |
1000 |
|
- |
4.5.1(Embossing on Grain) |
- |
500 |
|
- |
4.6(Adhesion of print (for Printed PVC Coated fabrics)) |
- |
1000 |
|
- |
4.7(Adhesion of coating) |
- |
1000 |
|
- |
3.1.1 and 4.1, Table - 1 (ii)(Total Mass) |
- |
0 |
|
- |
3.1.1 and 4.1, Table - 1 (iii)(Breaking Strength Warp direction) |
- |
0 |
|
- |
3.1.1 and 4.1, Table - 1 (iii)(Breaking Strength Weft direction) |
- |
0 |
|
- |
3.1.1 and 4.1, Table - 1 (iv)("Resistance to damage by flexing Stage I
") |
- |
0 |
|
- |
3.1.1 and 4.1, Table - 1 (iv)("Resistance to damage by flexing Stage II
") |
- |
0 |
|
- |
3.1.1 and 4.1, Table - 1 (v)(Thickness) |
- |
0 |
|
- |
4.2(Appearance) |
- |
0 |
|
- |
4.3(Colour , Grain, Embossing and finish) |
- |
0 |
|
- |
4.4.1(Resistance to cold) |
- |
0 |
|
- |
4.4.2(Colour fastness to Dry and Wet Rubbing) |
- |
0 |
|
- |
4.4.3(Colour fastness to light) |
- |
0 |
|
- |
4.4.4(Resistance to heat and loss of mass of coating on heating) |
- |
0 |
|
- |
4.4.5(Stability at Vulcanization Temperature) |
- |
0 |
|
- |
4.5(Resistance to Gelling) |
- |
0 |
|
- |
4.5.1(Embossing on Grain) |
- |
0 |
|
- |
4.6(Adhesion of print (for Printed PVC Coated fabrics)) |
- |
0 |
|
- |
4.7(Adhesion of coating) |
- |
0 |
|
- |
Cl-3.1.1, & 4.1 Table-1 (i)(Usable width, cm, Min) |
- |
0 |
|
- |
|
15 May, 2027 |
- Included w.e.f.23.06.2025 |
12 |
IS 15354 : Part 1 (2023) |
Single-use medical examination gloves Part 1 Specification for gloves made from rubber latex or rubber solution Second Revision |
type-1/type-2 |
10000 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
Cl-4.3(Finish) |
- |
500 |
|
- |
Cl-5(Materials) |
- |
1000 |
|
- |
Cl-7.1, Table-2(Size code) |
- |
500 |
|
- |
Cl-7.1, Table-2(Width corresponding to size code (dimension w, Figure 1)) |
- |
500 |
|
- |
Cl-7.1, Table-2(Descriptive size) |
- |
500 |
|
- |
Cl-7.1, Table-2(Width corresponding to descriptive size (dimension w, Figure 1)) |
- |
500 |
|
- |
Cl-7.1, Table-2(Minimum length (dimension l, Figure 1)) |
- |
500 |
|
- |
Cl-7.1, Table-2(Minimum thickness (at locations shown in Figure 1)) |
- |
500 |
|
- |
Cl-7.1, Table-2(Maximum thickness (at approximate centre of palm)) |
- |
500 |
|
- |
Cl-7.2(Water tightness) |
- |
2000 |
|
- |
Cl-7.3.2 & 7.3.3, Table-3(Minimum force at break before accelerated ageing, N) |
- |
750 |
|
- |
Cl-7.3.2 & 7.3.3, Table-3(Minimum elongation at break before accelerated ageing, %) |
- |
750 |
|
- |
Cl-7.3.2 & 7.3.3, Table-3(Minimum force at break after accelerated ageing, N) |
- |
500 |
|
- |
Cl-7.3.2 & 7.3.3, Table-3(Minimum elongation at break after accelerated ageing, %) |
- |
500 |
|
- |
Cl-9(Marking) |
- |
500 |
|
- |
Cl-4.3(Finish) |
- |
0 |
|
- |
Cl-5(Materials) |
- |
0 |
|
- |
Cl-7.1, Table-2(Size code) |
- |
0 |
|
- |
Cl-7.1, Table-2(Width corresponding to size code (dimension w, Figure 1)) |
- |
0 |
|
- |
Cl-7.1, Table-2(Descriptive size) |
- |
0 |
|
- |
Cl-7.1, Table-2(Width corresponding to descriptive size (dimension w, Figure 1)) |
- |
0 |
|
- |
Cl-7.1, Table-2(Minimum length (dimension l, Figure 1)) |
- |
0 |
|
- |
Cl-7.1, Table-2(Minimum thickness (at locations shown in Figure 1)) |
- |
0 |
|
- |
Cl-7.1, Table-2(Maximum thickness (at approximate centre of palm)) |
- |
0 |
|
- |
Cl-7.2(Water tightness) |
- |
0 |
|
- |
Cl-7.3.2 & 7.3.3, Table-3(Minimum force at break before accelerated ageing, N) |
- |
0 |
|
- |
Cl-7.3.2 & 7.3.3, Table-3(Minimum elongation at break before accelerated ageing, %) |
- |
0 |
|
- |
Cl-7.3.2 & 7.3.3, Table-3(Minimum force at break after accelerated ageing, N) |
- |
0 |
|
- |
Cl-7.3.2 & 7.3.3, Table-3(Minimum elongation at break after accelerated ageing, %) |
- |
0 |
|
- |
Cl-9(Marking) |
- |
0 |
|
- |
Cl-4.3(Finish) |
- |
0 |
|
- |
Cl-5(Materials) |
- |
0 |
|
- |
Cl-7.1, Table-2(Size code) |
- |
0 |
|
- |
Cl-7.1, Table-2(Width corresponding to size code (dimension w, Figure 1)) |
- |
0 |
|
- |
Cl-7.1, Table-2(Descriptive size) |
- |
0 |
|
- |
Cl-7.1, Table-2(Width corresponding to descriptive size (dimension w, Figure 1)) |
- |
0 |
|
- |
Cl-7.1, Table-2(Minimum length (dimension l, Figure 1)) |
- |
0 |
|
- |
Cl-7.1, Table-2(Minimum thickness (at locations shown in Figure 1)) |
- |
0 |
|
- |
Cl-7.1, Table-2(Maximum thickness (at approximate centre of palm)) |
- |
0 |
|
- |
Cl-7.2(Water tightness) |
- |
0 |
|
- |
Cl-7.3.2 & 7.3.3, Table-3(Minimum force at break before accelerated ageing, N) |
- |
0 |
|
- |
Cl-7.3.2 & 7.3.3, Table-3(Minimum elongation at break before accelerated ageing, %) |
- |
0 |
|
- |
Cl-7.3.2 & 7.3.3, Table-3(Minimum force at break after accelerated ageing, N) |
- |
0 |
|
- |
Cl-7.3.2 & 7.3.3, Table-3(Minimum elongation at break after accelerated ageing, %) |
- |
0 |
|
- |
Cl-9(Marking) |
- |
0 |
|
- |
|
15 May, 2027 |
- Included w.e.f 03.06.2025
Exclusion: Cl-7.4 (Sterility) |
13 |
IS 17399 (2020) |
Textiles - Polypropylene ( PP )/ High Density Polyethylene ( HDPE ) Laminated Woven Sacks for Mail Sorting, Storage, Transport and Distribution - Specification |
Type-I/Type-II/Type-III |
32820 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
5.1(MANUFACTURE - Raw Materials) |
- |
2500 |
|
- |
5.2(MANUFACTURE - Fabric for PP tapes & for HDPE tapes) |
- |
1800 |
|
- |
5.2- Table 1- i)("REQUIREMENTS - Inside dimensions
a) Bottom panel (L × W), mm b) Open top (L × W), mm c) Height (H), mm") |
- |
1500 |
|
- |
5.2- Table 1- ii)(REQUIREMENTS - Ends per dm) |
- |
250 |
|
- |
5.2- Table 1- iii)(REQUIREMENTS - Picks per dm) |
- |
250 |
|
- |
5.2- Table 1- iv)(REQUIREMENTS - Mass of laminated sack, g) |
- |
500 |
|
- |
5.2- Table 1- v)(REQUIREMENTS - Breaking strength of laminated fabric (Cut strip method1)), Min, N2) (kgf) a) Lengthwise b) Widthwise) |
- |
3000 |
|
- |
5.2- Table 1- vi)(REQUIREMENTS - Seam strength of bottom and side panel seam (Cut strip method), Min, N2), (kgf)) |
- |
1500 |
|
- |
5.2- Table 1- vii)("REQUIREMENTS - Elongation at break of fabric, percent:
a) Lengthwise b) Widthwise") |
- |
0 |
|
- |
5.2- Table 1- viii)(REQUIREMENTS - Ash content, Max, percent (a) For UV stabilized sacks (b) For non-UV stabilized sacks) |
- |
1500 |
|
- |
5.3(Lamination) |
- |
1500 |
|
- |
5.4(Sack Fabrication) |
- |
500 |
|
- |
5.5(Capacity) |
- |
500 |
|
- |
6.1- Table 1- i)(REQUIREMENTS - Inside dimensions a) Bottom panel (L × W), mm b) Open top (L × W), mm c) Height (H), mm) |
- |
0 |
|
- |
6.1- Table 1- ii)(REQUIREMENTS - Ends per dm) |
- |
0 |
|
- |
6.1- Table 1- iii)(REQUIREMENTS - Picks per dm) |
- |
0 |
|
- |
6.1- Table 1- iv)(REQUIREMENTS - Mass of laminated sack, g) |
- |
0 |
|
- |
6.1- Table 1- v)(REQUIREMENTS - Breaking strength of laminated fabric (Cut strip method1)), Min, N2) (kgf)) |
- |
0 |
|
- |
6.1- Table 1- vi)(REQUIREMENTS - Seam strength of bottom and side panel seam (Cut strip method), Min) |
- |
0 |
|
- |
6.1- Table 1- vii)(REQUIREMENTS - Elongation at break of fabric, percent a) Lengthwise b) Widthwise) |
- |
0 |
|
- |
6.1- Table 1- viii)(REQUIREMENTS - Ash content, Max, percent (a) For UV stabilized sacks (b) For non-UV stabilized sacks) |
- |
0 |
|
- |
6.4(UV Resistance Test) |
- |
16520 |
|
- |
7(PRINTING, PACKAGING AND MARKING) |
- |
500 |
|
- |
8(ATMOSPHERIC CONDITIONS FOR SAMPLE CONDITIONING AND TESTING) |
- |
500 |
|
- |
Clause 5.1(Raw Materials) |
- |
0 |
|
- |
"Clause 5.2 Table 1(i)"(Inside dimensions) |
- |
0 |
|
- |
"Clause 5.2 Table 1(i)"(Inside dimensions) |
- |
0 |
|
- |
"Clause 5.2 Table 1(ii)"(Ends per dm) |
- |
0 |
|
- |
"Clause 5.2 Table 1(iii)"(Picks per dm) |
- |
0 |
|
- |
"Clause 5.2 Table 1(iv)"("Mass of laminated
sack, g") |
- |
0 |
|
- |
"Clause 5.2 Table 1(v)"("Breaking strength of
laminated fabric") |
- |
0 |
|
- |
"Clause 5.2 Table 1(vi)"(Seam strength of bottom and side panel seam) |
- |
0 |
|
- |
"Clause 5.2 Table 1(vii)"("Elongation at break
of fabric, percent:") |
- |
0 |
|
- |
"Clause 5.2 Table 1(viii)"("Ash content, Max,
percent") |
- |
0 |
|
- |
Clause 5.3(Lamination with a thin film of polypropylene) |
- |
0 |
|
- |
Clause 5.4(Sack Fabrication) |
- |
0 |
|
- |
Clause 7.3(Marking on Sacks) |
- |
0 |
|
- |
Clause 5.1(Raw Materials) |
- |
0 |
|
- |
"Clause 5.2 Table 1(i)"(Inside dimensions) |
- |
0 |
|
- |
"Clause 5.2 Table 1(ii)"(Ends per dm) |
- |
0 |
|
- |
"Clause 5.2 Table 1(iii)"(Picks per dm) |
- |
0 |
|
- |
"Clause 5.2 Table 1(iv)"("Mass of laminated
sack, g") |
- |
0 |
|
- |
"Clause 5.2 Table 1(v)"("Breaking strength of
laminated fabric") |
- |
0 |
|
- |
"Clause 5.2 Table 1(vi)"(Seam strength of bottom and side panel seam) |
- |
0 |
|
- |
"Clause 5.2 Table 1(vii)"("Elongation at break
of fabric, percent:") |
- |
0 |
|
- |
"Clause 5.2 Table 1(viii)"("Ash content, Max,
percent") |
- |
0 |
|
- |
Clause 5.3(Lamination with a thin film of polypropylene) |
- |
0 |
|
- |
Clause 7.3(Marking on Sacks) |
- |
0 |
|
- |
|
15 May, 2027 |
- Included w.e.f.19.05.2025 |
14 |
IS 11652 (2017) |
Textiles – High density polyethylene (HDPE)/ polypropylene (PP) woven sacks for packaging of 50 kg cement – Specification (third revision) |
HDPE/PP |
30500 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
4.2
(width of tape, 2.5 mm ± 0.1 mm) |
- |
500 |
|
- |
Fig. 1- Table 1- Sr. no. ii
(Ends per dm - Annex B 40 ± 2 ) |
- |
250 |
|
- |
Fig. 1- Table 1-Sr. no. iii
(Picks per dm-Annex B 40 ± 2 ) |
- |
250 |
|
- |
Fig. 1- Table 1- Sr. no. i
(Dimensions, mm (see Note )- Annex B
c) Width of gusset (e) 76 ± 10 mm
) |
- |
250 |
|
- |
Fig. 1- Table 1- Sr. no. i
(Dimensions, mm (see Note ) -Annex B
d) Width of valve (v) 100, + 10/-5 mm
) |
- |
250 |
|
- |
Fig. 1- Table 1-Sr. no. i
(Dimensions, mm (see Note )- Annex B
b) Width of sack (w) 480 ± 10 mm
) |
- |
250 |
|
- |
Fig. 1, Table 1
(i) Dimensions, mm (see Note ) -Annex B
a) Length of sack, inside (l), 710 ± 10 mm
) |
- |
250 |
|
- |
4.5(and the remaining overhang shall not be more than 5 mm after trimming.) |
- |
250 |
|
- |
4.1(Raw Material
) |
- |
2000 |
|
- |
4.2
(Fabric) |
- |
0 |
|
- |
4.2
(Linear Density, 900 denier) |
- |
1000 |
|
- |
4.2
(The woven fabric shall be
of mesh, 10 × 10 per inch) |
- |
250 |
|
- |
4.2
(The woven fabric shall be
of weight, 79 g/m2 ) |
- |
500 |
|
- |
4.2
(The
denier of HDPE/ PP tape used in the manufacture of
woven fabric shall be subjected to the
tolerances: a) ± 10 percent on individual value, and
) |
- |
0 |
|
- |
4.2
(The
denier of HDPE/ PP tape used in the manufacture of
woven fabric shall be subjected to the
tolerances:
b) ± 5 percent on average.
) |
- |
0 |
|
- |
Fig. 1- Table 1- Sr. no. i
(Dimensions, mm (see Note ) -Annex B
e) Depth of valve (f), Min, The depth of the valve (f) shall not be less than 2 times the width of the valve (v) in case of gusseted sacks and not less than 2.3 times the width of the valve (v) in case of non-gusseted sacks.
) |
- |
0 |
|
- |
Fig. 1- Table 1- Sr. no. i
(Dimensions, mm (see Note ) -Annex B
e) Depth of valve (f), Min, The depth of the valve (f) shall not be less than 2.3 times the width of the valve (v) in case of non-gusseted sacks.
) |
- |
0 |
|
- |
4.3(Sacks) |
- |
1000 |
|
- |
4.4(Seam
) |
- |
1000 |
|
- |
4.4(Seam
) |
- |
0 |
|
- |
4.4(Seam The two rows of stitches shall be separated from each other by minimum 5 mm and ) |
- |
0 |
|
- |
4.4(Seam The outer stitch shall be minimum 8 mm from the outer edge of the sacks. ) |
- |
0 |
|
- |
4.4(Seam The stitching shall be done with double fold over seam to) |
- |
0 |
|
- |
4.4(to a depth of minimum 25 mm, so that so that) |
- |
250 |
|
- |
4.4(that the stitches pass through a minimum of six layers of the fabric.) |
- |
250 |
|
- |
4.4(The number of stitches/dm shall be 14 ± 2.) |
- |
0 |
|
- |
4.4(Seam) |
- |
0 |
|
- |
4.4(The material used for stitching shall be HDPE/PP tape having minimum 20 percent higher denier than the tapes used
in the fabric.) |
- |
0 |
|
- |
4.4(Seam) |
- |
0 |
|
- |
4.4(Seam) |
- |
0 |
|
- |
4.4(Seam) |
- |
0 |
|
- |
4.5(Lamination ) |
- |
1000 |
|
- |
4.5(Lamination ) |
- |
0 |
|
- |
4.5(Lamination ) |
- |
0 |
|
- |
4.6(Capacity The sack shall have the nominal filling capacity of 50 kg) |
- |
250 |
|
- |
4.7(Valve for Filling of Sacks) |
- |
250 |
|
- |
4.7(There shall be a double fold at the top seam and) |
- |
0 |
|
- |
4.7(and then stitching shall be done through six layers.) |
- |
0 |
|
- |
4.7(The depth of the valve (f) shall not be less than 2 times the width of the valve (v) in case of gusseted sacks and) |
- |
0 |
|
- |
4.7(and not less than 2.3 times the width of the valve (v) in case of non-gusseted sacks.
) |
- |
0 |
|
- |
5/5.1-Table 1-Sr. no. iv(Requirements, Mass of Sack- IS 1964
a) Non-gusseted type 70 + 6%) |
- |
500 |
|
- |
5/5.1-Table 1-Sr. no. iv(Requirements, Mass of Sack- IS 1964
a) gusseted type 71 + 6%) |
- |
0 |
|
- |
5/5.1(The mass of bale of sacks (excluding packing materials) shall be within ± 3 percent of the mass calculated by multiplying the number of sacks with the mass of sack specified in Table 1.) |
- |
0 |
|
- |
5/5.3-Table 1-Sr. no.v(Average breaking strength of fabric [Ravelled strip method, 325 mm × 70 mm] Min, N(kgf): -1969 (Part 1) a) Lengthwise , 900 (91.8) ) |
- |
3000 |
|
- |
5/5.3-Table 1-Sr. no.v(Average breaking strength of fabric [Ravelled strip method, 325 mm × 70 mm] Min, N(kgf): - 1969 (Part 1) b) Widthwise , 900 (91.8) ) |
- |
0 |
|
- |
5/5.3-Table 1-Sr. no.vi(Breaking strength of top seam (Ravelled strip method), Min, - IS 9030 N (kgf) 400 (40.8)) |
- |
1500 |
|
- |
5/5.3-Table 1-Sr. no.vi(Breaking strength of bottom seam (Ravelled strip method), Min, - IS 9030 N (kgf) 400 (40.8)) |
- |
0 |
|
- |
5/5.3-Table 1-Sr. no.vii(Elongation at break of fabric (Ravelled strip method), percent : - IS 1969 (Part1 ) a) Lengthwise 15 to 25) |
- |
0 |
|
- |
5/5.3-Table 1-Sr. no.vii(Elongation at break of fabric (Ravelled strip method), percent : - IS 1969 (Part1 ) b) Widthwise 15 to 25) |
- |
0 |
|
- |
5/5.4-Table 1-Sr. no.viii(Drop impact strength - Annex C No failure) |
- |
1500 |
|
- |
5/5.5-Table 1-Sr. no.viii(Ash content Max percent- Annex D a) For UV stabilized sacks 2.2
) |
- |
1500 |
|
- |
5/5.5-Table 1-Sr. no.viii(Ash content Max percent- Annex D b) For non-UV stabilized sacks 6
) |
- |
0 |
|
- |
5/5.6 (UV Resistance, ) |
- |
0 |
|
- |
5/5.6 (UV Resistance, The UV stabilized woven fabric shall have at least 50 percent retention of the original breaking strength when tested after the same has been exposed
to a) UV Radiation -Annex F ) |
- |
11600 |
|
- |
5/5.6 (UV Resistance, The UV stabilized woven fabric shall have at least 50 percent retention of the original breaking strength when tested after the same has been exposed
to b) Accelerated Weathering - Annex F ) |
- |
0 |
|
- |
4.2
(width of tape, 2.5 mm ± 0.1 mm) |
- |
0 |
|
- |
Fig. 1- Table 1- Sr. no. ii
(Ends per dm - Annex B 40 ± 2 ) |
- |
0 |
|
- |
Fig. 1- Table 1-Sr. no. iii
(Picks per dm-Annex B 40 ± 2 ) |
- |
0 |
|
- |
Fig. 1- Table 1- Sr. no. i
(Dimensions, mm (see Note )- Annex B
c) Width of gusset (e) 76 ± 10 mm
) |
- |
0 |
|
- |
Fig. 1- Table 1- Sr. no. i
(Dimensions, mm (see Note ) -Annex B
d) Width of valve (v) 100, + 10/-5 mm
) |
- |
0 |
|
- |
Fig. 1- Table 1-Sr. no. i
(Dimensions, mm (see Note )- Annex B
b) Width of sack (w) 480 ± 10 mm
) |
- |
0 |
|
- |
Fig. 1, Table 1
(i) Dimensions, mm (see Note ) -Annex B
a) Length of sack, inside (l), 710 ± 10 mm
) |
- |
0 |
|
- |
4.5(and the remaining overhang shall not be more than 5 mm after trimming.) |
- |
0 |
|
- |
4.1(Raw Material
) |
- |
0 |
|
- |
4.2
(Fabric) |
- |
0 |
|
- |
4.2
(Linear Density, 900 denier) |
- |
0 |
|
- |
4.2
(The woven fabric shall be
of mesh, 10 × 10 per inch) |
- |
0 |
|
- |
4.2
(The woven fabric shall be
of weight, 79 g/m2 ) |
- |
0 |
|
- |
4.2
(The
denier of HDPE/ PP tape used in the manufacture of
woven fabric shall be subjected to the
tolerances: a) ± 10 percent on individual value, and
) |
- |
0 |
|
- |
4.2
(The
denier of HDPE/ PP tape used in the manufacture of
woven fabric shall be subjected to the
tolerances:
b) ± 5 percent on average.
) |
- |
0 |
|
- |
Fig. 1- Table 1- Sr. no. i
(Dimensions, mm (see Note ) -Annex B
e) Depth of valve (f), Min, The depth of the valve (f) shall not be less than 2 times the width of the valve (v) in case of gusseted sacks and not less than 2.3 times the width of the valve (v) in case of non-gusseted sacks.
) |
- |
0 |
|
- |
Fig. 1- Table 1- Sr. no. i
(Dimensions, mm (see Note ) -Annex B
e) Depth of valve (f), Min, The depth of the valve (f) shall not be less than 2.3 times the width of the valve (v) in case of non-gusseted sacks.
) |
- |
0 |
|
- |
4.3(Sacks) |
- |
0 |
|
- |
4.4(Seam
) |
- |
0 |
|
- |
4.4(Seam
) |
- |
0 |
|
- |
4.4(Seam The two rows of stitches shall be separated from each other by minimum 5 mm and ) |
- |
0 |
|
- |
4.4(Seam The outer stitch shall be minimum 8 mm from the outer edge of the sacks. ) |
- |
0 |
|
- |
4.4(Seam The stitching shall be done with double fold over seam to) |
- |
0 |
|
- |
4.4(to a depth of minimum 25 mm, so that so that) |
- |
0 |
|
- |
4.4(that the stitches pass through a minimum of six layers of the fabric.) |
- |
0 |
|
- |
4.4(The number of stitches/dm shall be 14 ± 2.) |
- |
0 |
|
- |
4.4(Seam) |
- |
0 |
|
- |
4.4(The material used for stitching shall be HDPE/PP tape having minimum 20 percent higher denier than the tapes used
in the fabric.) |
- |
0 |
|
- |
4.4(Seam) |
- |
0 |
|
- |
4.4(Seam) |
- |
0 |
|
- |
4.4(Seam) |
- |
0 |
|
- |
4.5(Lamination ) |
- |
0 |
|
- |
4.5(Lamination ) |
- |
0 |
|
- |
4.5(Lamination ) |
- |
0 |
|
- |
4.6(Capacity The sack shall have the nominal filling capacity of 50 kg) |
- |
0 |
|
- |
4.7(Valve for Filling of Sacks) |
- |
400 |
|
- |
4.7(There shall be a double fold at the top seam and) |
- |
0 |
|
- |
4.7(and then stitching shall be done through six layers.) |
- |
0 |
|
- |
4.7(The depth of the valve (f) shall not be less than 2 times the width of the valve (v) in case of gusseted sacks and) |
- |
0 |
|
- |
4.7(and not less than 2.3 times the width of the valve (v) in case of non-gusseted sacks.
) |
- |
0 |
|
- |
5/5.1-Table 1-Sr. no. iv(Requirements, Mass of Sack- IS 1964
a) Non-gusseted type 70 + 6%) |
- |
0 |
|
- |
5/5.1-Table 1-Sr. no. iv(Requirements, Mass of Sack- IS 1964
a) gusseted type 71 + 6%) |
- |
0 |
|
- |
5/5.1(The mass of bale of sacks (excluding packing materials) shall be within ± 3 percent of the mass calculated by multiplying the number of sacks with the mass of sack specified in Table 1.) |
- |
0 |
|
- |
5/5.3-Table 1-Sr. no.v(Average breaking strength of fabric [Ravelled strip method, 325 mm × 70 mm] Min, N(kgf): -1969 (Part 1) a) Lengthwise , 900 (91.8) ) |
- |
0 |
|
- |
5/5.3-Table 1-Sr. no.v(Average breaking strength of fabric [Ravelled strip method, 325 mm × 70 mm] Min, N(kgf): - 1969 (Part 1) b) Widthwise , 900 (91.8) ) |
- |
0 |
|
- |
5/5.3-Table 1-Sr. no.vi(Breaking strength of top seam (Ravelled strip method), Min, - IS 9030 N (kgf) 400 (40.8)) |
- |
0 |
|
- |
5/5.3-Table 1-Sr. no.vi(Breaking strength of bottom seam (Ravelled strip method), Min, - IS 9030 N (kgf) 400 (40.8)) |
- |
0 |
|
- |
5/5.3-Table 1-Sr. no.vii(Elongation at break of fabric (Ravelled strip method), percent : - IS 1969 (Part1 ) a) Lengthwise 15 to 25) |
- |
0 |
|
- |
5/5.3-Table 1-Sr. no.vii(Elongation at break of fabric (Ravelled strip method), percent : - IS 1969 (Part1 ) b) Widthwise 15 to 25) |
- |
0 |
|
- |
5/5.4-Table 1-Sr. no.viii(Drop impact strength - Annex C No failure) |
- |
0 |
|
- |
5/5.5-Table 1-Sr. no.viii(Ash content Max percent- Annex D a) For UV stabilized sacks 2.2
) |
- |
0 |
|
- |
5/5.5-Table 1-Sr. no.viii(Ash content Max percent- Annex D b) For non-UV stabilized sacks 6
) |
- |
0 |
|
- |
5/5.6 (UV Resistance, ) |
- |
0 |
|
- |
5/5.6 (UV Resistance, The UV stabilized woven fabric shall have at least 50 percent retention of the original breaking strength when tested after the same has been exposed
to a) UV Radiation -Annex F ) |
- |
0 |
|
- |
5/5.6 (UV Resistance, The UV stabilized woven fabric shall have at least 50 percent retention of the original breaking strength when tested after the same has been exposed
to b) Accelerated Weathering - Annex F ) |
- |
0 |
|
- |
4.2
(width of tape, 2.5 mm ± 0.1 mm) |
- |
0 |
|
- |
Fig. 1- Table 1- Sr. no. ii
(Ends per dm - Annex B 40 ± 2 ) |
- |
0 |
|
- |
Fig. 1- Table 1-Sr. no. iii
(Picks per dm-Annex B 40 ± 2 ) |
- |
0 |
|
- |
Fig. 1- Table 1- Sr. no. i
(Dimensions, mm (see Note )- Annex B
c) Width of gusset (e) 76 ± 10 mm
) |
- |
0 |
|
- |
Fig. 1- Table 1- Sr. no. i
(Dimensions, mm (see Note ) -Annex B
d) Width of valve (v) 100, + 10/-5 mm
) |
- |
0 |
|
- |
Fig. 1- Table 1-Sr. no. i
(Dimensions, mm (see Note )- Annex B
b) Width of sack (w) 480 ± 10 mm
) |
- |
0 |
|
- |
Fig. 1, Table 1
(i) Dimensions, mm (see Note ) -Annex B
a) Length of sack, inside (l), 710 ± 10 mm
) |
- |
0 |
|
- |
4.5(and the remaining overhang shall not be more than 5 mm after trimming.) |
- |
0 |
|
- |
4.1(Raw Material
) |
- |
0 |
|
- |
4.2
(Fabric) |
- |
0 |
|
- |
4.2
(Linear Density, 900 denier) |
- |
0 |
|
- |
4.2
(The woven fabric shall be
of mesh, 10 × 10 per inch) |
- |
0 |
|
- |
4.2
(The woven fabric shall be
of weight, 79 g/m2 ) |
- |
0 |
|
- |
4.2
(The
denier of HDPE/ PP tape used in the manufacture of
woven fabric shall be subjected to the
tolerances: a) ± 10 percent on individual value, and
) |
- |
0 |
|
- |
4.2
(The
denier of HDPE/ PP tape used in the manufacture of
woven fabric shall be subjected to the
tolerances:
b) ± 5 percent on average.
) |
- |
0 |
|
- |
Fig. 1- Table 1- Sr. no. i
(Dimensions, mm (see Note ) -Annex B
e) Depth of valve (f), Min, The depth of the valve (f) shall not be less than 2 times the width of the valve (v) in case of gusseted sacks and not less than 2.3 times the width of the valve (v) in case of non-gusseted sacks.
) |
- |
0 |
|
- |
Fig. 1- Table 1- Sr. no. i
(Dimensions, mm (see Note ) -Annex B
e) Depth of valve (f), Min, The depth of the valve (f) shall not be less than 2.3 times the width of the valve (v) in case of non-gusseted sacks.
) |
- |
0 |
|
- |
4.3(Sacks) |
- |
0 |
|
- |
4.4(Seam
) |
- |
0 |
|
- |
4.4(Seam
) |
- |
0 |
|
- |
4.4(Seam The two rows of stitches shall be separated from each other by minimum 5 mm and ) |
- |
0 |
|
- |
4.4(Seam The outer stitch shall be minimum 8 mm from the outer edge of the sacks. ) |
- |
0 |
|
- |
4.4(Seam The stitching shall be done with double fold over seam to) |
- |
0 |
|
- |
4.4(to a depth of minimum 25 mm, so that so that) |
- |
0 |
|
- |
4.4(that the stitches pass through a minimum of six layers of the fabric.) |
- |
0 |
|
- |
4.4(The number of stitches/dm shall be 14 ± 2.) |
- |
0 |
|
- |
4.4(Seam) |
- |
0 |
|
- |
4.4(The material used for stitching shall be HDPE/PP tape having minimum 20 percent higher denier than the tapes used
in the fabric.) |
- |
0 |
|
- |
4.4(Seam) |
- |
0 |
|
- |
4.4(Seam) |
- |
0 |
|
- |
4.4(Seam) |
- |
0 |
|
- |
4.5(Lamination ) |
- |
0 |
|
- |
4.5(Lamination ) |
- |
0 |
|
- |
4.5(Lamination ) |
- |
0 |
|
- |
4.6(Capacity The sack shall have the nominal filling capacity of 50 kg) |
- |
0 |
|
- |
4.7(Valve for Filling of Sacks) |
- |
0 |
|
- |
4.7(There shall be a double fold at the top seam and) |
- |
0 |
|
- |
4.7(and then stitching shall be done through six layers.) |
- |
0 |
|
- |
4.7(The depth of the valve (f) shall not be less than 2 times the width of the valve (v) in case of gusseted sacks and) |
- |
0 |
|
- |
4.7(and not less than 2.3 times the width of the valve (v) in case of non-gusseted sacks.
) |
- |
0 |
|
- |
5/5.1-Table 1-Sr. no. iv(Requirements, Mass of Sack- IS 1964
a) Non-gusseted type 70 + 6%) |
- |
0 |
|
- |
5/5.1-Table 1-Sr. no. iv(Requirements, Mass of Sack- IS 1964
a) gusseted type 71 + 6%) |
- |
0 |
|
- |
5/5.1(The mass of bale of sacks (excluding packing materials) shall be within ± 3 percent of the mass calculated by multiplying the number of sacks with the mass of sack specified in Table 1.) |
- |
0 |
|
- |
5/5.3-Table 1-Sr. no.v(Average breaking strength of fabric [Ravelled strip method, 325 mm × 70 mm] Min, N(kgf): -1969 (Part 1) a) Lengthwise , 900 (91.8) ) |
- |
0 |
|
- |
5/5.3-Table 1-Sr. no.v(Average breaking strength of fabric [Ravelled strip method, 325 mm × 70 mm] Min, N(kgf): - 1969 (Part 1) b) Widthwise , 900 (91.8) ) |
- |
0 |
|
- |
5/5.3-Table 1-Sr. no.vi(Breaking strength of top seam (Ravelled strip method), Min, - IS 9030 N (kgf) 400 (40.8)) |
- |
0 |
|
- |
5/5.3-Table 1-Sr. no.vi(Breaking strength of bottom seam (Ravelled strip method), Min, - IS 9030 N (kgf) 400 (40.8)) |
- |
0 |
|
- |
5/5.3-Table 1-Sr. no.vii(Elongation at break of fabric (Ravelled strip method), percent : - IS 1969 (Part1 ) a) Lengthwise 15 to 25) |
- |
0 |
|
- |
5/5.3-Table 1-Sr. no.vii(Elongation at break of fabric (Ravelled strip method), percent : - IS 1969 (Part1 ) b) Widthwise 15 to 25) |
- |
0 |
|
- |
5/5.4-Table 1-Sr. no.viii(Drop impact strength - Annex C No failure) |
- |
0 |
|
- |
5/5.5-Table 1-Sr. no.viii(Ash content Max percent- Annex D a) For UV stabilized sacks 2.2
) |
- |
0 |
|
- |
5/5.5-Table 1-Sr. no.viii(Ash content Max percent- Annex D b) For non-UV stabilized sacks 6
) |
- |
0 |
|
- |
5/5.6 (UV Resistance, ) |
- |
0 |
|
- |
5/5.6 (UV Resistance, The UV stabilized woven fabric shall have at least 50 percent retention of the original breaking strength when tested after the same has been exposed
to a) UV Radiation -Annex F ) |
- |
0 |
|
- |
5/5.6 (UV Resistance, The UV stabilized woven fabric shall have at least 50 percent retention of the original breaking strength when tested after the same has been exposed
to b) Accelerated Weathering - Annex F ) |
- |
0 |
|
- |
4.2
(width of tape, 2.5 mm ± 0.1 mm) |
- |
0 |
|
- |
Cl-5 Fig. 1- Table 1- Sr. no. ii(Ends per dm - Annex B 40 ± 2) |
- |
0 |
|
- |
Cl-5 Fig. 1- Table 1-Sr. no. iii(Picks per dm-Annex B 40 ± 2) |
- |
0 |
|
- |
Cl-5, Fig. 1- Table 1- Sr. no. i(Dimensions, mm (see Note )- Annex B
c) Width of gusset (e) 76 ± 10 mm) |
- |
0 |
|
- |
Cl-5, Fig. 1- Table 1- Sr. no. i(Dimensions, mm (see Note ) -Annex B
d) Width of valve (v) 100, + 10/-5 mm) |
- |
0 |
|
- |
Cl-5, Fig. 1- Table 1-Sr. no. i(Dimensions, mm (see Note )- Annex B
b) Width of sack (w) 480 ± 10 mm) |
- |
0 |
|
- |
Cl-5, Fig. 1, Table 1(i) Dimensions, mm (see Note ) -Annex B
a) Length of sack, inside (l), 710 ± 10 mm) |
- |
0 |
|
- |
4.5(and the remaining overhang shall not be more than 5 mm after trimming.) |
- |
0 |
|
- |
4.1(Raw Material
) |
- |
0 |
|
- |
4.2
(Fabric) |
- |
0 |
|
- |
4.2
(Linear Density, 900 denier) |
- |
0 |
|
- |
4.2
(The woven fabric shall be
of mesh, 10 × 10 per inch) |
- |
0 |
|
- |
4.2
(The woven fabric shall be
of weight, 79 g/m2 ) |
- |
0 |
|
- |
4.2
(The
denier of HDPE/ PP tape used in the manufacture of
woven fabric shall be subjected to the
tolerances: a) ± 10 percent on individual value, and
) |
- |
0 |
|
- |
4.2
(The
denier of HDPE/ PP tape used in the manufacture of
woven fabric shall be subjected to the
tolerances:
b) ± 5 percent on average.
) |
- |
0 |
|
- |
Fig. 1- Table 1- Sr. no. i
(Dimensions, mm (see Note ) -Annex B
e) Depth of valve (f), Min, The depth of the valve (f) shall not be less than 2 times the width of the valve (v) in case of gusseted sacks and not less than 2.3 times the width of the valve (v) in case of non-gusseted sacks.
) |
- |
0 |
|
- |
Fig. 1- Table 1- Sr. no. i
(Dimensions, mm (see Note ) -Annex B
e) Depth of valve (f), Min, The depth of the valve (f) shall not be less than 2.3 times the width of the valve (v) in case of non-gusseted sacks.
) |
- |
0 |
|
- |
4.3(Sacks) |
- |
0 |
|
- |
4.4(Seam
) |
- |
0 |
|
- |
4.4(Seam
) |
- |
0 |
|
- |
4.4(Seam The two rows of stitches shall be separated from each other by minimum 5 mm and ) |
- |
0 |
|
- |
4.4(Seam The outer stitch shall be minimum 8 mm from the outer edge of the sacks. ) |
- |
0 |
|
- |
4.4(Seam The stitching shall be done with double fold over seam to) |
- |
0 |
|
- |
4.4(to a depth of minimum 25 mm, so that so that) |
- |
0 |
|
- |
4.4(that the stitches pass through a minimum of six layers of the fabric.) |
- |
0 |
|
- |
4.4(The number of stitches/dm shall be 14 ± 2.) |
- |
0 |
|
- |
4.4(Seam) |
- |
0 |
|
- |
4.4(The material used for stitching shall be HDPE/PP tape having minimum 20 percent higher denier than the tapes used
in the fabric.) |
- |
0 |
|
- |
4.4(Seam) |
- |
0 |
|
- |
4.4(Seam) |
- |
0 |
|
- |
4.5(Lamination ) |
- |
0 |
|
- |
4.5(Lamination ) |
- |
0 |
|
- |
4.5(Lamination ) |
- |
0 |
|
- |
4.6(Capacity The sack shall have the nominal filling capacity of 50 kg) |
- |
0 |
|
- |
4.7(Valve for Filling of Sacks) |
- |
0 |
|
- |
4.7(There shall be a double fold at the top seam and) |
- |
0 |
|
- |
4.7(and then stitching shall be done through six layers.) |
- |
0 |
|
- |
4.7(The depth of the valve (f) shall not be less than 2 times the width of the valve (v) in case of gusseted sacks and) |
- |
0 |
|
- |
4.7(and not less than 2.3 times the width of the valve (v) in case of non-gusseted sacks.
) |
- |
0 |
|
- |
5/5.1-Table 1-Sr. no. iv(Requirements, Mass of Sack- IS 1964
a) Non-gusseted type 70 + 6%) |
- |
0 |
|
- |
5/5.1-Table 1-Sr. no. iv(Requirements, Mass of Sack- IS 1964
a) gusseted type 71 + 6%) |
- |
0 |
|
- |
5/5.1(The mass of bale of sacks (excluding packing materials) shall be within ± 3 percent of the mass calculated by multiplying the number of sacks with the mass of sack specified in Table 1.) |
- |
0 |
|
- |
5/5.3-Table 1-Sr. no.v(Average breaking strength of fabric [Ravelled strip method, 325 mm × 70 mm] Min, N(kgf): -1969 (Part 1) a) Lengthwise , 900 (91.8) ) |
- |
0 |
|
- |
5/5.3-Table 1-Sr. no.v(Average breaking strength of fabric [Ravelled strip method, 325 mm × 70 mm] Min, N(kgf): - 1969 (Part 1) b) Widthwise , 900 (91.8) ) |
- |
0 |
|
- |
5/5.3-Table 1-Sr. no.vi(Breaking strength of top seam (Ravelled strip method), Min, - IS 9030 N (kgf) 400 (40.8)) |
- |
0 |
|
- |
5/5.3-Table 1-Sr. no.vi(Breaking strength of bottom seam (Ravelled strip method), Min, - IS 9030 N (kgf) 400 (40.8)) |
- |
0 |
|
- |
5/5.3-Table 1-Sr. no.vii(Elongation at break of fabric (Ravelled strip method), percent : - IS 1969 (Part1 ) a) Lengthwise 15 to 25) |
- |
0 |
|
- |
5/5.3-Table 1-Sr. no.vii(Elongation at break of fabric (Ravelled strip method), percent : - IS 1969 (Part1 ) b) Widthwise 15 to 25) |
- |
0 |
|
- |
5/5.4-Table 1-Sr. no.viii(Drop impact strength - Annex C No failure) |
- |
0 |
|
- |
5/5.5-Table 1-Sr. no.viii(Ash content Max percent- Annex D a) For UV stabilized sacks 2.2
) |
- |
0 |
|
- |
5/5.5-Table 1-Sr. no.viii(Ash content Max percent- Annex D b) For non-UV stabilized sacks 6
) |
- |
0 |
|
- |
5/5.6 (UV Resistance, ) |
- |
0 |
|
- |
5/5.6 (UV Resistance, The UV stabilized woven fabric shall have at least 50 percent retention of the original breaking strength when tested after the same has been exposed
to a) UV Radiation -Annex F ) |
- |
0 |
|
- |
5/5.6 (UV Resistance, The UV stabilized woven fabric shall have at least 50 percent retention of the original breaking strength when tested after the same has been exposed
to b) Accelerated Weathering - Annex F ) |
- |
0 |
|
- |
4.4(Seam) |
- |
0 |
|
` |
|
15 May, 2027 |
- Included w.e.f.19.05.2025 |
15 |
IS 17373 (2020) |
Geosynthetics – Geogrids used in reinforced soil retaining structures – Specification |
All type(Ultimate tensile strength upto 600 kN) |
240000 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
1("Ultimate tensile strength- (MD/CD)
IS- 16635
60/20
80/30
100/30
120/30
150/30
180/30
200/30
250/30
300/30
350/30
400/30") |
- |
4000 |
|
- |
1("Elongation at designated load- IS 16635
MD
CD") |
- |
1000 |
|
- |
1("UV resistance, strength retained after
500 h exposure- IS 13162 (part-2)") |
- |
60000 |
|
- |
1(Chemical resistance, strength retained after 72 h immersion- IS 17363) |
- |
30000 |
|
- |
1(Width) |
- |
500 |
|
- |
1(Roll Length) |
- |
500 |
|
- |
2("Ultimate tensile strength - IS 16635
MD/CD
30/5
40/5
50/5
60/5
70/5
80/5
90/5
100/5
120/5
120/5
150/5
175/5
200/5") |
- |
0 |
|
Ultimate tensile test price is 4000/-. |
2("Elongation at designated load - IS 16635
MD and CD") |
- |
0 |
|
Elongation test price is 1000/-. |
2("UV resistance, strength retained after
500 h exposure- IS 13162 (part-2)") |
- |
0 |
|
UV resistance test price is 60,000/-. |
2(Chemical resistance, strength retained after 72 h immersion- IS 17363) |
- |
0 |
|
Chemical resistance price is 30,000/-. |
2(Width) |
- |
0 |
|
Test price for width measurement is 500/-. |
2(Roll Length) |
- |
0 |
|
Test price for roll length measurement is 500/-. |
3("Ultimate tensile strength - IS 16635
MD/CD
50
100
150
200
250
300
350
400
500
600
700
800
900
1000
1100
1200
1300") |
- |
0 |
|
Ultimate tensile test price is 4000/-. |
3("Elongation at designated load - IS 16635
MD and CD") |
- |
0 |
|
Elongation test price is 1000/-. |
3("UV resistance, strength retained after
500 h exposure- IS 13162 (part-2)") |
- |
0 |
|
UV resistance test price is 60,000/-. |
3(Chemical resistance, strength retained after 72 h immersion- IS 17363) |
- |
0 |
|
Chemical resistance price is 30,000/-. |
3(Width) |
- |
0 |
|
Test price for width measurement is 500/-. |
3(Roll Length) |
- |
0 |
|
Test price for roll length measurement is 500/-. |
Clause 6.2, Table 1, 2 and 3, SI. No. (i)(Ultimate Tensile Strength,) |
- |
0 |
|
Ultimate tensile test price is 4000/-. |
Clause 6.2, Table 1, 2 and 3, SI. No. (ii)(Elongation at Designated Load) |
- |
0 |
|
Elongation test price is 1000/-. |
Clause 6.2, Table 1, 2 and 3, SI. No. (iii)(UV resistance, strength retained after 500 h exposure) |
- |
0 |
|
UV resistance test price is 60,000/-. |
Clause 6.2, Table 1, 2 and 3, SI. No. (iv)(Chemical resistance, strength retained after 72 h immersion) |
- |
0 |
|
Chemical resistance price is 30,000/-. |
Clause 6.2, Table 1, 2 and 3, SI. No. (v)(Width) |
- |
0 |
|
Test price for width measurement is 500/-. |
Clause 6.2, Table 1, 2 and 3, SI. No. (vi)(Roll length) |
- |
0 |
|
Test price for roll length measurement is 500/-. |
Clause No. 8(Thickness) |
- |
500 |
|
- |
Clause No. 9.1(Geostrip identification) |
- |
3000 |
|
- |
CL 3.2(Aperature Size) |
- |
500 |
|
- |
6.2 Table 1("Chemical resistance, strength retained
after 72 h immersion (percent)") |
- |
0 |
|
Chemical resistance price is 30,000/-. |
CL 6.3.3(Resistance to hydrolysis) |
- |
10000 |
|
- |
6.2 Table 1(UV resistance strength retained after 500h exposure (Percent)) |
- |
0 |
|
UV resistance test price is 60,000/-. |
CL 6.3.2(Resistance to oxidation) |
- |
20000 |
|
- |
CL 6.3.3(Resistance to Creep) |
- |
10000 |
|
- |
CL 5.1(Carbon black content) |
- |
3000 |
|
- |
CL 5.2(Number Average Molecular weight) |
- |
5000 |
|
- |
CL 5.2(CEG content) |
- |
5000 |
|
- |
6.2 Table 1(Ultimate Tensile Strength kN/m (MD)) |
- |
0 |
|
Ultimate tensile test price is 4000/-. |
6.2 Table 1(Ultimate Tensile Strength kN/m (CD)) |
- |
0 |
|
Ultimate tensile test price is 4000/-. |
6.2 Table 1(Elongation at designated load (Percentage)) |
- |
0 |
|
Elongation test price is 1000/-. |
6.2 Table 1(Elongation at designated load (Percentage)) |
- |
0 |
|
Elongation test price is 1000/-. |
6.2 Table 1(Width (m)) |
- |
0 |
|
Test price for width measurement is 500/-. |
6.2 Table 1(Roll length (m)) |
- |
0 |
|
Test price for roll length measurement is 500/-. |
CL 5.1(Identification of material) |
- |
5000 |
|
- |
CL 6.1(Geogrid should be Dimensionally stable) |
- |
1000 |
|
- |
4(TYPES OF GEOGRIDS - a) Type 1 b) Type 2 c) Type 3) |
- |
500 |
|
- |
5.1("MATERIALS - Geogrid materials shall be inert to all chemicals
naturally found in commonly encountered soils
not containing adverse solvents and at ambient
temperatures") |
- |
5000 |
|
- |
5.2("MATERIALS - PET geogrips shall have average
molecular weight more than or equal to 25000 g/mol and shall have carboxyl end group content less than 30 mmol/kg") |
- |
5000 |
|
- |
6.1(REQUIREMENTS FOR GEOGRIDS - Geogrids shall be dimensionally stable and able to retain their geometry under manufacture,transport, and installation) |
- |
1000 |
|
- |
6.2-Table 1- i)(Requirements of Geogrids - Ultimate tensile strength) |
- |
0 |
|
Ultimate tensile test price is 4000/-. |
6.2 - Table 1- ii)(Requirements of Geogrids - Elongation at designated load) |
- |
0 |
|
Elongation test price is 1000/-. |
6.2 - Table 1- iii)(Requirements of Geogrids - UV resistance, strength retained after 500 h exposure) |
- |
0 |
|
UV resistance test price is 60,000/-. |
6.2 - Table 1- iv)(Requirements of Geogrids - Chemical resistance, strength retained after 72 h immersion) |
- |
0 |
|
Chemical resistance price is 30,000/-. |
6.2 - Table 1- v)(Requirements of Geogrids - Width) |
- |
0 |
|
Test price for width measurement is 500/-. |
6.2 - Table 1- vi)(Requirements of Geogrids - Length) |
- |
0 |
|
Test price for roll length measurement is 500/-. |
6.2 - Table 1- i)(Requirements of Geogrids - Ultimate tensile strength) |
- |
0 |
|
Ultimate tensile test price is 4000/-. |
6.2-Table 2- ii)(Requirements of Geogrids - Elongation at designated load) |
- |
0 |
|
Elongation test price is 1000/-. |
6.2 - Table 2- iii)(Requirements of Geogrids - UV resistance, strength retained after 500 h exposure) |
- |
0 |
|
UV resistance test price is 60,000/-. |
6.2 - Table 2- iv)(Requirements of Geogrids - Chemical resistance, strength retained after 72 h immersion) |
- |
0 |
|
Chemical resistance price is 30,000/-. |
6.2 - Table 2- v)(Requirements of Geogrids - Width) |
- |
0 |
|
Test price for width measurement is 500/-. |
6.2 - Table 2- vi)(Requirements of Geogrids - Length) |
- |
0 |
|
Test price for roll length measurement is 500/-. |
6.3.2(Reduction factor for durability is dependent on susceptibility of geogrid to attach by chemicals, thermal oxidation, hydrolysis, environmental stress cracking and micro-organisms) |
- |
0 |
|
Test price for cl. 6.3.2 is 20000/-. |
6.3.3(Reduction factor for creep shall be based on creep tests) |
- |
0 |
|
Test price for cl. 6.3.3 is 10000/-. |
7(MARKING AND LABELLING) |
- |
500 |
|
- |
8(PACKING) |
- |
500 |
|
- |
1("Ultimate tensile strength- (MD/CD)
IS- 16635
60/20
80/30
100/30
120/30
150/30
180/30
200/30
250/30
300/30
350/30
400/30") |
- |
0 |
|
- |
1("Elongation at designated load- IS 16635
MD
CD") |
- |
0 |
|
- |
1("UV resistance, strength retained after
500 h exposure- IS 13162 (part-2)") |
- |
0 |
|
- |
1(Chemical resistance, strength retained after 72 h immersion- IS 17363) |
- |
0 |
|
- |
1(Width) |
- |
0 |
|
- |
1(Roll Length) |
- |
0 |
|
- |
2("Ultimate tensile strength - IS 16635
MD/CD
30/5
40/5
50/5
60/5
70/5
80/5
90/5
100/5
120/5
120/5
150/5
175/5
200/5") |
- |
0 |
|
- |
2("Elongation at designated load - IS 16635
MD and CD") |
- |
0 |
|
- |
2("UV resistance, strength retained after
500 h exposure- IS 13162 (part-2)") |
- |
0 |
|
- |
2(Chemical resistance, strength retained after 72 h immersion- IS 17363) |
- |
0 |
|
- |
2(Width) |
- |
0 |
|
- |
2(Roll Length) |
- |
0 |
|
- |
3("Ultimate tensile strength - IS 16635
MD/CD
50
100
150
200
250
300
350
400
500
600
700
800
900
1000
1100
1200
1300") |
- |
0 |
|
- |
3("Elongation at designated load - IS 16635
MD and CD") |
- |
0 |
|
- |
3("UV resistance, strength retained after
500 h exposure- IS 13162 (part-2)") |
- |
0 |
|
- |
3(Chemical resistance, strength retained after 72 h immersion- IS 17363) |
- |
0 |
|
- |
3(Width) |
- |
0 |
|
- |
3(Roll Length) |
- |
0 |
|
- |
Clause 6.2, Table 1, 2 and 3, SI. No. (i)(Ultimate Tensile Strength,) |
- |
0 |
|
- |
Clause 6.2, Table 1, 2 and 3, SI. No. (ii)(Elongation at Designated Load) |
- |
0 |
|
- |
Clause 6.2, Table 1, 2 and 3, SI. No. (iii)(UV resistance, strength retained after 500 h exposure) |
- |
0 |
|
- |
Clause 6.2, Table 1, 2 and 3, SI. No. (iv)(Chemical resistance, strength retained after 72 h immersion) |
- |
0 |
|
- |
Clause 6.2, Table 1, 2 and 3, SI. No. (v)(Width) |
- |
0 |
|
- |
Clause 6.2, Table 1, 2 and 3, SI. No. (vi)(Roll length) |
- |
0 |
|
- |
Clause No. 8(Thickness) |
- |
0 |
|
- |
Clause No. 9.1(Geostrip identification) |
- |
0 |
|
- |
CL 3.2(Aperature Size) |
- |
0 |
|
- |
6.2 Table 1("Chemical resistance, strength retained
after 72 h immersion (percent)") |
- |
0 |
|
- |
CL 6.3.3(Resistance to hydrolysis) |
- |
0 |
|
- |
6.2 Table 1(UV resistance strength retained after 500h exposure (Percent)) |
- |
0 |
|
- |
CL 6.3.2(Resistance to oxidation) |
- |
0 |
|
- |
CL 6.3.3(Resistance to Creep) |
- |
0 |
|
- |
CL 5.1(Carbon black content) |
- |
0 |
|
- |
CL 5.2(Number Average Molecular weight) |
- |
0 |
|
- |
CL 5.2(CEG content) |
- |
0 |
|
- |
6.2 Table 1(Ultimate Tensile Strength kN/m (MD)) |
- |
0 |
|
- |
6.2 Table 1(Ultimate Tensile Strength kN/m (CD)) |
- |
0 |
|
- |
6.2 Table 1(Elongation at designated load (Percentage)) |
- |
0 |
|
- |
6.2 Table 1(Elongation at designated load (Percentage)) |
- |
0 |
|
- |
6.2 Table 1(Width (m)) |
- |
0 |
|
- |
6.2 Table 1(Roll length (m)) |
- |
0 |
|
- |
CL 5.1(Identification of material) |
- |
0 |
|
- |
CL 6.1(Geogrid should be Dimensionally stable) |
- |
0 |
|
- |
4(TYPES OF GEOGRIDS - a) Type 1 b) Type 2 c) Type 3) |
- |
0 |
|
- |
5.1("MATERIALS - Geogrid materials shall be inert to all chemicals
naturally found in commonly encountered soils
not containing adverse solvents and at ambient
temperatures") |
- |
0 |
|
- |
5.2("MATERIALS - PET geogrips shall have average
molecular weight more than or equal to 25000 g/mol and shall have carboxyl end group content less than 30 mmol/kg") |
- |
0 |
|
- |
6.1(REQUIREMENTS FOR GEOGRIDS - Geogrids shall be dimensionally stable and able to retain their geometry under manufacture,transport, and installation) |
- |
0 |
|
- |
6.2-Table 1- i)(Requirements of Geogrids - Ultimate tensile strength) |
- |
0 |
|
- |
6.2 - Table 1- ii)(Requirements of Geogrids - Elongation at designated load) |
- |
0 |
|
- |
6.2 - Table 1- iii)(Requirements of Geogrids - UV resistance, strength retained after 500 h exposure) |
- |
0 |
|
- |
6.2 - Table 1- iv)(Requirements of Geogrids - Chemical resistance, strength retained after 72 h immersion) |
- |
0 |
|
- |
6.2 - Table 1- v)(Requirements of Geogrids - Width) |
- |
0 |
|
- |
6.2 - Table 1- vi)(Requirements of Geogrids - Length) |
- |
0 |
|
- |
6.2 - Table 1- i)(Requirements of Geogrids - Ultimate tensile strength) |
- |
0 |
|
- |
6.2-Table 2- ii)(Requirements of Geogrids - Elongation at designated load) |
- |
0 |
|
- |
6.2 - Table 2- iii)(Requirements of Geogrids - UV resistance, strength retained after 500 h exposure) |
- |
0 |
|
- |
6.2 - Table 2- iv)(Requirements of Geogrids - Chemical resistance, strength retained after 72 h immersion) |
- |
0 |
|
- |
6.2 - Table 2- v)(Requirements of Geogrids - Width) |
- |
0 |
|
- |
6.2 - Table 2- vi)(Requirements of Geogrids - Length) |
- |
0 |
|
- |
6.3.2(Reduction factor for durability is dependent on susceptibility of geogrid to attach by chemicals, thermal oxidation, hydrolysis, environmental stress cracking and micro-organisms) |
- |
0 |
|
- |
6.3.3(Reduction factor for creep shall be based on creep tests) |
- |
0 |
|
- |
7(MARKING AND LABELLING) |
- |
0 |
|
- |
8(PACKING) |
- |
0 |
|
- |
|
15 May, 2027 |
- Included w.e.f.19.05.2025
Exclusion
CL 6.3.2 (Installation damage)
CL 6.3.2 (Resistance to Micro organisms)
6.3.1 (Reduction factor for installation damage shall be determined based on actual installation damage test) |
16 |
IS 16090 (2013) |
Geo-synthetics – Geo-textiles used as protection (or cushioning) materials – Specification |
All type |
150000 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
4.4, Table 1, (i)(Mass per unit area, g/m2) |
- |
1000 |
|
- |
4.4, Table 1, (ii)(Tensile strength, kN/m) |
- |
5000 |
|
- |
4.4, Table 1, (iii)(Trapezoidal tear strength, kN) |
- |
5000 |
|
- |
4.5, Table 1, (iv)(CBR puncture resistance, kN) |
- |
5000 |
|
- |
4.6, Table 1, (v)(Maximum UV resistance (after 500 h exposure), percent) |
- |
120000 |
|
- |
6.2(Sampling) |
- |
1000 |
|
- |
7(Packing) |
- |
1000 |
|
- |
9.1(Identification) |
- |
6000 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class I(Mass per unit area, g/m2) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class I(Tensile strength, kN/m) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class I(Trapezoidal tear strength, kN) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class I(CBR puncture resistance, kN) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class I(Maximum UV resistance (after 500 h exposure), percent) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class II(Mass per unit area, g/m2) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class II(Tensile strength, kN/m) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class II(Trapezoidal tear strength, kN) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class II(Trapezoidal tear strength, kN) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class II(CBR puncture resistance, kN) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class II(Maximum UV resistance (after 500 h exposure), percent) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class III(Mass per unit area, g/m2) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class III(Tensile strength, kN/m) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class III(Trapezoidal tear strength, kN) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class III(CBR puncture resistance, kN) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class III(Maximum UV resistance (after 500 h exposure), percent) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class IV(Mass per unit area, g/m2) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class IV(Tensile strength, kN/m) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class IV(Trapezoidal tear strength, kN) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class IV(CBR puncture resistance, kN) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class IV(Maximum UV resistance (after 500 h exposure), percent) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class V(Mass per unit area, g/m2) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class V(Tensile strength, kN/m) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class V(Trapezoidal tear strength, kN) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class V(CBR puncture resistance, kN) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class V(Maximum UV resistance (after 500 h exposure), percent) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class VI(Mass per unit area, g/m2) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class VI(Tensile strength, kN/m) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class VI(Trapezoidal tear strength, kN) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class VI(CBR puncture resistance, kN) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class VI(Maximum UV resistance (after 500 h exposure), percent) |
- |
0 |
|
- |
4.3(Carbon black content and carbon black dispersion test) |
- |
5000 |
|
- |
4.4, Table 1, (i)(Mass per unit area, g/m2) |
- |
0 |
|
- |
4.4, Table 1, (ii)(Tensile strength, kN/m) |
- |
0 |
|
- |
4.4, Table 1, (iii)(Trapezoidal tear strength, kN) |
- |
0 |
|
- |
4.5, Table 1, (iv)(CBR puncture resistance, kN) |
- |
0 |
|
- |
4.6, Table 1, (v)(Maximum UV resistance (after 500 h exposure), percent) |
- |
0 |
|
- |
6.2(Sampling) |
- |
0 |
|
- |
7(Packing) |
- |
0 |
|
- |
9.1(Identification) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class I(Mass per unit area, g/m2) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class I(Tensile strength, kN/m) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class I(Trapezoidal tear strength, kN) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class I(CBR puncture resistance, kN) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class I(Maximum UV resistance (after 500 h exposure), percent) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class II(Mass per unit area, g/m2) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class II(Tensile strength, kN/m) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class II(Trapezoidal tear strength, kN) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class II(Trapezoidal tear strength, kN) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class II(CBR puncture resistance, kN) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class II(Maximum UV resistance (after 500 h exposure), percent) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class III(Mass per unit area, g/m2) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class III(Tensile strength, kN/m) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class III(Trapezoidal tear strength, kN) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class III(CBR puncture resistance, kN) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class III(Maximum UV resistance (after 500 h exposure), percent) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class IV(Mass per unit area, g/m2) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class IV(Tensile strength, kN/m) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class IV(Trapezoidal tear strength, kN) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class IV(CBR puncture resistance, kN) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class IV(Maximum UV resistance (after 500 h exposure), percent) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class V(Mass per unit area, g/m2) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class V(Tensile strength, kN/m) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class V(Trapezoidal tear strength, kN) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class V(CBR puncture resistance, kN) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class V(Maximum UV resistance (after 500 h exposure), percent) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class VI(Mass per unit area, g/m2) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class VI(Tensile strength, kN/m) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class VI(Trapezoidal tear strength, kN) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class VI(CBR puncture resistance, kN) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class VI(Maximum UV resistance (after 500 h exposure), percent) |
- |
0 |
|
- |
4.3(Carbon black content and carbon black dispersion test) |
- |
0 |
|
- |
4.4, Table 1, (i)(Mass per unit area, g/m2) |
- |
0 |
|
- |
4.4, Table 1, (ii)(Tensile strength, kN/m) |
- |
0 |
|
- |
4.4, Table 1, (iii)(Trapezoidal tear strength, kN) |
- |
0 |
|
- |
4.5, Table 1, (iv)(CBR puncture resistance, kN) |
- |
0 |
|
- |
4.6, Table 1, (v)(Maximum UV resistance (after 500 h exposure), percent) |
- |
0 |
|
- |
6.2(Sampling) |
- |
0 |
|
- |
7(Packing) |
- |
0 |
|
- |
9.1(Identification) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class I(Mass per unit area, g/m2) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class I(Tensile strength, kN/m) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class I(Trapezoidal tear strength, kN) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class I(CBR puncture resistance, kN) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class I(Maximum UV resistance (after 500 h exposure), percent) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class II(Mass per unit area, g/m2) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class II(Tensile strength, kN/m) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class II(Trapezoidal tear strength, kN) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class II(Trapezoidal tear strength, kN) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class II(CBR puncture resistance, kN) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class II(Maximum UV resistance (after 500 h exposure), percent) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class III(Mass per unit area, g/m2) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class III(Tensile strength, kN/m) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class III(Trapezoidal tear strength, kN) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class III(CBR puncture resistance, kN) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class III(Maximum UV resistance (after 500 h exposure), percent) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class IV(Mass per unit area, g/m2) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class IV(Tensile strength, kN/m) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class IV(Trapezoidal tear strength, kN) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class IV(CBR puncture resistance, kN) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class IV(Maximum UV resistance (after 500 h exposure), percent) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class V(Mass per unit area, g/m2) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class V(Tensile strength, kN/m) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class V(Trapezoidal tear strength, kN) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class V(CBR puncture resistance, kN) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class V(Maximum UV resistance (after 500 h exposure), percent) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class VI(Mass per unit area, g/m2) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class VI(Tensile strength, kN/m) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class VI(Trapezoidal tear strength, kN) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class VI(CBR puncture resistance, kN) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class VI(Maximum UV resistance (after 500 h exposure), percent) |
- |
0 |
|
- |
4.3(Carbon black content and carbon black dispersion test) |
- |
0 |
|
- |
4.4, Table 1, (i)(Mass per unit area, g/m2) |
- |
0 |
|
- |
4.4, Table 1, (ii)(Tensile strength, kN/m) |
- |
0 |
|
- |
4.4, Table 1, (iii)(Trapezoidal tear strength, kN) |
- |
0 |
|
- |
4.5, Table 1, (iv)(CBR puncture resistance, kN) |
- |
0 |
|
- |
4.6, Table 1, (v)(Maximum UV resistance (after 500 h exposure), percent) |
- |
0 |
|
- |
6.2(Sampling) |
- |
0 |
|
- |
7(Packing) |
- |
0 |
|
- |
9.1(Identification) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class I(Mass per unit area, g/m2) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class I(Tensile strength, kN/m) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class I(Trapezoidal tear strength, kN) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class I(CBR puncture resistance, kN) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class I(Maximum UV resistance (after 500 h exposure), percent) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class II(Mass per unit area, g/m2) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class II(Tensile strength, kN/m) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class II(Trapezoidal tear strength, kN) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class II(Trapezoidal tear strength, kN) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class II(CBR puncture resistance, kN) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class II(Maximum UV resistance (after 500 h exposure), percent) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class III(Mass per unit area, g/m2) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class III(Tensile strength, kN/m) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class III(Trapezoidal tear strength, kN) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class III(CBR puncture resistance, kN) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class III(Maximum UV resistance (after 500 h exposure), percent) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class IV(Mass per unit area, g/m2) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class IV(Tensile strength, kN/m) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class IV(Trapezoidal tear strength, kN) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class IV(CBR puncture resistance, kN) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class IV(Maximum UV resistance (after 500 h exposure), percent) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class V(Mass per unit area, g/m2) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class V(Tensile strength, kN/m) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class V(Trapezoidal tear strength, kN) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class V(CBR puncture resistance, kN) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class V(Maximum UV resistance (after 500 h exposure), percent) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class VI(Mass per unit area, g/m2) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class VI(Tensile strength, kN/m) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class VI(Trapezoidal tear strength, kN) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class VI(CBR puncture resistance, kN) |
- |
0 |
|
- |
Table 1, Clauses 4.4, 4.5, 4.6 and 6.4, Class VI(Maximum UV resistance (after 500 h exposure), percent) |
- |
0 |
|
- |
4.3(Carbon black content and carbon black dispersion test) |
- |
0 |
|
- |
|
15 May, 2027 |
- Included w.e.f 02.06.2025 |
17 |
IS 16352 (2020) |
Geosynthetics – High density polyethylene (HDPE) geomembranes for lining – Specification (first revision) |
All Type |
110000 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
5,3.1,
Table1,x)
Type I / II / III / IV / V /
VI / VII
IS 2530(Carbon black content) |
- |
1500 |
|
- |
5,3.1,
Table 2,xi)
Type I / II / III / IV / V /
VI
IS 2530(Carbon black content) |
- |
1500 |
|
- |
5,3.1,
Table2,iii)
Type I / II / III / IV / V /
VI
Annex K(Lowest individual of 10 thickness value) |
- |
500 |
|
- |
5,3.1,
Table1,iii)
Type I / II / III / IV / V /
VI / VII
Method A of
IS 13162 (Part 3)(Lowest individual of 10 thickness value) |
- |
500 |
|
- |
5,3.1,
Table2,iv)
Type I / II / III / IV / V /
VI
Annex L(Average asperity height) |
- |
1000 |
|
- |
5,3.1,
Table 2,v) d)
Type I / II / III / IV / V /
VI
Annex B(Tensile properties:
Breaking elongation) |
- |
1500 |
|
- |
5,3.1,
Table1,xv)
Type I / II / III / IV / V /
VI / VII
Annex J(Stress crack resistance) |
- |
12500 |
|
- |
5,3.1,
Table 2,xvi)
Type I / II / III / IV / V /
VI
Annex J(Stress crack resistance) |
- |
12500 |
|
- |
5,3.1,
Table1,iv) d)
Type I / II / III / IV / V /
VI / VII
Annex B(Tensile properties:
Breaking elongation) |
- |
1000 |
|
- |
5,3.1,
Table1,xii)
Type I / II / III / IV / V /
VI / VII
ISO 11357 (Part 6)
or ASTM D 5885(Oxidative induction time (OIT) :
a) Standard OIT
or
b) High pressure OIT) |
- |
6500 |
|
- |
5,3.1,
Table 2,xiii)
Type I / II / III / IV / V /
VI
ISO 11357 (Part 6)
or ASTM D 5885(Oxidative induction time (OIT) :
a) Standard OIT
or
b) High pressure OIT) |
- |
6500 |
|
- |
5,3.1,
Table1,xiii)
Type I / II / III / IV / V /
VI / VII
Oven method of
IS 7016 (Part 8),
ISO 11357-6 and
ASTM D 5885(Oven ageing at 85°C, Retention of
oxidative induction time (OIT) after
90 days :
a) Standard OIT
or
b) High pressure OIT) |
- |
22500 |
|
- |
5,3.1,
Table 2,xiv)
Type I / II / III / IV / V /
VI
Oven method of
IS 7016 (Part 8),
ISO 11357-6 and
ASTM D 5885(Oven ageing at 85°C, Retention of
oxidative induction time (OIT) after
90 days :
a) Standard OIT
or
b) High pressure OIT) |
- |
22500 |
|
- |
3, 3.1(MATERIAL AND MANUFACTURE) |
- |
250 |
|
- |
3, 3.2(MATERIAL AND MANUFACTURE
If two or more pieces of geomembranes are used,
the material shall be joined together by a suitable heat
sealing process keeping an overlap of at least 2.5 cm. ) |
- |
250 |
|
- |
4, 4.1(VARIETY AND TYPES :
Based on the finish, HDPE geomembrane shall be
of following varieties) |
- |
500 |
|
- |
4.2,4.2.1(Based on the thickness of HDPE geomembrane, the material shall be classified as under) |
- |
500 |
|
- |
4.2,4.2.2(Based on the thickness of HDPE geomembrane, the material shall be classified as under) |
- |
500 |
|
- |
5(REQUIREMENTS) |
- |
250 |
|
- |
5,3.1,
Table 1(Requirements of Smooth HDPE Geomembrane) |
- |
250 |
|
- |
5,3.1,
Table1,i) a)
Type I / II / III / IV / V /
VI / VII
IS 7016 (Part 1)(Length) |
- |
500 |
|
- |
5,3.1,
Table1,i) b)
Type I / II / III / IV / V /
VI / VII
IS 7016 (Part 1)(width) |
- |
500 |
|
- |
5,3.1,
Table1,ii)
Type I / II / III / IV / V /
VI / VII
Method A of
IS 13162 (Part 3)(Average thickness at a pressure of 2 ± 0.01 kPa) |
- |
500 |
|
- |
5,3.1,
Table1,iv) a)
Type I / II / III / IV / V /
VI / VII
Annex B(Tensile properties:
Yield strength,) |
- |
1500 |
|
- |
5,3.1,
Table1,iv) b)
Type I / II / III / IV / V /
VI / VII
Annex B(Tensile properties:
Breaking strength,) |
- |
1500 |
|
- |
5,3.1,
Table1,iv) c)
Type I / II / III / IV / V /
VI / VII
Annex B(Tensile properties:
Yield elongation) |
- |
1000 |
|
- |
5,3.1,
Table1,v)
Type I / II / III / IV / V /
VI / VII
Annex C(Tear resistance) |
- |
2500 |
|
- |
5,3.1,
Table1,vi)
Type I / II / III / IV / V /
VI / VII
Annex D(Puncture resistanc) |
- |
4500 |
|
- |
5,3.1,
Table1,vii)
Type I / II / III / IV / V /
VI / VII
Annex E(Low temperature crack resistance at minus 30°C±1°C) |
- |
5000 |
|
- |
5,3.1,
Table1,viii)
Type I / II / III / IV / V /
VI / VII
Annex F(Hydrostatic resistance) |
- |
8000 |
|
- |
5,3.1,
Table1,ix)
Type I / II / III / IV / V /
VI / VII
Annex G(Seam strength :
85 percent of the
original actual
fabric strength
or unbreakable
seam) |
- |
3500 |
|
- |
5,3.1,
Table1,xi)
Type I / II / III / IV / V /
VI / VII
IS 2530(Carbon black dispersion) |
- |
1200 |
|
- |
5,3.1,
Table1,xiv)
Type I / II / III / IV / V /
VI / VII
Annex H(Retention of breaking strength after UV exposure of 144 h :
85 percent of the
original actual
fabric strength) |
- |
25000 |
|
- |
5,3.1,
Table 2(Requirements of Textured (Single or Double Sided) HDPE Geomembrane) |
- |
250 |
|
- |
5,3.1,
Table2,i) a)
Type I / II / III / IV / V /
VI
IS 7016 (Part 1)(Length) |
- |
500 |
|
- |
5,3.1,
Table 2,i) b)
Type I / II / III / IV / V /
VI
IS 7016 (Part 1)(width) |
- |
500 |
|
- |
5,3.1,
Table2,ii)
Type I / II / III / IV / V /
VI
Annex K(Average core thickness) |
- |
500 |
|
- |
5,3.1,
Table 2,v) a)
Type I / II / III / IV / V /
VI
Annex B(Tensile properties:
Yield strength,) |
- |
1000 |
|
- |
5,3.1,
Table 2,v) b)
Type I / II / III / IV / V /
VI
Annex B(Tensile properties:
Breaking strength,) |
- |
1500 |
|
- |
5,3.1,
Table 2,v) c)
Type I / II / III / IV / V /
VI
Annex B(Tensile properties:
Yield elongation) |
- |
1000 |
|
- |
5,3.1,
Table 2,vi) a)
Type I / II / III / IV / V /
VI
Annex C(Tear resistance) |
- |
2500 |
|
- |
5,3.1,
Table 2,vii)
Type I / II / III / IV / V /
VI
Annex D(Puncture resistanc) |
- |
4500 |
|
- |
5,3.1,
Table 2,viii)
Type I / II / III / IV / V /
VI
Annex E(Low temperature crack resistance at minus 30°C±1°C) |
- |
5000 |
|
- |
5,3.1,
Table 2,iX)
Type I / II / III / IV / V /
VI
Annex F(Hydrostatic resistance) |
- |
8000 |
|
- |
5,3.1,
Table 2,x)
Type I / II / III / IV / V /
VI
Annex G(Seam strength :
85 percent of the
original actual
fabric strength
or unbreakable
seam) |
- |
3500 |
|
- |
5,3.1,
Table 2,xii)
Type I / II / III / IV / V /
VI
IS 2530(Carbon black dispersion) |
- |
1500 |
|
- |
5,3.1,
Table 2,xv)
Type I / II / III / IV / V /
VI
Annex H(Retention of breaking strength after UV exposure of 144 h :
85 percent of the
original actual
fabric strength) |
- |
25000 |
|
- |
6(DIMENSIONS AND TOLERANCES
The dimensions of HDPE geomembrane when tested by the method given in IS 7016 (Part 1) shall be as agreed to between the buyer and the seller. However, the minimum width of the HDPE geomembrane shall be 5000 mm. A combination of panel width may be used to obtain desired width of geomembrane. Narrow width panels not less than 1000 mm in width may also be used but such pieces shall not exceed 1 piece per roll of finished material of specified width.) |
- |
1500 |
|
- |
7, 7.1
Annex M(COLOUR, SURFACE CHARACTERISTICS AND FREEDOM FROM DEFECTS:
) |
- |
500 |
|
- |
7, 7.2(COLOUR, SURFACE CHARACTERISTICS
AND FREEDOM FROM DEFECTS) |
- |
500 |
|
- |
5,3.1,
Table1,x)
Type I / II / III / IV / V /
VI / VII
IS 2530(Carbon black content) |
- |
1500 |
|
- |
5,3.1,
Table 2,xi)
Type I / II / III / IV / V /
VI
IS 2530(Carbon black content) |
- |
1500 |
|
- |
5,3.1,
Table2,iii)
Type I / II / III / IV / V /
VI
Annex K(Lowest individual of 10 thickness value) |
- |
500 |
|
- |
5,3.1,
Table1,iii)
Type I / II / III / IV / V /
VI / VII
Method A of
IS 13162 (Part 3)(Lowest individual of 10 thickness value) |
- |
500 |
|
- |
5,3.1,
Table2,iv)
Type I / II / III / IV / V /
VI
Annex L(Average asperity height) |
- |
1500 |
|
- |
5,3.1,
Table 2,v) d)
Type I / II / III / IV / V /
VI
Annex B(Tensile properties:
Breaking elongation) |
- |
1500 |
|
- |
5,3.1,
Table1,xv)
Type I / II / III / IV / V /
VI / VII
Annex J(Stress crack resistance) |
- |
12500 |
|
- |
5,3.1,
Table 2,xvi)
Type I / II / III / IV / V /
VI
Annex J(Stress crack resistance) |
- |
12500 |
|
- |
5,3.1,
Table1,iv) d)
Type I / II / III / IV / V /
VI / VII
Annex B(Tensile properties:
Breaking elongation) |
- |
1500 |
|
- |
5,3.1,
Table1,xii)
Type I / II / III / IV / V /
VI / VII
ISO 11357 (Part 6)
or ASTM D 5885(Oxidative induction time (OIT) :
a) Standard OIT
or
b) High pressure OIT) |
- |
6500 |
|
- |
5,3.1,
Table 2,xiii)
Type I / II / III / IV / V /
VI
ISO 11357 (Part 6)
or ASTM D 5885(Oxidative induction time (OIT) :
a) Standard OIT
or
b) High pressure OIT) |
- |
6500 |
|
- |
5,3.1,
Table1,xiii)
Type I / II / III / IV / V /
VI / VII
Oven method of
IS 7016 (Part 8),
ISO 11357-6 and
ASTM D 5885(Oven ageing at 85°C, Retention of
oxidative induction time (OIT) after
90 days :
a) Standard OIT
or
b) High pressure OIT) |
- |
22500 |
|
- |
5,3.1,
Table 2,xiv)
Type I / II / III / IV / V /
VI
Oven method of
IS 7016 (Part 8),
ISO 11357-6 and
ASTM D 5885(Oven ageing at 85°C, Retention of
oxidative induction time (OIT) after
90 days :
a) Standard OIT
or
b) High pressure OIT) |
- |
22500 |
|
- |
3, 3.1(MATERIAL AND MANUFACTURE) |
- |
11290 |
|
- |
3, 3.2(MATERIAL AND MANUFACTURE
If two or more pieces of geomembranes are used,
the material shall be joined together by a suitable heat
sealing process keeping an overlap of at least 2.5 cm. ) |
- |
500 |
|
- |
4, 4.1(VARIETY AND TYPES :
Based on the finish, HDPE geomembrane shall be
of following varieties) |
- |
500 |
|
- |
4.2,4.2.1(Based on the thickness of HDPE geomembrane, the material shall be classified as under) |
- |
500 |
|
- |
4.2,4.2.2(Based on the thickness of HDPE geomembrane, the material shall be classified as under) |
- |
500 |
|
- |
5(REQUIREMENTS) |
- |
250 |
|
- |
5,3.1,
Table 1(Requirements of Smooth HDPE Geomembrane) |
- |
500 |
|
- |
5,3.1,
Table1,i) a)
Type I / II / III / IV / V /
VI / VII
IS 7016 (Part 1)(Length) |
- |
500 |
|
- |
5,3.1,
Table1,i) b)
Type I / II / III / IV / V /
VI / VII
IS 7016 (Part 1)(width) |
- |
500 |
|
- |
5,3.1,
Table1,ii)
Type I / II / III / IV / V /
VI / VII
Method A of
IS 13162 (Part 3)(Average thickness at a pressure of 2 ± 0.01 kPa) |
- |
500 |
|
- |
5,3.1,
Table1,iv) a)
Type I / II / III / IV / V /
VI / VII
Annex B(Tensile properties:
Yield strength,) |
- |
1500 |
|
- |
5,3.1,
Table1,iv) b)
Type I / II / III / IV / V /
VI / VII
Annex B(Tensile properties:
Breaking strength,) |
- |
1500 |
|
- |
5,3.1,
Table1,iv) c)
Type I / II / III / IV / V /
VI / VII
Annex B(Tensile properties:
Yield elongation) |
- |
1000 |
|
- |
5,3.1,
Table1,v)
Type I / II / III / IV / V /
VI / VII
Annex C(Tear resistance) |
- |
2500 |
|
- |
5,3.1,
Table1,vi)
Type I / II / III / IV / V /
VI / VII
Annex D(Puncture resistanc) |
- |
4500 |
|
- |
5,3.1,
Table1,vii)
Type I / II / III / IV / V /
VI / VII
Annex E(Low temperature crack resistance at minus 30°C±1°C) |
- |
5000 |
|
- |
5,3.1,
Table1,viii)
Type I / II / III / IV / V /
VI / VII
Annex F(Hydrostatic resistance) |
- |
8000 |
|
- |
5,3.1,
Table1,ix)
Type I / II / III / IV / V /
VI / VII
Annex G(Seam strength :
85 percent of the
original actual
fabric strength
or unbreakable
seam) |
- |
3500 |
|
- |
5,3.1,
Table1,xi)
Type I / II / III / IV / V /
VI / VII
IS 2530(Carbon black dispersion) |
- |
1500 |
|
- |
5,3.1,
Table1,xiv)
Type I / II / III / IV / V /
VI / VII
Annex H(Retention of breaking strength after UV exposure of 144 h :
85 percent of the
original actual
fabric strength) |
- |
25000 |
|
- |
5,3.1,
Table 2(Requirements of Textured (Single or Double Sided) HDPE Geomembrane) |
- |
250 |
|
- |
5,3.1,
Table2,i) a)
Type I / II / III / IV / V /
VI
IS 7016 (Part 1)(Length) |
- |
500 |
|
- |
5,3.1,
Table 2,i) b)
Type I / II / III / IV / V /
VI
IS 7016 (Part 1)(width) |
- |
500 |
|
- |
5,3.1,
Table2,ii)
Type I / II / III / IV / V /
VI
Annex K(Average core thickness) |
- |
500 |
|
- |
5,3.1,
Table 2,v) a)
Type I / II / III / IV / V /
VI
Annex B(Tensile properties:
Yield strength,) |
- |
1000 |
|
- |
5,3.1,
Table 2,v) b)
Type I / II / III / IV / V /
VI
Annex B(Tensile properties:
Breaking strength,) |
- |
1500 |
|
- |
5,3.1,
Table 2,v) c)
Type I / II / III / IV / V /
VI
Annex B(Tensile properties:
Yield elongation) |
- |
1000 |
|
- |
5,3.1,
Table 2,vi) a)
Type I / II / III / IV / V /
VI
Annex C(Tear resistance) |
- |
2500 |
|
- |
5,3.1,
Table 2,vii)
Type I / II / III / IV / V /
VI
Annex D(Puncture resistanc) |
- |
4500 |
|
- |
5,3.1,
Table 2,viii)
Type I / II / III / IV / V /
VI
Annex E(Low temperature crack resistance at minus 30°C±1°C) |
- |
5000 |
|
- |
5,3.1,
Table 2,iX)
Type I / II / III / IV / V /
VI
Annex F(Hydrostatic resistance) |
- |
8000 |
|
- |
5,3.1,
Table 2,x)
Type I / II / III / IV / V /
VI
Annex G(Seam strength :
85 percent of the
original actual
fabric strength
or unbreakable
seam) |
- |
3500 |
|
- |
5,3.1,
Table 2,xii)
Type I / II / III / IV / V /
VI
IS 2530(Carbon black dispersion) |
- |
1500 |
|
- |
5,3.1,
Table 2,xv)
Type I / II / III / IV / V /
VI
Annex H(Retention of breaking strength after UV exposure of 144 h :
85 percent of the
original actual
fabric strength) |
- |
25000 |
|
- |
6(DIMENSIONS AND TOLERANCES
The dimensions of HDPE geomembrane when tested by the method given in IS 7016 (Part 1) shall be as agreed to between the buyer and the seller. However, the minimum width of the HDPE geomembrane shall be 5000 mm. A combination of panel width may be used to obtain desired width of geomembrane. Narrow width panels not less than 1000 mm in width may also be used but such pieces shall not exceed 1 piece per roll of finished material of specified width.) |
- |
500 |
|
- |
7, 7.1
Annex M(COLOUR, SURFACE CHARACTERISTICS AND FREEDOM FROM DEFECTS:
) |
- |
500 |
|
- |
7, 7.2(COLOUR, SURFACE CHARACTERISTICS
AND FREEDOM FROM DEFECTS) |
- |
500 |
|
- |
5,3.1,
Table1,x)
Type I / II / III / IV / V /
VI / VII
IS 2530(Carbon black content) |
- |
1500 |
|
- |
5,3.1,
Table 2,xi)
Type I / II / III / IV / V /
VI
IS 2530(Carbon black content) |
- |
1500 |
|
- |
5,3.1,
Table2,iii)
Type I / II / III / IV / V /
VI
Annex K(Lowest individual of 10 thickness value) |
- |
500 |
|
- |
5,3.1,
Table1,iii)
Type I / II / III / IV / V /
VI / VII
Method A of
IS 13162 (Part 3)(Lowest individual of 10 thickness value) |
- |
500 |
|
- |
5,3.1,
Table2,iv)
Type I / II / III / IV / V /
VI
Annex L(Average asperity height) |
- |
1500 |
|
- |
5,3.1,
Table 2,v) d)
Type I / II / III / IV / V /
VI
Annex B(Tensile properties:
Breaking elongation) |
- |
1500 |
|
- |
5,3.1,
Table1,xv)
Type I / II / III / IV / V /
VI / VII
Annex J(Stress crack resistance) |
- |
12500 |
|
- |
5,3.1,
Table 2,xvi)
Type I / II / III / IV / V /
VI
Annex J(Stress crack resistance) |
- |
12500 |
|
- |
5,3.1,
Table1,iv) d)
Type I / II / III / IV / V /
VI / VII
Annex B(Tensile properties:
Breaking elongation) |
- |
1500 |
|
- |
5,3.1,
Table1,xii)
Type I / II / III / IV / V /
VI / VII
ISO 11357 (Part 6)
or ASTM D 5885(Oxidative induction time (OIT) :
a) Standard OIT
or
b) High pressure OIT) |
- |
6500 |
|
- |
5,3.1,
Table 2,xiii)
Type I / II / III / IV / V /
VI
ISO 11357 (Part 6)
or ASTM D 5885(Oxidative induction time (OIT) :
a) Standard OIT
or
b) High pressure OIT) |
- |
6500 |
|
- |
5,3.1,
Table1,xiii)
Type I / II / III / IV / V /
VI / VII
Oven method of
IS 7016 (Part 8),
ISO 11357-6 and
ASTM D 5885(Oven ageing at 85°C, Retention of
oxidative induction time (OIT) after
90 days :
a) Standard OIT
or
b) High pressure OIT) |
- |
22500 |
|
- |
5,3.1,
Table 2,xiv)
Type I / II / III / IV / V /
VI
Oven method of
IS 7016 (Part 8),
ISO 11357-6 and
ASTM D 5885(Oven ageing at 85°C, Retention of
oxidative induction time (OIT) after
90 days :
a) Standard OIT
or
b) High pressure OIT) |
- |
22500 |
|
- |
3, 3.1(MATERIAL AND MANUFACTURE) |
- |
11290 |
|
- |
3, 3.2(MATERIAL AND MANUFACTURE
If two or more pieces of geomembranes are used,
the material shall be joined together by a suitable heat
sealing process keeping an overlap of at least 2.5 cm. ) |
- |
500 |
|
- |
4, 4.1(VARIETY AND TYPES :
Based on the finish, HDPE geomembrane shall be
of following varieties) |
- |
500 |
|
- |
4.2,4.2.1(Based on the thickness of HDPE geomembrane, the material shall be classified as under) |
- |
500 |
|
- |
4.2,4.2.2(Based on the thickness of HDPE geomembrane, the material shall be classified as under) |
- |
500 |
|
- |
5(REQUIREMENTS) |
- |
500 |
|
- |
5,3.1,
Table 1(Requirements of Smooth HDPE Geomembrane) |
- |
500 |
|
- |
5,3.1,
Table1,i) a)
Type I / II / III / IV / V /
VI / VII
IS 7016 (Part 1)(Length) |
- |
500 |
|
- |
5,3.1,
Table1,i) b)
Type I / II / III / IV / V /
VI / VII
IS 7016 (Part 1)(width) |
- |
500 |
|
- |
5,3.1,
Table1,ii)
Type I / II / III / IV / V /
VI / VII
Method A of
IS 13162 (Part 3)(Average thickness at a pressure of 2 ± 0.01 kPa) |
- |
500 |
|
- |
5,3.1,
Table1,iv) a)
Type I / II / III / IV / V /
VI / VII
Annex B(Tensile properties:
Yield strength,) |
- |
1500 |
|
- |
5,3.1,
Table1,iv) b)
Type I / II / III / IV / V /
VI / VII
Annex B(Tensile properties:
Breaking strength,) |
- |
1500 |
|
- |
5,3.1,
Table1,iv) c)
Type I / II / III / IV / V /
VI / VII
Annex B(Tensile properties:
Yield elongation) |
- |
1500 |
|
- |
5,3.1,
Table1,v)
Type I / II / III / IV / V /
VI / VII
Annex C(Tear resistance) |
- |
500 |
|
- |
5,3.1,
Table1,vi)
Type I / II / III / IV / V /
VI / VII
Annex D(Puncture resistanc) |
- |
2500 |
|
- |
5,3.1,
Table1,vii)
Type I / II / III / IV / V /
VI / VII
Annex E(Low temperature crack resistance at minus 30°C±1°C) |
- |
4500 |
|
- |
5,3.1,
Table1,viii)
Type I / II / III / IV / V /
VI / VII
Annex F(Hydrostatic resistance) |
- |
5000 |
|
- |
5,3.1,
Table1,ix)
Type I / II / III / IV / V /
VI / VII
Annex G(Seam strength :
85 percent of the
original actual
fabric strength
or unbreakable
seam) |
- |
8000 |
|
- |
5,3.1,
Table1,xi)
Type I / II / III / IV / V /
VI / VII
IS 2530(Carbon black dispersion) |
- |
1500 |
|
- |
5,3.1,
Table1,xiv)
Type I / II / III / IV / V /
VI / VII
Annex H(Retention of breaking strength after UV exposure of 144 h :
85 percent of the
original actual
fabric strength) |
- |
22500 |
|
- |
5,3.1,
Table 2(Requirements of Textured (Single or Double Sided) HDPE Geomembrane) |
- |
500 |
|
- |
5,3.1,
Table2,i) a)
Type I / II / III / IV / V /
VI
IS 7016 (Part 1)(Length) |
- |
500 |
|
- |
5,3.1,
Table 2,i) b)
Type I / II / III / IV / V /
VI
IS 7016 (Part 1)(width) |
- |
500 |
|
- |
5,3.1,
Table2,ii)
Type I / II / III / IV / V /
VI
Annex K(Average core thickness) |
- |
500 |
|
- |
5,3.1,
Table 2,v) a)
Type I / II / III / IV / V /
VI
Annex B(Tensile properties:
Yield strength,) |
- |
1000 |
|
- |
5,3.1,
Table 2,v) b)
Type I / II / III / IV / V /
VI
Annex B(Tensile properties:
Breaking strength,) |
- |
1500 |
|
- |
5,3.1,
Table 2,v) c)
Type I / II / III / IV / V /
VI
Annex B(Tensile properties:
Yield elongation) |
- |
1000 |
|
- |
5,3.1,
Table 2,vi) a)
Type I / II / III / IV / V /
VI
Annex C(Tear resistance) |
- |
2500 |
|
- |
5,3.1,
Table 2,vii)
Type I / II / III / IV / V /
VI
Annex D(Puncture resistanc) |
- |
4500 |
|
- |
5,3.1,
Table 2,viii)
Type I / II / III / IV / V /
VI
Annex E(Low temperature crack resistance at minus 30°C±1°C) |
- |
5000 |
|
- |
5,3.1,
Table 2,iX)
Type I / II / III / IV / V /
VI
Annex F(Hydrostatic resistance) |
- |
8000 |
|
- |
5,3.1,
Table 2,x)
Type I / II / III / IV / V /
VI
Annex G(Seam strength :
85 percent of the
original actual
fabric strength
or unbreakable
seam) |
- |
3500 |
|
- |
5,3.1,
Table 2,xii)
Type I / II / III / IV / V /
VI
IS 2530(Carbon black dispersion) |
- |
1500 |
|
- |
5,3.1,
Table 2,xv)
Type I / II / III / IV / V /
VI
Annex H(Retention of breaking strength after UV exposure of 144 h :
85 percent of the
original actual
fabric strength) |
- |
25000 |
|
- |
6(DIMENSIONS AND TOLERANCES
The dimensions of HDPE geomembrane when tested by the method given in IS 7016 (Part 1) shall be as agreed to between the buyer and the seller. However, the minimum width of the HDPE geomembrane shall be 5000 mm. A combination of panel width may be used to obtain desired width of geomembrane. Narrow width panels not less than 1000 mm in width may also be used but such pieces shall not exceed 1 piece per roll of finished material of specified width.) |
- |
1500 |
|
- |
7, 7.1
Annex M(COLOUR, SURFACE CHARACTERISTICS AND FREEDOM FROM DEFECTS:
) |
- |
500 |
|
- |
7, 7.2(COLOUR, SURFACE CHARACTERISTICS
AND FREEDOM FROM DEFECTS) |
- |
500 |
|
- |
5,3.1,
Table1,x)
Type I / II / III / IV / V /
VI / VII
IS 2530(Carbon black content) |
- |
1500 |
|
- |
5,3.1,
Table 2,xi)
Type I / II / III / IV / V /
VI
IS 2530(Carbon black content) |
- |
1500 |
|
- |
5,3.1,
Table2,iii)
Type I / II / III / IV / V /
VI
Annex K(Lowest individual of 10 thickness value) |
- |
500 |
|
- |
5,3.1,
Table2,iv)
Type I / II / III / IV / V /
VI
Annex L(Average asperity height) |
- |
1500 |
|
- |
5,3.1,
Table 2,v) d)
Type I / II / III / IV / V /
VI
Annex B(Tensile properties:
Breaking elongation) |
- |
1500 |
|
- |
5,3.1,
Table1,xv)
Type I / II / III / IV / V /
VI / VII
Annex J(Stress crack resistance) |
- |
12500 |
|
- |
5,3.1,
Table 2,xvi)
Type I / II / III / IV / V /
VI
Annex J(Stress crack resistance) |
- |
0 |
|
- |
5,3.1,
Table1,iv) d)
Type I / II / III / IV / V /
VI / VII
Annex B(Tensile properties:
Breaking elongation) |
- |
1500 |
|
- |
5,3.1,
Table1,xii)
Type I / II / III / IV / V /
VI / VII
ISO 11357 (Part 6)
or ASTM D 5885(Oxidative induction time (OIT) :
a) Standard OIT
or
b) High pressure OIT) |
- |
1500 |
|
- |
5,3.1,
Table 2,xiii)
Type I / II / III / IV / V /
VI
ISO 11357 (Part 6)
or ASTM D 5885(Oxidative induction time (OIT) :
a) Standard OIT
or
b) High pressure OIT) |
- |
6500 |
|
- |
5,3.1,
Table1,xiii)
Type I / II / III / IV / V /
VI / VII
Oven method of
IS 7016 (Part 8),
ISO 11357-6 and
ASTM D 5885(Oven ageing at 85°C, Retention of
oxidative induction time (OIT) after
90 days :
a) Standard OIT
or
b) High pressure OIT) |
- |
22500 |
|
- |
5,3.1,
Table 2,xiv)
Type I / II / III / IV / V /
VI
Oven method of
IS 7016 (Part 8),
ISO 11357-6 and
ASTM D 5885(Oven ageing at 85°C, Retention of
oxidative induction time (OIT) after
90 days :
a) Standard OIT
or
b) High pressure OIT) |
- |
22500 |
|
- |
3, 3.1(MATERIAL AND MANUFACTURE) |
- |
11290 |
|
- |
3, 3.2(MATERIAL AND MANUFACTURE
If two or more pieces of geomembranes are used,
the material shall be joined together by a suitable heat
sealing process keeping an overlap of at least 2.5 cm. ) |
- |
500 |
|
- |
4, 4.1(VARIETY AND TYPES :
Based on the finish, HDPE geomembrane shall be
of following varieties) |
- |
500 |
|
- |
4.2,4.2.1(Based on the thickness of HDPE geomembrane, the material shall be classified as under) |
- |
500 |
|
- |
4.2,4.2.2(Based on the thickness of HDPE geomembrane, the material shall be classified as under) |
- |
500 |
|
- |
5(REQUIREMENTS) |
- |
500 |
|
- |
5,3.1,
Table 1(Requirements of Smooth HDPE Geomembrane) |
- |
500 |
|
- |
5,3.1,
Table1,i) a)
Type I / II / III / IV / V /
VI / VII
IS 7016 (Part 1)(Length) |
- |
500 |
|
- |
5,3.1,
Table1,i) b)
Type I / II / III / IV / V /
VI / VII
IS 7016 (Part 1)(width) |
- |
500 |
|
- |
5,3.1,
Table1,ii)
Type I / II / III / IV / V /
VI / VII
Method A of
IS 13162 (Part 3)(Average thickness at a pressure of 2 ± 0.01 kPa) |
- |
500 |
|
- |
5,3.1,
Table1,iv) a)
Type I / II / III / IV / V /
VI / VII
Annex B(Tensile properties:
Yield strength,) |
- |
1000 |
|
- |
5,3.1,
Table1,iv) b)
Type I / II / III / IV / V /
VI / VII
Annex B(Tensile properties:
Breaking strength,) |
- |
1500 |
|
- |
5,3.1,
Table1,iv) c)
Type I / II / III / IV / V /
VI / VII
Annex B(Tensile properties:
Yield elongation) |
- |
1000 |
|
- |
5,3.1,
Table1,v)
Type I / II / III / IV / V /
VI / VII
Annex C(Tear resistance) |
- |
2500 |
|
- |
5,3.1,
Table1,vi)
Type I / II / III / IV / V /
VI / VII
Annex D(Puncture resistanc) |
- |
4500 |
|
- |
5,3.1,
Table1,vii)
Type I / II / III / IV / V /
VI / VII
Annex E(Low temperature crack resistance at minus 30°C±1°C) |
- |
5000 |
|
- |
5,3.1,
Table1,viii)
Type I / II / III / IV / V /
VI / VII
Annex F(Hydrostatic resistance) |
- |
8000 |
|
- |
5,3.1,
Table1,ix)
Type I / II / III / IV / V /
VI / VII
Annex G(Seam strength :
85 percent of the
original actual
fabric strength
or unbreakable
seam) |
- |
3500 |
|
- |
5,3.1,
Table1,xi)
Type I / II / III / IV / V /
VI / VII
IS 2530(Carbon black dispersion) |
- |
1500 |
|
- |
5,3.1,
Table1,xiv)
Type I / II / III / IV / V /
VI / VII
Annex H(Retention of breaking strength after UV exposure of 144 h :
85 percent of the
original actual
fabric strength) |
- |
25000 |
|
- |
5,3.1,
Table 2(Requirements of Textured (Single or Double Sided) HDPE Geomembrane) |
- |
500 |
|
- |
5,3.1,
Table2,i) a)
Type I / II / III / IV / V /
VI
IS 7016 (Part 1)(Length) |
- |
500 |
|
- |
5,3.1,
Table 2,i) b)
Type I / II / III / IV / V /
VI
IS 7016 (Part 1)(width) |
- |
500 |
|
- |
5,3.1,
Table2,ii)
Type I / II / III / IV / V /
VI
Annex K(Average core thickness) |
- |
500 |
|
- |
5,3.1,
Table 2,v) a)
Type I / II / III / IV / V /
VI
Annex B(Tensile properties:
Yield strength,) |
- |
1000 |
|
- |
5,3.1,
Table 2,v) b)
Type I / II / III / IV / V /
VI
Annex B(Tensile properties:
Breaking strength,) |
- |
1500 |
|
- |
5,3.1,
Table 2,v) c)
Type I / II / III / IV / V /
VI
Annex B(Tensile properties:
Yield elongation) |
- |
1000 |
|
- |
5,3.1,
Table 2,vi) a)
Type I / II / III / IV / V /
VI
Annex C(Tear resistance) |
- |
2500 |
|
- |
5,3.1,
Table 2,vii)
Type I / II / III / IV / V /
VI
Annex D(Puncture resistanc) |
- |
4500 |
|
- |
5,3.1,
Table 2,viii)
Type I / II / III / IV / V /
VI
Annex E(Low temperature crack resistance at minus 30°C±1°C) |
- |
5000 |
|
- |
5,3.1,
Table 2,iX)
Type I / II / III / IV / V /
VI
Annex F(Hydrostatic resistance) |
- |
8000 |
|
- |
5,3.1,
Table 2,x)
Type I / II / III / IV / V /
VI
Annex G(Seam strength :
85 percent of the
original actual
fabric strength
or unbreakable
seam) |
- |
3500 |
|
- |
5,3.1,
Table 2,xii)
Type I / II / III / IV / V /
VI
IS 2530(Carbon black dispersion) |
- |
1500 |
|
- |
5,3.1,
Table 2,xv)
Type I / II / III / IV / V /
VI
Annex H(Retention of breaking strength after UV exposure of 144 h :
85 percent of the
original actual
fabric strength) |
- |
25000 |
|
- |
6(DIMENSIONS AND TOLERANCES
The dimensions of HDPE geomembrane when tested by the method given in IS 7016 (Part 1) shall be as agreed to between the buyer and the seller. However, the minimum width of the HDPE geomembrane shall be 5000 mm. A combination of panel width may be used to obtain desired width of geomembrane. Narrow width panels not less than 1000 mm in width may also be used but such pieces shall not exceed 1 piece per roll of finished material of specified width.) |
- |
1500 |
|
- |
7, 7.1
Annex M(COLOUR, SURFACE CHARACTERISTICS AND FREEDOM FROM DEFECTS:
) |
- |
500 |
|
- |
7, 7.2(COLOUR, SURFACE CHARACTERISTICS
AND FREEDOM FROM DEFECTS) |
- |
500 |
|
- |
5,3.1,
Table1,iii)
Type I / II / III / IV / V /
VI / VII
Method A of
IS 13162 (Part 3)(Lowest individual of 10 thickness value) |
- |
500 |
|
- |
5,3.1,
Table1,x)
Type I / II / III / IV / V /
VI / VII
IS 2530(Carbon black content) |
- |
0 |
|
- |
5,3.1,
Table 2,xi)
Type I / II / III / IV / V /
VI
IS 2530(Carbon black content) |
- |
0 |
|
- |
5,3.1,
Table2,iii)
Type I / II / III / IV / V /
VI
Annex K(Lowest individual of 10 thickness value) |
- |
0 |
|
- |
5,3.1,
Table1,iii)
Type I / II / III / IV / V /
VI / VII
Method A of
IS 13162 (Part 3)(Lowest individual of 10 thickness value) |
- |
0 |
|
- |
5,3.1,
Table2,iv)
Type I / II / III / IV / V /
VI
Annex L(Average asperity height) |
- |
0 |
|
- |
5,3.1,
Table 2,v) d)
Type I / II / III / IV / V /
VI
Annex B(Tensile properties:
Breaking elongation) |
- |
0 |
|
- |
5,3.1,
Table1,xv)
Type I / II / III / IV / V /
VI / VII
Annex J(Stress crack resistance) |
- |
0 |
|
- |
5,3.1,
Table 2,xvi)
Type I / II / III / IV / V /
VI
Annex J(Stress crack resistance) |
- |
0 |
|
- |
5,3.1,
Table1,iv) d)
Type I / II / III / IV / V /
VI / VII
Annex B(Tensile properties:
Breaking elongation) |
- |
0 |
|
- |
5,3.1,
Table1,xii)
Type I / II / III / IV / V /
VI / VII
ISO 11357 (Part 6)
or ASTM D 5885(Oxidative induction time (OIT) :
a) Standard OIT
or
b) High pressure OIT) |
- |
0 |
|
- |
5,3.1,
Table 2,xiii)
Type I / II / III / IV / V /
VI
ISO 11357 (Part 6)
or ASTM D 5885(Oxidative induction time (OIT) :
a) Standard OIT
or
b) High pressure OIT) |
- |
0 |
|
- |
5,3.1,
Table1,xiii)
Type I / II / III / IV / V /
VI / VII
Oven method of
IS 7016 (Part 8),
ISO 11357-6 and
ASTM D 5885(Oven ageing at 85°C, Retention of
oxidative induction time (OIT) after
90 days :
a) Standard OIT
or
b) High pressure OIT) |
- |
0 |
|
- |
5,3.1,
Table 2,xiv)
Type I / II / III / IV / V /
VI
Oven method of
IS 7016 (Part 8),
ISO 11357-6 and
ASTM D 5885(Oven ageing at 85°C, Retention of
oxidative induction time (OIT) after
90 days :
a) Standard OIT
or
b) High pressure OIT) |
- |
0 |
|
- |
3, 3.1(MATERIAL AND MANUFACTURE) |
- |
0 |
|
- |
3, 3.2(MATERIAL AND MANUFACTURE
If two or more pieces of geomembranes are used,
the material shall be joined together by a suitable heat
sealing process keeping an overlap of at least 2.5 cm. ) |
- |
0 |
|
- |
4, 4.1(VARIETY AND TYPES :
Based on the finish, HDPE geomembrane shall be
of following varieties) |
- |
0 |
|
- |
4.2,4.2.1(Based on the thickness of HDPE geomembrane, the material shall be classified as under) |
- |
0 |
|
- |
4.2,4.2.2(Based on the thickness of HDPE geomembrane, the material shall be classified as under) |
- |
0 |
|
- |
5(REQUIREMENTS) |
- |
0 |
|
- |
5,3.1,
Table 1(Requirements of Smooth HDPE Geomembrane) |
- |
0 |
|
- |
5,3.1,
Table1,i) a)
Type I / II / III / IV / V /
VI / VII
IS 7016 (Part 1)(Length) |
- |
0 |
|
- |
5,3.1,
Table1,i) b)
Type I / II / III / IV / V /
VI / VII
IS 7016 (Part 1)(width) |
- |
0 |
|
- |
5,3.1,
Table1,ii)
Type I / II / III / IV / V /
VI / VII
Method A of
IS 13162 (Part 3)(Average thickness at a pressure of 2 ± 0.01 kPa) |
- |
0 |
|
- |
5,3.1,
Table1,iv) a)
Type I / II / III / IV / V /
VI / VII
Annex B(Tensile properties:
Yield strength,) |
- |
0 |
|
- |
5,3.1,
Table1,iv) b)
Type I / II / III / IV / V /
VI / VII
Annex B(Tensile properties:
Breaking strength,) |
- |
0 |
|
- |
5,3.1,
Table1,iv) c)
Type I / II / III / IV / V /
VI / VII
Annex B(Tensile properties:
Yield elongation) |
- |
0 |
|
- |
5,3.1,
Table1,v)
Type I / II / III / IV / V /
VI / VII
Annex C(Tear resistance) |
- |
0 |
|
- |
5,3.1,
Table1,vi)
Type I / II / III / IV / V /
VI / VII
Annex D(Puncture resistanc) |
- |
0 |
|
- |
5,3.1,
Table1,vii)
Type I / II / III / IV / V /
VI / VII
Annex E(Low temperature crack resistance at minus 30°C±1°C) |
- |
0 |
|
- |
5,3.1,
Table1,viii)
Type I / II / III / IV / V /
VI / VII
Annex F(Hydrostatic resistance) |
- |
0 |
|
- |
5,3.1,
Table1,ix)
Type I / II / III / IV / V /
VI / VII
Annex G(Seam strength :
85 percent of the
original actual
fabric strength
or unbreakable
seam) |
- |
0 |
|
- |
5,3.1,
Table1,xi)
Type I / II / III / IV / V /
VI / VII
IS 2530(Carbon black dispersion) |
- |
0 |
|
- |
5,3.1,
Table1,xiv)
Type I / II / III / IV / V /
VI / VII
Annex H(Retention of breaking strength after UV exposure of 144 h :
85 percent of the
original actual
fabric strength) |
- |
0 |
|
- |
5,3.1,
Table 2(Requirements of Textured (Single or Double Sided) HDPE Geomembrane) |
- |
0 |
|
- |
5,3.1,
Table2,i) a)
Type I / II / III / IV / V /
VI
IS 7016 (Part 1)(Length) |
- |
0 |
|
- |
5,3.1,
Table 2,i) b)
Type I / II / III / IV / V /
VI
IS 7016 (Part 1)(width) |
- |
0 |
|
- |
5,3.1,
Table2,ii)
Type I / II / III / IV / V /
VI
Annex K(Average core thickness) |
- |
0 |
|
- |
5,3.1,
Table 2,v) a)
Type I / II / III / IV / V /
VI
Annex B(Tensile properties:
Yield strength,) |
- |
0 |
|
- |
5,3.1,
Table 2,v) b)
Type I / II / III / IV / V /
VI
Annex B(Tensile properties:
Breaking strength,) |
- |
0 |
|
- |
5,3.1,
Table 2,v) c)
Type I / II / III / IV / V /
VI
Annex B(Tensile properties:
Yield elongation) |
- |
0 |
|
- |
5,3.1,
Table 2,vi) a)
Type I / II / III / IV / V /
VI
Annex C(Tear resistance) |
- |
0 |
|
- |
5,3.1,
Table 2,vii)
Type I / II / III / IV / V /
VI
Annex D(Puncture resistanc) |
- |
0 |
|
- |
5,3.1,
Table 2,viii)
Type I / II / III / IV / V /
VI
Annex E(Low temperature crack resistance at minus 30°C±1°C) |
- |
0 |
|
- |
5,3.1,
Table 2,iX)
Type I / II / III / IV / V /
VI
Annex F(Hydrostatic resistance) |
- |
0 |
|
- |
5,3.1,
Table 2,x)
Type I / II / III / IV / V /
VI
Annex G(Seam strength :
85 percent of the
original actual
fabric strength
or unbreakable
seam) |
- |
0 |
|
- |
5,3.1,
Table 2,xii)
Type I / II / III / IV / V /
VI
IS 2530(Carbon black dispersion) |
- |
0 |
|
- |
5,3.1,
Table 2,xv)
Type I / II / III / IV / V /
VI
Annex H(Retention of breaking strength after UV exposure of 144 h :
85 percent of the
original actual
fabric strength) |
- |
0 |
|
- |
6(DIMENSIONS AND TOLERANCES
The dimensions of HDPE geomembrane when tested by the method given in IS 7016 (Part 1) shall be as agreed to between the buyer and the seller. However, the minimum width of the HDPE geomembrane shall be 5000 mm. A combination of panel width may be used to obtain desired width of geomembrane. Narrow width panels not less than 1000 mm in width may also be used but such pieces shall not exceed 1 piece per roll of finished material of specified width.) |
- |
0 |
|
- |
7, 7.1
Annex M(COLOUR, SURFACE CHARACTERISTICS AND FREEDOM FROM DEFECTS:
) |
- |
0 |
|
- |
7, 7.2(COLOUR, SURFACE CHARACTERISTICS
AND FREEDOM FROM DEFECTS) |
- |
0 |
|
- |
5,3.1,
Table1,x)
Type I / II / III / IV / V /
VI / VII
IS 2530(Carbon black content) |
- |
0 |
|
- |
5,3.1,
Table 2,xi)
Type I / II / III / IV / V /
VI
IS 2530(Carbon black content) |
- |
0 |
|
- |
5,3.1,
Table2,iii)
Type I / II / III / IV / V /
VI
Annex K(Lowest individual of 10 thickness value) |
- |
0 |
|
- |
5,3.1,
Table1,iii)
Type I / II / III / IV / V /
VI / VII
Method A of
IS 13162 (Part 3)(Lowest individual of 10 thickness value) |
- |
0 |
|
- |
5,3.1,
Table2,iv)
Type I / II / III / IV / V /
VI
Annex L(Average asperity height) |
- |
0 |
|
- |
5,3.1,
Table 2,v) d)
Type I / II / III / IV / V /
VI
Annex B(Tensile properties:
Breaking elongation) |
- |
0 |
|
- |
5,3.1,
Table1,xv)
Type I / II / III / IV / V /
VI / VII
Annex J(Stress crack resistance) |
- |
0 |
|
- |
5,3.1,
Table 2,xvi)
Type I / II / III / IV / V /
VI
Annex J(Stress crack resistance) |
- |
0 |
|
- |
5,3.1,
Table1,iv) d)
Type I / II / III / IV / V /
VI / VII
Annex B(Tensile properties:
Breaking elongation) |
- |
0 |
|
- |
5,3.1,
Table1,xii)
Type I / II / III / IV / V /
VI / VII
ISO 11357 (Part 6)
or ASTM D 5885(Oxidative induction time (OIT) :
a) Standard OIT
or
b) High pressure OIT) |
- |
0 |
|
- |
5,3.1,
Table 2,xiii)
Type I / II / III / IV / V /
VI
ISO 11357 (Part 6)
or ASTM D 5885(Oxidative induction time (OIT) :
a) Standard OIT
or
b) High pressure OIT) |
- |
0 |
|
- |
5,3.1,
Table1,xiii)
Type I / II / III / IV / V /
VI / VII
Oven method of
IS 7016 (Part 8),
ISO 11357-6 and
ASTM D 5885(Oven ageing at 85°C, Retention of
oxidative induction time (OIT) after
90 days :
a) Standard OIT
or
b) High pressure OIT) |
- |
0 |
|
- |
5,3.1,
Table 2,xiv)
Type I / II / III / IV / V /
VI
Oven method of
IS 7016 (Part 8),
ISO 11357-6 and
ASTM D 5885(Oven ageing at 85°C, Retention of
oxidative induction time (OIT) after
90 days :
a) Standard OIT
or
b) High pressure OIT) |
- |
0 |
|
- |
3, 3.1(MATERIAL AND MANUFACTURE) |
- |
0 |
|
- |
3, 3.2(MATERIAL AND MANUFACTURE
If two or more pieces of geomembranes are used,
the material shall be joined together by a suitable heat
sealing process keeping an overlap of at least 2.5 cm. ) |
- |
0 |
|
- |
4, 4.1(VARIETY AND TYPES :
Based on the finish, HDPE geomembrane shall be
of following varieties) |
- |
0 |
|
- |
4.2,4.2.1(Based on the thickness of HDPE geomembrane, the material shall be classified as under) |
- |
0 |
|
- |
4.2,4.2.2(Based on the thickness of HDPE geomembrane, the material shall be classified as under) |
- |
0 |
|
- |
5(REQUIREMENTS) |
- |
0 |
|
- |
5,3.1,
Table 1(Requirements of Smooth HDPE Geomembrane) |
- |
0 |
|
- |
5,3.1,
Table1,i) a)
Type I / II / III / IV / V /
VI / VII
IS 7016 (Part 1)(Length) |
- |
0 |
|
- |
5,3.1,
Table1,i) b)
Type I / II / III / IV / V /
VI / VII
IS 7016 (Part 1)(width) |
- |
0 |
|
- |
5,3.1,
Table1,ii)
Type I / II / III / IV / V /
VI / VII
Method A of
IS 13162 (Part 3)(Average thickness at a pressure of 2 ± 0.01 kPa) |
- |
0 |
|
- |
5,3.1,
Table1,iv) a)
Type I / II / III / IV / V /
VI / VII
Annex B(Tensile properties:
Yield strength,) |
- |
0 |
|
- |
5,3.1,
Table1,iv) b)
Type I / II / III / IV / V /
VI / VII
Annex B(Tensile properties:
Breaking strength,) |
- |
0 |
|
- |
5,3.1,
Table1,iv) c)
Type I / II / III / IV / V /
VI / VII
Annex B(Tensile properties:
Yield elongation) |
- |
0 |
|
- |
5,3.1,
Table1,v)
Type I / II / III / IV / V /
VI / VII
Annex C(Tear resistance) |
- |
0 |
|
- |
5,3.1,
Table1,vi)
Type I / II / III / IV / V /
VI / VII
Annex D(Puncture resistanc) |
- |
0 |
|
- |
5,3.1,
Table1,vii)
Type I / II / III / IV / V /
VI / VII
Annex E(Low temperature crack resistance at minus 30°C±1°C) |
- |
0 |
|
- |
5,3.1,
Table1,viii)
Type I / II / III / IV / V /
VI / VII
Annex F(Hydrostatic resistance) |
- |
0 |
|
- |
5,3.1,
Table1,ix)
Type I / II / III / IV / V /
VI / VII
Annex G(Seam strength :
85 percent of the
original actual
fabric strength
or unbreakable
seam) |
- |
0 |
|
- |
5,3.1,
Table1,xi)
Type I / II / III / IV / V /
VI / VII
IS 2530(Carbon black dispersion) |
- |
0 |
|
- |
5,3.1,
Table1,xiv)
Type I / II / III / IV / V /
VI / VII
Annex H(Retention of breaking strength after UV exposure of 144 h :
85 percent of the
original actual
fabric strength) |
- |
0 |
|
- |
5,3.1,
Table 2(Requirements of Textured (Single or Double Sided) HDPE Geomembrane) |
- |
0 |
|
- |
5,3.1,
Table2,i) a)
Type I / II / III / IV / V /
VI
IS 7016 (Part 1)(Length) |
- |
0 |
|
- |
5,3.1,
Table 2,i) b)
Type I / II / III / IV / V /
VI
IS 7016 (Part 1)(width) |
- |
0 |
|
- |
5,3.1,
Table2,ii)
Type I / II / III / IV / V /
VI
Annex K(Average core thickness) |
- |
0 |
|
- |
5,3.1,
Table 2,v) a)
Type I / II / III / IV / V /
VI
Annex B(Tensile properties:
Yield strength,) |
- |
0 |
|
- |
5,3.1,
Table 2,v) b)
Type I / II / III / IV / V /
VI
Annex B(Tensile properties:
Breaking strength,) |
- |
0 |
|
- |
5,3.1,
Table 2,v) c)
Type I / II / III / IV / V /
VI
Annex B(Tensile properties:
Yield elongation) |
- |
0 |
|
- |
5,3.1,
Table 2,vi) a)
Type I / II / III / IV / V /
VI
Annex C(Tear resistance) |
- |
0 |
|
- |
5,3.1,
Table 2,vii)
Type I / II / III / IV / V /
VI
Annex D(Puncture resistanc) |
- |
0 |
|
- |
5,3.1,
Table 2,viii)
Type I / II / III / IV / V /
VI
Annex E(Low temperature crack resistance at minus 30°C±1°C) |
- |
0 |
|
- |
5,3.1,
Table 2,iX)
Type I / II / III / IV / V /
VI
Annex F(Hydrostatic resistance) |
- |
0 |
|
- |
5,3.1,
Table 2,x)
Type I / II / III / IV / V /
VI
Annex G(Seam strength :
85 percent of the
original actual
fabric strength
or unbreakable
seam) |
- |
0 |
|
- |
5,3.1,
Table 2,xii)
Type I / II / III / IV / V /
VI
IS 2530(Carbon black dispersion) |
- |
0 |
|
- |
5,3.1,
Table 2,xv)
Type I / II / III / IV / V /
VI
Annex H(Retention of breaking strength after UV exposure of 144 h :
85 percent of the
original actual
fabric strength) |
- |
0 |
|
- |
6(DIMENSIONS AND TOLERANCES
The dimensions of HDPE geomembrane when tested by the method given in IS 7016 (Part 1) shall be as agreed to between the buyer and the seller. However, the minimum width of the HDPE geomembrane shall be 5000 mm. A combination of panel width may be used to obtain desired width of geomembrane. Narrow width panels not less than 1000 mm in width may also be used but such pieces shall not exceed 1 piece per roll of finished material of specified width.) |
- |
0 |
|
- |
7, 7.1
Annex M(COLOUR, SURFACE CHARACTERISTICS AND FREEDOM FROM DEFECTS:
) |
- |
0 |
|
- |
7, 7.2(COLOUR, SURFACE CHARACTERISTICS
AND FREEDOM FROM DEFECTS) |
- |
0 |
|
- |
5,3.1,
Table1,x)
Type I / II / III / IV / V /
VI / VII
IS 2530(Carbon black content) |
- |
0 |
|
- |
5,3.1,
Table 2,xi)
Type I / II / III / IV / V /
VI
IS 2530(Carbon black content) |
- |
0 |
|
- |
5,3.1,
Table2,iii)
Type I / II / III / IV / V /
VI
Annex K(Lowest individual of 10 thickness value) |
- |
0 |
|
- |
5,3.1,
Table1,iii)
Type I / II / III / IV / V /
VI / VII
Method A of
IS 13162 (Part 3)(Lowest individual of 10 thickness value) |
- |
0 |
|
- |
5,3.1,
Table2,iv)
Type I / II / III / IV / V /
VI
Annex L(Average asperity height) |
- |
0 |
|
- |
5,3.1,
Table 2,v) d)
Type I / II / III / IV / V /
VI
Annex B(Tensile properties:
Breaking elongation) |
- |
0 |
|
- |
5,3.1,
Table1,xv)
Type I / II / III / IV / V /
VI / VII
Annex J(Stress crack resistance) |
- |
0 |
|
- |
5,3.1,
Table 2,xvi)
Type I / II / III / IV / V /
VI
Annex J(Stress crack resistance) |
- |
0 |
|
- |
5,3.1,
Table1,iv) d)
Type I / II / III / IV / V /
VI / VII
Annex B(Tensile properties:
Breaking elongation) |
- |
0 |
|
- |
5,3.1,
Table1,xii)
Type I / II / III / IV / V /
VI / VII
ISO 11357 (Part 6)
or ASTM D 5885(Oxidative induction time (OIT) :
a) Standard OIT
or
b) High pressure OIT) |
- |
0 |
|
- |
5,3.1,
Table 2,xiii)
Type I / II / III / IV / V /
VI
ISO 11357 (Part 6)
or ASTM D 5885(Oxidative induction time (OIT) :
a) Standard OIT
or
b) High pressure OIT) |
- |
0 |
|
- |
5,3.1,
Table1,xiii)
Type I / II / III / IV / V /
VI / VII
Oven method of
IS 7016 (Part 8),
ISO 11357-6 and
ASTM D 5885(Oven ageing at 85°C, Retention of
oxidative induction time (OIT) after
90 days :
a) Standard OIT
or
b) High pressure OIT) |
- |
0 |
|
- |
5,3.1,
Table 2,xiv)
Type I / II / III / IV / V /
VI
Oven method of
IS 7016 (Part 8),
ISO 11357-6 and
ASTM D 5885(Oven ageing at 85°C, Retention of
oxidative induction time (OIT) after
90 days :
a) Standard OIT
or
b) High pressure OIT) |
- |
0 |
|
- |
3, 3.1(MATERIAL AND MANUFACTURE) |
- |
0 |
|
- |
3, 3.2(MATERIAL AND MANUFACTURE
If two or more pieces of geomembranes are used,
the material shall be joined together by a suitable heat
sealing process keeping an overlap of at least 2.5 cm. ) |
- |
0 |
|
- |
4, 4.1(VARIETY AND TYPES :
Based on the finish, HDPE geomembrane shall be
of following varieties) |
- |
0 |
|
- |
4.2,4.2.1(Based on the thickness of HDPE geomembrane, the material shall be classified as under) |
- |
0 |
|
- |
4.2,4.2.2(Based on the thickness of HDPE geomembrane, the material shall be classified as under) |
- |
0 |
|
- |
5(REQUIREMENTS) |
- |
0 |
|
- |
5,3.1,
Table 1(Requirements of Smooth HDPE Geomembrane) |
- |
0 |
|
- |
5,3.1,
Table1,i) a)
Type I / II / III / IV / V /
VI / VII
IS 7016 (Part 1)(Length) |
- |
0 |
|
- |
5,3.1,
Table1,i) b)
Type I / II / III / IV / V /
VI / VII
IS 7016 (Part 1)(width) |
- |
0 |
|
- |
5,3.1,
Table1,ii)
Type I / II / III / IV / V /
VI / VII
Method A of
IS 13162 (Part 3)(Average thickness at a pressure of 2 ± 0.01 kPa) |
- |
0 |
|
- |
5,3.1,
Table1,iv) a)
Type I / II / III / IV / V /
VI / VII
Annex B(Tensile properties:
Yield strength,) |
- |
0 |
|
- |
5,3.1,
Table1,iv) b)
Type I / II / III / IV / V /
VI / VII
Annex B(Tensile properties:
Breaking strength,) |
- |
0 |
|
- |
5,3.1,
Table1,iv) c)
Type I / II / III / IV / V /
VI / VII
Annex B(Tensile properties:
Yield elongation) |
- |
0 |
|
- |
5,3.1,
Table1,v)
Type I / II / III / IV / V /
VI / VII
Annex C(Tear resistance) |
- |
0 |
|
- |
5,3.1,
Table1,vi)
Type I / II / III / IV / V /
VI / VII
Annex D(Puncture resistanc) |
- |
0 |
|
- |
5,3.1,
Table1,vii)
Type I / II / III / IV / V /
VI / VII
Annex E(Low temperature crack resistance at minus 30°C±1°C) |
- |
0 |
|
- |
5,3.1,
Table1,viii)
Type I / II / III / IV / V /
VI / VII
Annex F(Hydrostatic resistance) |
- |
0 |
|
- |
5,3.1,
Table1,ix)
Type I / II / III / IV / V /
VI / VII
Annex G(Seam strength :
85 percent of the
original actual
fabric strength
or unbreakable
seam) |
- |
0 |
|
- |
5,3.1,
Table1,xi)
Type I / II / III / IV / V /
VI / VII
IS 2530(Carbon black dispersion) |
- |
0 |
|
- |
5,3.1,
Table1,xiv)
Type I / II / III / IV / V /
VI / VII
Annex H(Retention of breaking strength after UV exposure of 144 h :
85 percent of the
original actual
fabric strength) |
- |
0 |
|
- |
5,3.1,
Table 2(Requirements of Textured (Single or Double Sided) HDPE Geomembrane) |
- |
0 |
|
- |
5,3.1,
Table2,i) a)
Type I / II / III / IV / V /
VI
IS 7016 (Part 1)(Length) |
- |
0 |
|
- |
5,3.1,
Table 2,i) b)
Type I / II / III / IV / V /
VI
IS 7016 (Part 1)(width) |
- |
0 |
|
- |
5,3.1,
Table2,ii)
Type I / II / III / IV / V /
VI
Annex K(Average core thickness) |
- |
0 |
|
- |
5,3.1,
Table 2,v) a)
Type I / II / III / IV / V /
VI
Annex B(Tensile properties:
Yield strength,) |
- |
0 |
|
- |
5,3.1,
Table 2,v) b)
Type I / II / III / IV / V /
VI
Annex B(Tensile properties:
Breaking strength,) |
- |
0 |
|
- |
5,3.1,
Table 2,v) c)
Type I / II / III / IV / V /
VI
Annex B(Tensile properties:
Yield elongation) |
- |
0 |
|
- |
5,3.1,
Table 2,vi) a)
Type I / II / III / IV / V /
VI
Annex C(Tear resistance) |
- |
0 |
|
- |
5,3.1,
Table 2,vii)
Type I / II / III / IV / V /
VI
Annex D(Puncture resistanc) |
- |
0 |
|
- |
5,3.1,
Table 2,viii)
Type I / II / III / IV / V /
VI
Annex E(Low temperature crack resistance at minus 30°C±1°C) |
- |
0 |
|
- |
5,3.1,
Table 2,iX)
Type I / II / III / IV / V /
VI
Annex F(Hydrostatic resistance) |
- |
0 |
|
- |
5,3.1,
Table 2,x)
Type I / II / III / IV / V /
VI
Annex G(Seam strength :
85 percent of the
original actual
fabric strength
or unbreakable
seam) |
- |
0 |
|
- |
5,3.1,
Table 2,xii)
Type I / II / III / IV / V /
VI
IS 2530(Carbon black dispersion) |
- |
0 |
|
- |
5,3.1,
Table 2,xv)
Type I / II / III / IV / V /
VI
Annex H(Retention of breaking strength after UV exposure of 144 h :
85 percent of the
original actual
fabric strength) |
- |
0 |
|
- |
6(DIMENSIONS AND TOLERANCES
The dimensions of HDPE geomembrane when tested by the method given in IS 7016 (Part 1) shall be as agreed to between the buyer and the seller. However, the minimum width of the HDPE geomembrane shall be 5000 mm. A combination of panel width may be used to obtain desired width of geomembrane. Narrow width panels not less than 1000 mm in width may also be used but such pieces shall not exceed 1 piece per roll of finished material of specified width.) |
- |
0 |
|
- |
7, 7.1
Annex M(COLOUR, SURFACE CHARACTERISTICS AND FREEDOM FROM DEFECTS:
) |
- |
0 |
|
- |
7, 7.2(COLOUR, SURFACE CHARACTERISTICS
AND FREEDOM FROM DEFECTS) |
- |
0 |
|
- |
5,3.1,
Table1,x)
Type I / II / III / IV / V /
VI / VII
IS 2530(Carbon black content) |
- |
0 |
|
- |
5,3.1,
Table 2,xi)
Type I / II / III / IV / V /
VI
IS 2530(Carbon black content) |
- |
0 |
|
- |
5,3.1,
Table2,iii)
Type I / II / III / IV / V /
VI
Annex K(Lowest individual of 10 thickness value) |
- |
0 |
|
- |
5,3.1,
Table2,iv)
Type I / II / III / IV / V /
VI
Annex L(Average asperity height) |
- |
0 |
|
- |
5,3.1,
Table 2,v) d)
Type I / II / III / IV / V /
VI
Annex B(Tensile properties:
Breaking elongation) |
- |
0 |
|
- |
5,3.1,
Table1,xv)
Type I / II / III / IV / V /
VI / VII
Annex J(Stress crack resistance) |
- |
0 |
|
- |
5,3.1,
Table 2,xvi)
Type I / II / III / IV / V /
VI
Annex J(Stress crack resistance) |
- |
0 |
|
- |
5,3.1,
Table1,iv) d)
Type I / II / III / IV / V /
VI / VII
Annex B(Tensile properties:
Breaking elongation) |
- |
0 |
|
- |
5,3.1,
Table1,xii)
Type I / II / III / IV / V /
VI / VII
ISO 11357 (Part 6)
or ASTM D 5885(Oxidative induction time (OIT) :
a) Standard OIT
or
b) High pressure OIT) |
- |
0 |
|
- |
5,3.1,
Table 2,xiii)
Type I / II / III / IV / V /
VI
ISO 11357 (Part 6)
or ASTM D 5885(Oxidative induction time (OIT) :
a) Standard OIT
or
b) High pressure OIT) |
- |
0 |
|
- |
5,3.1,
Table1,xiii)
Type I / II / III / IV / V /
VI / VII
Oven method of
IS 7016 (Part 8),
ISO 11357-6 and
ASTM D 5885(Oven ageing at 85°C, Retention of
oxidative induction time (OIT) after
90 days :
a) Standard OIT
or
b) High pressure OIT) |
- |
0 |
|
- |
5,3.1,
Table 2,xiv)
Type I / II / III / IV / V /
VI
Oven method of
IS 7016 (Part 8),
ISO 11357-6 and
ASTM D 5885(Oven ageing at 85°C, Retention of
oxidative induction time (OIT) after
90 days :
a) Standard OIT
or
b) High pressure OIT) |
- |
0 |
|
- |
3, 3.1(MATERIAL AND MANUFACTURE) |
- |
0 |
|
- |
3, 3.2(MATERIAL AND MANUFACTURE
If two or more pieces of geomembranes are used,
the material shall be joined together by a suitable heat
sealing process keeping an overlap of at least 2.5 cm. ) |
- |
0 |
|
- |
4, 4.1(VARIETY AND TYPES :
Based on the finish, HDPE geomembrane shall be
of following varieties) |
- |
0 |
|
- |
4.2,4.2.1(Based on the thickness of HDPE geomembrane, the material shall be classified as under) |
- |
0 |
|
- |
4.2,4.2.2(Based on the thickness of HDPE geomembrane, the material shall be classified as under) |
- |
0 |
|
- |
5(REQUIREMENTS) |
- |
0 |
|
- |
5,3.1,
Table 1(Requirements of Smooth HDPE Geomembrane) |
- |
0 |
|
- |
5,3.1,
Table1,i) a)
Type I / II / III / IV / V /
VI / VII
IS 7016 (Part 1)(Length) |
- |
0 |
|
- |
5,3.1,
Table1,i) b)
Type I / II / III / IV / V /
VI / VII
IS 7016 (Part 1)(width) |
- |
0 |
|
- |
5,3.1,
Table1,ii)
Type I / II / III / IV / V /
VI / VII
Method A of
IS 13162 (Part 3)(Average thickness at a pressure of 2 ± 0.01 kPa) |
- |
0 |
|
- |
5,3.1,
Table1,iv) a)
Type I / II / III / IV / V /
VI / VII
Annex B(Tensile properties:
Yield strength,) |
- |
0 |
|
- |
5,3.1,
Table1,iv) b)
Type I / II / III / IV / V /
VI / VII
Annex B(Tensile properties:
Breaking strength,) |
- |
0 |
|
- |
5,3.1,
Table1,iv) c)
Type I / II / III / IV / V /
VI / VII
Annex B(Tensile properties:
Yield elongation) |
- |
0 |
|
- |
5,3.1,
Table1,v)
Type I / II / III / IV / V /
VI / VII
Annex C(Tear resistance) |
- |
0 |
|
- |
5,3.1,
Table1,vi)
Type I / II / III / IV / V /
VI / VII
Annex D(Puncture resistanc) |
- |
0 |
|
- |
5,3.1,
Table1,vii)
Type I / II / III / IV / V /
VI / VII
Annex E(Low temperature crack resistance at minus 30°C±1°C) |
- |
0 |
|
- |
5,3.1,
Table1,viii)
Type I / II / III / IV / V /
VI / VII
Annex F(Hydrostatic resistance) |
- |
0 |
|
- |
5,3.1,
Table1,ix)
Type I / II / III / IV / V /
VI / VII
Annex G(Seam strength :
85 percent of the
original actual
fabric strength
or unbreakable
seam) |
- |
0 |
|
- |
5,3.1,
Table1,xi)
Type I / II / III / IV / V /
VI / VII
IS 2530(Carbon black dispersion) |
- |
0 |
|
- |
5,3.1,
Table1,xiv)
Type I / II / III / IV / V /
VI / VII
Annex H(Retention of breaking strength after UV exposure of 144 h :
85 percent of the
original actual
fabric strength) |
- |
0 |
|
- |
5,3.1,
Table 2(Requirements of Textured (Single or Double Sided) HDPE Geomembrane) |
- |
0 |
|
- |
5,3.1,
Table2,i) a)
Type I / II / III / IV / V /
VI
IS 7016 (Part 1)(Length) |
- |
0 |
|
- |
5,3.1,
Table 2,i) b)
Type I / II / III / IV / V /
VI
IS 7016 (Part 1)(width) |
- |
0 |
|
- |
5,3.1,
Table2,ii)
Type I / II / III / IV / V /
VI
Annex K(Average core thickness) |
- |
0 |
|
- |
5,3.1,
Table 2,v) a)
Type I / II / III / IV / V /
VI
Annex B(Tensile properties:
Yield strength,) |
- |
0 |
|
- |
5,3.1,
Table 2,v) b)
Type I / II / III / IV / V /
VI
Annex B(Tensile properties:
Breaking strength,) |
- |
0 |
|
- |
5,3.1,
Table 2,v) c)
Type I / II / III / IV / V /
VI
Annex B(Tensile properties:
Yield elongation) |
- |
0 |
|
- |
5,3.1,
Table 2,vi) a)
Type I / II / III / IV / V /
VI
Annex C(Tear resistance) |
- |
0 |
|
- |
5,3.1,
Table 2,vii)
Type I / II / III / IV / V /
VI
Annex D(Puncture resistanc) |
- |
0 |
|
- |
5,3.1,
Table 2,viii)
Type I / II / III / IV / V /
VI
Annex E(Low temperature crack resistance at minus 30°C±1°C) |
- |
0 |
|
- |
5,3.1,
Table 2,iX)
Type I / II / III / IV / V /
VI
Annex F(Hydrostatic resistance) |
- |
0 |
|
- |
5,3.1,
Table 2,x)
Type I / II / III / IV / V /
VI
Annex G(Seam strength :
85 percent of the
original actual
fabric strength
or unbreakable
seam) |
- |
0 |
|
- |
5,3.1,
Table 2,xii)
Type I / II / III / IV / V /
VI
IS 2530(Carbon black dispersion) |
- |
0 |
|
- |
5,3.1,
Table 2,xv)
Type I / II / III / IV / V /
VI
Annex H(Retention of breaking strength after UV exposure of 144 h :
85 percent of the
original actual
fabric strength) |
- |
0 |
|
- |
6(DIMENSIONS AND TOLERANCES
The dimensions of HDPE geomembrane when tested by the method given in IS 7016 (Part 1) shall be as agreed to between the buyer and the seller. However, the minimum width of the HDPE geomembrane shall be 5000 mm. A combination of panel width may be used to obtain desired width of geomembrane. Narrow width panels not less than 1000 mm in width may also be used but such pieces shall not exceed 1 piece per roll of finished material of specified width.) |
- |
0 |
|
- |
7, 7.1
Annex M(COLOUR, SURFACE CHARACTERISTICS AND FREEDOM FROM DEFECTS:
) |
- |
0 |
|
- |
7, 7.2(COLOUR, SURFACE CHARACTERISTICS
AND FREEDOM FROM DEFECTS) |
- |
0 |
|
- |
5,3.1,
Table1,iii)
Type I / II / III / IV / V /
VI / VII
Method A of
IS 13162 (Part 3)(Lowest individual of 10 thickness value) |
- |
0 |
|
- |
5,3.1,
Table1,x)
Type I / II / III / IV / V /
VI / VII
IS 2530(Carbon black content) |
- |
0 |
|
- |
5,3.1,
Table 2,xi)
Type I / II / III / IV / V /
VI
IS 2530(Carbon black content) |
- |
0 |
|
- |
5,3.1,
Table2,iii)
Type I / II / III / IV / V /
VI
Annex K(Lowest individual of 10 thickness value) |
- |
0 |
|
- |
5,3.1,
Table1,iii)
Type I / II / III / IV / V /
VI / VII
Method A of
IS 13162 (Part 3)(Lowest individual of 10 thickness value) |
- |
0 |
|
- |
5,3.1,
Table2,iv)
Type I / II / III / IV / V /
VI
Annex L(Average asperity height) |
- |
0 |
|
- |
5,3.1,
Table 2,v) d)
Type I / II / III / IV / V /
VI
Annex B(Tensile properties:
Breaking elongation) |
- |
0 |
|
- |
5,3.1,
Table1,xv)
Type I / II / III / IV / V /
VI / VII
Annex J(Stress crack resistance) |
- |
0 |
|
- |
5,3.1,
Table 2,xvi)
Type I / II / III / IV / V /
VI
Annex J(Stress crack resistance) |
- |
0 |
|
- |
5,3.1,
Table1,iv) d)
Type I / II / III / IV / V /
VI / VII
Annex B(Tensile properties:
Breaking elongation) |
- |
0 |
|
- |
5,3.1,
Table1,xii)
Type I / II / III / IV / V /
VI / VII
ISO 11357 (Part 6)
or ASTM D 5885(Oxidative induction time (OIT) :
a) Standard OIT
or
b) High pressure OIT) |
- |
0 |
|
- |
5,3.1,
Table 2,xiii)
Type I / II / III / IV / V /
VI
ISO 11357 (Part 6)
or ASTM D 5885(Oxidative induction time (OIT) :
a) Standard OIT
or
b) High pressure OIT) |
- |
0 |
|
- |
5,3.1,
Table1,xiii)
Type I / II / III / IV / V /
VI / VII
Oven method of
IS 7016 (Part 8),
ISO 11357-6 and
ASTM D 5885(Oven ageing at 85°C, Retention of
oxidative induction time (OIT) after
90 days :
a) Standard OIT
or
b) High pressure OIT) |
- |
0 |
|
- |
5,3.1,
Table 2,xiv)
Type I / II / III / IV / V /
VI
Oven method of
IS 7016 (Part 8),
ISO 11357-6 and
ASTM D 5885(Oven ageing at 85°C, Retention of
oxidative induction time (OIT) after
90 days :
a) Standard OIT
or
b) High pressure OIT) |
- |
0 |
|
- |
3, 3.1(MATERIAL AND MANUFACTURE) |
- |
0 |
|
- |
3, 3.2(MATERIAL AND MANUFACTURE
If two or more pieces of geomembranes are used,
the material shall be joined together by a suitable heat
sealing process keeping an overlap of at least 2.5 cm. ) |
- |
0 |
|
- |
4, 4.1(VARIETY AND TYPES :
Based on the finish, HDPE geomembrane shall be
of following varieties) |
- |
0 |
|
- |
4.2,4.2.1(Based on the thickness of HDPE geomembrane, the material shall be classified as under) |
- |
0 |
|
- |
4.2,4.2.2(Based on the thickness of HDPE geomembrane, the material shall be classified as under) |
- |
0 |
|
- |
5(REQUIREMENTS) |
- |
0 |
|
- |
5,3.1,
Table 1(Requirements of Smooth HDPE Geomembrane) |
- |
0 |
|
- |
5,3.1,
Table1,i) a)
Type I / II / III / IV / V /
VI / VII
IS 7016 (Part 1)(Length) |
- |
0 |
|
- |
5,3.1,
Table1,i) b)
Type I / II / III / IV / V /
VI / VII
IS 7016 (Part 1)(width) |
- |
0 |
|
- |
5,3.1,
Table1,ii)
Type I / II / III / IV / V /
VI / VII
Method A of
IS 13162 (Part 3)(Average thickness at a pressure of 2 ± 0.01 kPa) |
- |
0 |
|
- |
5,3.1,
Table1,iv) a)
Type I / II / III / IV / V /
VI / VII
Annex B(Tensile properties:
Yield strength,) |
- |
0 |
|
- |
5,3.1,
Table1,iv) b)
Type I / II / III / IV / V /
VI / VII
Annex B(Tensile properties:
Breaking strength,) |
- |
0 |
|
- |
5,3.1,
Table1,iv) c)
Type I / II / III / IV / V /
VI / VII
Annex B(Tensile properties:
Yield elongation) |
- |
0 |
|
- |
5,3.1,
Table1,v)
Type I / II / III / IV / V /
VI / VII
Annex C(Tear resistance) |
- |
0 |
|
- |
5,3.1,
Table1,vi)
Type I / II / III / IV / V /
VI / VII
Annex D(Puncture resistanc) |
- |
0 |
|
- |
5,3.1,
Table1,vii)
Type I / II / III / IV / V /
VI / VII
Annex E(Low temperature crack resistance at minus 30°C±1°C) |
- |
0 |
|
- |
5,3.1,
Table1,viii)
Type I / II / III / IV / V /
VI / VII
Annex F(Hydrostatic resistance) |
- |
0 |
|
- |
5,3.1,
Table1,ix)
Type I / II / III / IV / V /
VI / VII
Annex G(Seam strength :
85 percent of the
original actual
fabric strength
or unbreakable
seam) |
- |
0 |
|
- |
5,3.1,
Table1,xi)
Type I / II / III / IV / V /
VI / VII
IS 2530(Carbon black dispersion) |
- |
0 |
|
- |
5,3.1,
Table1,xiv)
Type I / II / III / IV / V /
VI / VII
Annex H(Retention of breaking strength after UV exposure of 144 h :
85 percent of the
original actual
fabric strength) |
- |
0 |
|
- |
5,3.1,
Table 2(Requirements of Textured (Single or Double Sided) HDPE Geomembrane) |
- |
0 |
|
- |
5,3.1,
Table2,i) a)
Type I / II / III / IV / V /
VI
IS 7016 (Part 1)(Length) |
- |
0 |
|
- |
5,3.1,
Table 2,i) b)
Type I / II / III / IV / V /
VI
IS 7016 (Part 1)(width) |
- |
0 |
|
- |
5,3.1,
Table2,ii)
Type I / II / III / IV / V /
VI
Annex K(Average core thickness) |
- |
0 |
|
- |
5,3.1,
Table 2,v) a)
Type I / II / III / IV / V /
VI
Annex B(Tensile properties:
Yield strength,) |
- |
0 |
|
- |
5,3.1,
Table 2,v) b)
Type I / II / III / IV / V /
VI
Annex B(Tensile properties:
Breaking strength,) |
- |
0 |
|
- |
5,3.1,
Table 2,v) c)
Type I / II / III / IV / V /
VI
Annex B(Tensile properties:
Yield elongation) |
- |
0 |
|
- |
5,3.1,
Table 2,vi) a)
Type I / II / III / IV / V /
VI
Annex C(Tear resistance) |
- |
0 |
|
- |
5,3.1,
Table 2,vii)
Type I / II / III / IV / V /
VI
Annex D(Puncture resistanc) |
- |
0 |
|
- |
5,3.1,
Table 2,viii)
Type I / II / III / IV / V /
VI
Annex E(Low temperature crack resistance at minus 30°C±1°C) |
- |
0 |
|
- |
5,3.1,
Table 2,iX)
Type I / II / III / IV / V /
VI
Annex F(Hydrostatic resistance) |
- |
0 |
|
- |
5,3.1,
Table 2,x)
Type I / II / III / IV / V /
VI
Annex G(Seam strength :
85 percent of the
original actual
fabric strength
or unbreakable
seam) |
- |
0 |
|
- |
5,3.1,
Table 2,xii)
Type I / II / III / IV / V /
VI
IS 2530(Carbon black dispersion) |
- |
0 |
|
- |
5,3.1,
Table 2,xv)
Type I / II / III / IV / V /
VI
Annex H(Retention of breaking strength after UV exposure of 144 h :
85 percent of the
original actual
fabric strength) |
- |
0 |
|
- |
6(DIMENSIONS AND TOLERANCES
The dimensions of HDPE geomembrane when tested by the method given in IS 7016 (Part 1) shall be as agreed to between the buyer and the seller. However, the minimum width of the HDPE geomembrane shall be 5000 mm. A combination of panel width may be used to obtain desired width of geomembrane. Narrow width panels not less than 1000 mm in width may also be used but such pieces shall not exceed 1 piece per roll of finished material of specified width.) |
- |
0 |
|
- |
7, 7.1
Annex M(COLOUR, SURFACE CHARACTERISTICS AND FREEDOM FROM DEFECTS:
) |
- |
0 |
|
- |
7, 7.2(COLOUR, SURFACE CHARACTERISTICS
AND FREEDOM FROM DEFECTS) |
- |
0 |
|
- |
5,3.1,
Table1,x)
Type I / II / III / IV / V /
VI / VII
IS 2530(Carbon black content) |
- |
0 |
|
- |
5,3.1,
Table 2,xi)
Type I / II / III / IV / V /
VI
IS 2530(Carbon black content) |
- |
0 |
|
- |
5,3.1,
Table2,iii)
Type I / II / III / IV / V /
VI
Annex K(Lowest individual of 10 thickness value) |
- |
0 |
|
- |
5,3.1,
Table1,iii)
Type I / II / III / IV / V /
VI / VII
Method A of
IS 13162 (Part 3)(Lowest individual of 10 thickness value) |
- |
0 |
|
- |
5,3.1,
Table2,iv)
Type I / II / III / IV / V /
VI
Annex L(Average asperity height) |
- |
0 |
|
- |
5,3.1,
Table 2,v) d)
Type I / II / III / IV / V /
VI
Annex B(Tensile properties:
Breaking elongation) |
- |
0 |
|
- |
5,3.1,
Table1,xv)
Type I / II / III / IV / V /
VI / VII
Annex J(Stress crack resistance) |
- |
0 |
|
- |
5,3.1,
Table 2,xvi)
Type I / II / III / IV / V /
VI
Annex J(Stress crack resistance) |
- |
0 |
|
- |
5,3.1,
Table1,iv) d)
Type I / II / III / IV / V /
VI / VII
Annex B(Tensile properties:
Breaking elongation) |
- |
0 |
|
- |
5,3.1,
Table1,xii)
Type I / II / III / IV / V /
VI / VII
ISO 11357 (Part 6)
or ASTM D 5885(Oxidative induction time (OIT) :
a) Standard OIT
or
b) High pressure OIT) |
- |
0 |
|
- |
5,3.1,
Table 2,xiii)
Type I / II / III / IV / V /
VI
ISO 11357 (Part 6)
or ASTM D 5885(Oxidative induction time (OIT) :
a) Standard OIT
or
b) High pressure OIT) |
- |
0 |
|
- |
5,3.1,
Table1,xiii)
Type I / II / III / IV / V /
VI / VII
Oven method of
IS 7016 (Part 8),
ISO 11357-6 and
ASTM D 5885(Oven ageing at 85°C, Retention of
oxidative induction time (OIT) after
90 days :
a) Standard OIT
or
b) High pressure OIT) |
- |
0 |
|
- |
5,3.1,
Table 2,xiv)
Type I / II / III / IV / V /
VI
Oven method of
IS 7016 (Part 8),
ISO 11357-6 and
ASTM D 5885(Oven ageing at 85°C, Retention of
oxidative induction time (OIT) after
90 days :
a) Standard OIT
or
b) High pressure OIT) |
- |
0 |
|
- |
3, 3.1(MATERIAL AND MANUFACTURE) |
- |
0 |
|
- |
3, 3.2(MATERIAL AND MANUFACTURE
If two or more pieces of geomembranes are used,
the material shall be joined together by a suitable heat
sealing process keeping an overlap of at least 2.5 cm. ) |
- |
0 |
|
- |
4, 4.1(VARIETY AND TYPES :
Based on the finish, HDPE geomembrane shall be
of following varieties) |
- |
0 |
|
- |
4.2,4.2.1(Based on the thickness of HDPE geomembrane, the material shall be classified as under) |
- |
0 |
|
- |
4.2,4.2.2(Based on the thickness of HDPE geomembrane, the material shall be classified as under) |
- |
0 |
|
- |
5(REQUIREMENTS) |
- |
0 |
|
- |
5,3.1,
Table 1(Requirements of Smooth HDPE Geomembrane) |
- |
0 |
|
- |
5,3.1,
Table1,i) a)
Type I / II / III / IV / V /
VI / VII
IS 7016 (Part 1)(Length) |
- |
0 |
|
- |
5,3.1,
Table1,i) b)
Type I / II / III / IV / V /
VI / VII
IS 7016 (Part 1)(width) |
- |
0 |
|
- |
5,3.1,
Table1,ii)
Type I / II / III / IV / V /
VI / VII
Method A of
IS 13162 (Part 3)(Average thickness at a pressure of 2 ± 0.01 kPa) |
- |
0 |
|
- |
5,3.1,
Table1,iv) a)
Type I / II / III / IV / V /
VI / VII
Annex B(Tensile properties:
Yield strength,) |
- |
0 |
|
- |
5,3.1,
Table1,iv) b)
Type I / II / III / IV / V /
VI / VII
Annex B(Tensile properties:
Breaking strength,) |
- |
0 |
|
- |
5,3.1,
Table1,iv) c)
Type I / II / III / IV / V /
VI / VII
Annex B(Tensile properties:
Yield elongation) |
- |
0 |
|
- |
5,3.1,
Table1,v)
Type I / II / III / IV / V /
VI / VII
Annex C(Tear resistance) |
- |
0 |
|
- |
5,3.1,
Table1,vi)
Type I / II / III / IV / V /
VI / VII
Annex D(Puncture resistanc) |
- |
0 |
|
- |
5,3.1,
Table1,vii)
Type I / II / III / IV / V /
VI / VII
Annex E(Low temperature crack resistance at minus 30°C±1°C) |
- |
0 |
|
- |
5,3.1,
Table1,viii)
Type I / II / III / IV / V /
VI / VII
Annex F(Hydrostatic resistance) |
- |
0 |
|
- |
5,3.1,
Table1,ix)
Type I / II / III / IV / V /
VI / VII
Annex G(Seam strength :
85 percent of the
original actual
fabric strength
or unbreakable
seam) |
- |
0 |
|
- |
5,3.1,
Table1,xi)
Type I / II / III / IV / V /
VI / VII
IS 2530(Carbon black dispersion) |
- |
0 |
|
- |
5,3.1,
Table1,xiv)
Type I / II / III / IV / V /
VI / VII
Annex H(Retention of breaking strength after UV exposure of 144 h :
85 percent of the
original actual
fabric strength) |
- |
0 |
|
- |
5,3.1,
Table 2(Requirements of Textured (Single or Double Sided) HDPE Geomembrane) |
- |
0 |
|
- |
5,3.1,
Table2,i) a)
Type I / II / III / IV / V /
VI
IS 7016 (Part 1)(Length) |
- |
0 |
|
- |
5,3.1,
Table 2,i) b)
Type I / II / III / IV / V /
VI
IS 7016 (Part 1)(width) |
- |
0 |
|
- |
5,3.1,
Table2,ii)
Type I / II / III / IV / V /
VI
Annex K(Average core thickness) |
- |
0 |
|
- |
5,3.1,
Table 2,v) a)
Type I / II / III / IV / V /
VI
Annex B(Tensile properties:
Yield strength,) |
- |
0 |
|
- |
5,3.1,
Table 2,v) b)
Type I / II / III / IV / V /
VI
Annex B(Tensile properties:
Breaking strength,) |
- |
0 |
|
- |
5,3.1,
Table 2,v) c)
Type I / II / III / IV / V /
VI
Annex B(Tensile properties:
Yield elongation) |
- |
0 |
|
- |
5,3.1,
Table 2,vi) a)
Type I / II / III / IV / V /
VI
Annex C(Tear resistance) |
- |
0 |
|
- |
5,3.1,
Table 2,vii)
Type I / II / III / IV / V /
VI
Annex D(Puncture resistanc) |
- |
0 |
|
- |
5,3.1,
Table 2,viii)
Type I / II / III / IV / V /
VI
Annex E(Low temperature crack resistance at minus 30°C±1°C) |
- |
0 |
|
- |
5,3.1,
Table 2,iX)
Type I / II / III / IV / V /
VI
Annex F(Hydrostatic resistance) |
- |
0 |
|
- |
5,3.1,
Table 2,x)
Type I / II / III / IV / V /
VI
Annex G(Seam strength :
85 percent of the
original actual
fabric strength
or unbreakable
seam) |
- |
0 |
|
- |
5,3.1,
Table 2,xii)
Type I / II / III / IV / V /
VI
IS 2530(Carbon black dispersion) |
- |
0 |
|
- |
5,3.1,
Table 2,xv)
Type I / II / III / IV / V /
VI
Annex H(Retention of breaking strength after UV exposure of 144 h :
85 percent of the
original actual
fabric strength) |
- |
0 |
|
- |
6(DIMENSIONS AND TOLERANCES
The dimensions of HDPE geomembrane when tested by the method given in IS 7016 (Part 1) shall be as agreed to between the buyer and the seller. However, the minimum width of the HDPE geomembrane shall be 5000 mm. A combination of panel width may be used to obtain desired width of geomembrane. Narrow width panels not less than 1000 mm in width may also be used but such pieces shall not exceed 1 piece per roll of finished material of specified width.) |
- |
0 |
|
- |
7, 7.1
Annex M(COLOUR, SURFACE CHARACTERISTICS AND FREEDOM FROM DEFECTS:
) |
- |
0 |
|
- |
7, 7.2(COLOUR, SURFACE CHARACTERISTICS
AND FREEDOM FROM DEFECTS) |
- |
0 |
|
- |
5,3.1,
Table1,x)
Type I / II / III / IV / V /
VI / VII
IS 2530(Carbon black content) |
- |
0 |
|
- |
5,3.1,
Table 2,xi)
Type I / II / III / IV / V /
VI
IS 2530(Carbon black content) |
- |
0 |
|
- |
5,3.1,
Table2,iii)
Type I / II / III / IV / V /
VI
Annex K(Lowest individual of 10 thickness value) |
- |
0 |
|
- |
5,3.1,
Table1,iii)
Type I / II / III / IV / V /
VI / VII
Method A of
IS 13162 (Part 3)(Lowest individual of 10 thickness value) |
- |
0 |
|
- |
5,3.1,
Table2,iv)
Type I / II / III / IV / V /
VI
Annex L(Average asperity height) |
- |
0 |
|
- |
5,3.1,
Table 2,v) d)
Type I / II / III / IV / V /
VI
Annex B(Tensile properties:
Breaking elongation) |
- |
0 |
|
- |
5,3.1,
Table1,xv)
Type I / II / III / IV / V /
VI / VII
Annex J(Stress crack resistance) |
- |
0 |
|
- |
5,3.1,
Table 2,xvi)
Type I / II / III / IV / V /
VI
Annex J(Stress crack resistance) |
- |
0 |
|
- |
5,3.1,
Table1,iv) d)
Type I / II / III / IV / V /
VI / VII
Annex B(Tensile properties:
Breaking elongation) |
- |
0 |
|
- |
5,3.1,
Table1,xii)
Type I / II / III / IV / V /
VI / VII
ISO 11357 (Part 6)
or ASTM D 5885(Oxidative induction time (OIT) :
a) Standard OIT
or
b) High pressure OIT) |
- |
0 |
|
- |
5,3.1,
Table 2,xiii)
Type I / II / III / IV / V /
VI
ISO 11357 (Part 6)
or ASTM D 5885(Oxidative induction time (OIT) :
a) Standard OIT
or
b) High pressure OIT) |
- |
0 |
|
- |
5,3.1,
Table1,xiii)
Type I / II / III / IV / V /
VI / VII
Oven method of
IS 7016 (Part 8),
ISO 11357-6 and
ASTM D 5885(Oven ageing at 85°C, Retention of
oxidative induction time (OIT) after
90 days :
a) Standard OIT
or
b) High pressure OIT) |
- |
0 |
|
- |
5,3.1,
Table 2,xiv)
Type I / II / III / IV / V /
VI
Oven method of
IS 7016 (Part 8),
ISO 11357-6 and
ASTM D 5885(Oven ageing at 85°C, Retention of
oxidative induction time (OIT) after
90 days :
a) Standard OIT
or
b) High pressure OIT) |
- |
0 |
|
- |
3, 3.1(MATERIAL AND MANUFACTURE) |
- |
0 |
|
- |
3, 3.2(MATERIAL AND MANUFACTURE
If two or more pieces of geomembranes are used,
the material shall be joined together by a suitable heat
sealing process keeping an overlap of at least 2.5 cm. ) |
- |
0 |
|
- |
4, 4.1(VARIETY AND TYPES :
Based on the finish, HDPE geomembrane shall be
of following varieties) |
- |
0 |
|
- |
4.2,4.2.1(Based on the thickness of HDPE geomembrane, the material shall be classified as under) |
- |
0 |
|
- |
4.2,4.2.2(Based on the thickness of HDPE geomembrane, the material shall be classified as under) |
- |
0 |
|
- |
5(REQUIREMENTS) |
- |
0 |
|
- |
5,3.1,
Table 1(Requirements of Smooth HDPE Geomembrane) |
- |
0 |
|
- |
5,3.1,
Table1,i) a)
Type I / II / III / IV / V /
VI / VII
IS 7016 (Part 1)(Length) |
- |
0 |
|
- |
5,3.1,
Table1,i) b)
Type I / II / III / IV / V /
VI / VII
IS 7016 (Part 1)(width) |
- |
0 |
|
- |
5,3.1,
Table1,ii)
Type I / II / III / IV / V /
VI / VII
Method A of
IS 13162 (Part 3)(Average thickness at a pressure of 2 ± 0.01 kPa) |
- |
0 |
|
- |
5,3.1,
Table1,iv) a)
Type I / II / III / IV / V /
VI / VII
Annex B(Tensile properties:
Yield strength,) |
- |
0 |
|
- |
5,3.1,
Table1,iv) b)
Type I / II / III / IV / V /
VI / VII
Annex B(Tensile properties:
Breaking strength,) |
- |
0 |
|
- |
5,3.1,
Table1,iv) c)
Type I / II / III / IV / V /
VI / VII
Annex B(Tensile properties:
Yield elongation) |
- |
0 |
|
- |
5,3.1,
Table1,v)
Type I / II / III / IV / V /
VI / VII
Annex C(Tear resistance) |
- |
0 |
|
- |
5,3.1,
Table1,vi)
Type I / II / III / IV / V /
VI / VII
Annex D(Puncture resistanc) |
- |
0 |
|
- |
5,3.1,
Table1,vii)
Type I / II / III / IV / V /
VI / VII
Annex E(Low temperature crack resistance at minus 30°C±1°C) |
- |
0 |
|
- |
5,3.1,
Table1,viii)
Type I / II / III / IV / V /
VI / VII
Annex F(Hydrostatic resistance) |
- |
0 |
|
- |
5,3.1,
Table1,ix)
Type I / II / III / IV / V /
VI / VII
Annex G(Seam strength :
85 percent of the
original actual
fabric strength
or unbreakable
seam) |
- |
0 |
|
- |
5,3.1,
Table1,xi)
Type I / II / III / IV / V /
VI / VII
IS 2530(Carbon black dispersion) |
- |
0 |
|
- |
5,3.1,
Table1,xiv)
Type I / II / III / IV / V /
VI / VII
Annex H(Retention of breaking strength after UV exposure of 144 h :
85 percent of the
original actual
fabric strength) |
- |
0 |
|
- |
5,3.1,
Table 2(Requirements of Textured (Single or Double Sided) HDPE Geomembrane) |
- |
0 |
|
- |
5,3.1,
Table2,i) a)
Type I / II / III / IV / V /
VI
IS 7016 (Part 1)(Length) |
- |
0 |
|
- |
5,3.1,
Table 2,i) b)
Type I / II / III / IV / V /
VI
IS 7016 (Part 1)(width) |
- |
0 |
|
- |
5,3.1,
Table2,ii)
Type I / II / III / IV / V /
VI
Annex K(Average core thickness) |
- |
0 |
|
- |
5,3.1,
Table 2,v) a)
Type I / II / III / IV / V /
VI
Annex B(Tensile properties:
Yield strength,) |
- |
0 |
|
- |
5,3.1,
Table 2,v) b)
Type I / II / III / IV / V /
VI
Annex B(Tensile properties:
Breaking strength,) |
- |
0 |
|
- |
5,3.1,
Table 2,v) c)
Type I / II / III / IV / V /
VI
Annex B(Tensile properties:
Yield elongation) |
- |
0 |
|
- |
5,3.1,
Table 2,vi) a)
Type I / II / III / IV / V /
VI
Annex C(Tear resistance) |
- |
0 |
|
- |
5,3.1,
Table 2,vii)
Type I / II / III / IV / V /
VI
Annex D(Puncture resistanc) |
- |
0 |
|
- |
5,3.1,
Table 2,viii)
Type I / II / III / IV / V /
VI
Annex E(Low temperature crack resistance at minus 30°C±1°C) |
- |
0 |
|
- |
5,3.1,
Table 2,iX)
Type I / II / III / IV / V /
VI
Annex F(Hydrostatic resistance) |
- |
0 |
|
- |
5,3.1,
Table 2,x)
Type I / II / III / IV / V /
VI
Annex G(Seam strength :
85 percent of the
original actual
fabric strength
or unbreakable
seam) |
- |
0 |
|
- |
5,3.1,
Table 2,xii)
Type I / II / III / IV / V /
VI
IS 2530(Carbon black dispersion) |
- |
0 |
|
- |
5,3.1,
Table 2,xv)
Type I / II / III / IV / V /
VI
Annex H(Retention of breaking strength after UV exposure of 144 h :
85 percent of the
original actual
fabric strength) |
- |
0 |
|
- |
6(DIMENSIONS AND TOLERANCES
The dimensions of HDPE geomembrane when tested by the method given in IS 7016 (Part 1) shall be as agreed to between the buyer and the seller. However, the minimum width of the HDPE geomembrane shall be 5000 mm. A combination of panel width may be used to obtain desired width of geomembrane. Narrow width panels not less than 1000 mm in width may also be used but such pieces shall not exceed 1 piece per roll of finished material of specified width.) |
- |
0 |
|
- |
7, 7.1
Annex M(COLOUR, SURFACE CHARACTERISTICS AND FREEDOM FROM DEFECTS:
) |
- |
0 |
|
- |
7, 7.2(COLOUR, SURFACE CHARACTERISTICS
AND FREEDOM FROM DEFECTS) |
- |
0 |
|
- |
5,3.1,
Table1,x)
Type I / II / III / IV / V /
VI / VII
IS 2530(Carbon black content) |
- |
0 |
|
- |
5,3.1,
Table 2,xi)
Type I / II / III / IV / V /
VI
IS 2530(Carbon black content) |
- |
0 |
|
- |
5,3.1,
Table2,iii)
Type I / II / III / IV / V /
VI
Annex K(Lowest individual of 10 thickness value) |
- |
0 |
|
- |
5,3.1,
Table2,iv)
Type I / II / III / IV / V /
VI
Annex L(Average asperity height) |
- |
0 |
|
- |
5,3.1,
Table 2,v) d)
Type I / II / III / IV / V /
VI
Annex B(Tensile properties:
Breaking elongation) |
- |
0 |
|
- |
5,3.1,
Table1,xv)
Type I / II / III / IV / V /
VI / VII
Annex J(Stress crack resistance) |
- |
0 |
|
- |
5,3.1,
Table 2,xvi)
Type I / II / III / IV / V /
VI
Annex J(Stress crack resistance) |
- |
0 |
|
- |
5,3.1,
Table1,iv) d)
Type I / II / III / IV / V /
VI / VII
Annex B(Tensile properties:
Breaking elongation) |
- |
0 |
|
- |
5,3.1,
Table1,xii)
Type I / II / III / IV / V /
VI / VII
ISO 11357 (Part 6)
or ASTM D 5885(Oxidative induction time (OIT) :
a) Standard OIT
or
b) High pressure OIT) |
- |
0 |
|
- |
5,3.1,
Table 2,xiii)
Type I / II / III / IV / V /
VI
ISO 11357 (Part 6)
or ASTM D 5885(Oxidative induction time (OIT) :
a) Standard OIT
or
b) High pressure OIT) |
- |
0 |
|
- |
5,3.1,
Table1,xiii)
Type I / II / III / IV / V /
VI / VII
Oven method of
IS 7016 (Part 8),
ISO 11357-6 and
ASTM D 5885(Oven ageing at 85°C, Retention of
oxidative induction time (OIT) after
90 days :
a) Standard OIT
or
b) High pressure OIT) |
- |
0 |
|
- |
5,3.1,
Table 2,xiv)
Type I / II / III / IV / V /
VI
Oven method of
IS 7016 (Part 8),
ISO 11357-6 and
ASTM D 5885(Oven ageing at 85°C, Retention of
oxidative induction time (OIT) after
90 days :
a) Standard OIT
or
b) High pressure OIT) |
- |
0 |
|
- |
3, 3.1(MATERIAL AND MANUFACTURE) |
- |
0 |
|
- |
3, 3.2(MATERIAL AND MANUFACTURE
If two or more pieces of geomembranes are used,
the material shall be joined together by a suitable heat
sealing process keeping an overlap of at least 2.5 cm. ) |
- |
0 |
|
- |
4, 4.1(VARIETY AND TYPES :
Based on the finish, HDPE geomembrane shall be
of following varieties) |
- |
0 |
|
- |
4.2,4.2.1(Based on the thickness of HDPE geomembrane, the material shall be classified as under) |
- |
0 |
|
- |
4.2,4.2.2(Based on the thickness of HDPE geomembrane, the material shall be classified as under) |
- |
0 |
|
- |
5(REQUIREMENTS) |
- |
0 |
|
- |
5,3.1,
Table 1(Requirements of Smooth HDPE Geomembrane) |
- |
0 |
|
- |
5,3.1,
Table1,i) a)
Type I / II / III / IV / V /
VI / VII
IS 7016 (Part 1)(Length) |
- |
0 |
|
- |
5,3.1,
Table1,i) b)
Type I / II / III / IV / V /
VI / VII
IS 7016 (Part 1)(width) |
- |
0 |
|
- |
5,3.1,
Table1,ii)
Type I / II / III / IV / V /
VI / VII
Method A of
IS 13162 (Part 3)(Average thickness at a pressure of 2 ± 0.01 kPa) |
- |
0 |
|
- |
5,3.1,
Table1,iv) a)
Type I / II / III / IV / V /
VI / VII
Annex B(Tensile properties:
Yield strength,) |
- |
0 |
|
- |
5,3.1,
Table1,iv) b)
Type I / II / III / IV / V /
VI / VII
Annex B(Tensile properties:
Breaking strength,) |
- |
0 |
|
- |
5,3.1,
Table1,iv) c)
Type I / II / III / IV / V /
VI / VII
Annex B(Tensile properties:
Yield elongation) |
- |
0 |
|
- |
5,3.1,
Table1,v)
Type I / II / III / IV / V /
VI / VII
Annex C(Tear resistance) |
- |
0 |
|
- |
5,3.1,
Table1,vi)
Type I / II / III / IV / V /
VI / VII
Annex D(Puncture resistanc) |
- |
0 |
|
- |
5,3.1,
Table1,vii)
Type I / II / III / IV / V /
VI / VII
Annex E(Low temperature crack resistance at minus 30°C±1°C) |
- |
0 |
|
- |
5,3.1,
Table1,viii)
Type I / II / III / IV / V /
VI / VII
Annex F(Hydrostatic resistance) |
- |
0 |
|
- |
5,3.1,
Table1,ix)
Type I / II / III / IV / V /
VI / VII
Annex G(Seam strength :
85 percent of the
original actual
fabric strength
or unbreakable
seam) |
- |
0 |
|
- |
5,3.1,
Table1,xi)
Type I / II / III / IV / V /
VI / VII
IS 2530(Carbon black dispersion) |
- |
0 |
|
- |
5,3.1,
Table1,xiv)
Type I / II / III / IV / V /
VI / VII
Annex H(Retention of breaking strength after UV exposure of 144 h :
85 percent of the
original actual
fabric strength) |
- |
0 |
|
- |
5,3.1,
Table 2(Requirements of Textured (Single or Double Sided) HDPE Geomembrane) |
- |
0 |
|
- |
5,3.1,
Table2,i) a)
Type I / II / III / IV / V /
VI
IS 7016 (Part 1)(Length) |
- |
0 |
|
- |
5,3.1,
Table 2,i) b)
Type I / II / III / IV / V /
VI
IS 7016 (Part 1)(width) |
- |
0 |
|
- |
5,3.1,
Table2,ii)
Type I / II / III / IV / V /
VI
Annex K(Average core thickness) |
- |
0 |
|
- |
5,3.1,
Table 2,v) a)
Type I / II / III / IV / V /
VI
Annex B(Tensile properties:
Yield strength,) |
- |
0 |
|
- |
5,3.1,
Table 2,v) b)
Type I / II / III / IV / V /
VI
Annex B(Tensile properties:
Breaking strength,) |
- |
0 |
|
- |
5,3.1,
Table 2,v) c)
Type I / II / III / IV / V /
VI
Annex B(Tensile properties:
Yield elongation) |
- |
0 |
|
- |
5,3.1,
Table 2,vi) a)
Type I / II / III / IV / V /
VI
Annex C(Tear resistance) |
- |
0 |
|
- |
5,3.1,
Table 2,vii)
Type I / II / III / IV / V /
VI
Annex D(Puncture resistanc) |
- |
0 |
|
- |
5,3.1,
Table 2,viii)
Type I / II / III / IV / V /
VI
Annex E(Low temperature crack resistance at minus 30°C±1°C) |
- |
0 |
|
- |
5,3.1,
Table 2,iX)
Type I / II / III / IV / V /
VI
Annex F(Hydrostatic resistance) |
- |
0 |
|
- |
5,3.1,
Table 2,x)
Type I / II / III / IV / V /
VI
Annex G(Seam strength :
85 percent of the
original actual
fabric strength
or unbreakable
seam) |
- |
0 |
|
- |
5,3.1,
Table 2,xii)
Type I / II / III / IV / V /
VI
IS 2530(Carbon black dispersion) |
- |
0 |
|
- |
5,3.1,
Table 2,xv)
Type I / II / III / IV / V /
VI
Annex H(Retention of breaking strength after UV exposure of 144 h :
85 percent of the
original actual
fabric strength) |
- |
0 |
|
- |
6(DIMENSIONS AND TOLERANCES
The dimensions of HDPE geomembrane when tested by the method given in IS 7016 (Part 1) shall be as agreed to between the buyer and the seller. However, the minimum width of the HDPE geomembrane shall be 5000 mm. A combination of panel width may be used to obtain desired width of geomembrane. Narrow width panels not less than 1000 mm in width may also be used but such pieces shall not exceed 1 piece per roll of finished material of specified width.) |
- |
0 |
|
- |
7, 7.1
Annex M(COLOUR, SURFACE CHARACTERISTICS AND FREEDOM FROM DEFECTS:
) |
- |
0 |
|
- |
7, 7.2(COLOUR, SURFACE CHARACTERISTICS
AND FREEDOM FROM DEFECTS) |
- |
0 |
|
- |
5,3.1,
Table1,iii)
Type I / II / III / IV / V /
VI / VII
Method A of
IS 13162 (Part 3)(Lowest individual of 10 thickness value) |
- |
0 |
|
- |
5,3.1,
Table1,x)
Type I / II / III / IV / V /
VI / VII
IS 2530(Carbon black content) |
- |
0 |
|
- |
5,3.1,
Table 2,xi)
Type I / II / III / IV / V /
VI
IS 2530(Carbon black content) |
- |
0 |
|
- |
5,3.1,
Table2,iii)
Type I / II / III / IV / V /
VI
Annex K(Lowest individual of 10 thickness value) |
- |
0 |
|
- |
5,3.1,
Table1,iii)
Type I / II / III / IV / V /
VI / VII
Method A of
IS 13162 (Part 3)(Lowest individual of 10 thickness value) |
- |
0 |
|
- |
5,3.1,
Table2,iv)
Type I / II / III / IV / V /
VI
Annex L(Average asperity height) |
- |
0 |
|
- |
5,3.1,
Table 2,v) d)
Type I / II / III / IV / V /
VI
Annex B(Tensile properties:
Breaking elongation) |
- |
0 |
|
- |
5,3.1,
Table1,xv)
Type I / II / III / IV / V /
VI / VII
Annex J(Stress crack resistance) |
- |
0 |
|
- |
5,3.1,
Table 2,xvi)
Type I / II / III / IV / V /
VI
Annex J(Stress crack resistance) |
- |
0 |
|
- |
5,3.1,
Table1,iv) d)
Type I / II / III / IV / V /
VI / VII
Annex B(Tensile properties:
Breaking elongation) |
- |
0 |
|
- |
5,3.1,
Table1,xii)
Type I / II / III / IV / V /
VI / VII
ISO 11357 (Part 6)
or ASTM D 5885(Oxidative induction time (OIT) :
a) Standard OIT
or
b) High pressure OIT) |
- |
0 |
|
- |
5,3.1,
Table 2,xiii)
Type I / II / III / IV / V /
VI
ISO 11357 (Part 6)
or ASTM D 5885(Oxidative induction time (OIT) :
a) Standard OIT
or
b) High pressure OIT) |
- |
0 |
|
- |
5,3.1,
Table1,xiii)
Type I / II / III / IV / V /
VI / VII
Oven method of
IS 7016 (Part 8),
ISO 11357-6 and
ASTM D 5885(Oven ageing at 85°C, Retention of
oxidative induction time (OIT) after
90 days :
a) Standard OIT
or
b) High pressure OIT) |
- |
0 |
|
- |
5,3.1,
Table 2,xiv)
Type I / II / III / IV / V /
VI
Oven method of
IS 7016 (Part 8),
ISO 11357-6 and
ASTM D 5885(Oven ageing at 85°C, Retention of
oxidative induction time (OIT) after
90 days :
a) Standard OIT
or
b) High pressure OIT) |
- |
0 |
|
- |
3, 3.1(MATERIAL AND MANUFACTURE) |
- |
0 |
|
- |
3, 3.2(MATERIAL AND MANUFACTURE
If two or more pieces of geomembranes are used,
the material shall be joined together by a suitable heat
sealing process keeping an overlap of at least 2.5 cm. ) |
- |
0 |
|
- |
4, 4.1(VARIETY AND TYPES :
Based on the finish, HDPE geomembrane shall be
of following varieties) |
- |
0 |
|
- |
4.2,4.2.1(Based on the thickness of HDPE geomembrane, the material shall be classified as under) |
- |
0 |
|
- |
4.2,4.2.2(Based on the thickness of HDPE geomembrane, the material shall be classified as under) |
- |
0 |
|
- |
5(REQUIREMENTS) |
- |
0 |
|
- |
5,3.1,
Table 1(Requirements of Smooth HDPE Geomembrane) |
- |
0 |
|
- |
5,3.1,
Table1,i) a)
Type I / II / III / IV / V /
VI / VII
IS 7016 (Part 1)(Length) |
- |
0 |
|
- |
5,3.1,
Table1,i) b)
Type I / II / III / IV / V /
VI / VII
IS 7016 (Part 1)(width) |
- |
0 |
|
- |
5,3.1,
Table1,ii)
Type I / II / III / IV / V /
VI / VII
Method A of
IS 13162 (Part 3)(Average thickness at a pressure of 2 ± 0.01 kPa) |
- |
0 |
|
- |
5,3.1,
Table1,iv) a)
Type I / II / III / IV / V /
VI / VII
Annex B(Tensile properties:
Yield strength,) |
- |
0 |
|
- |
5,3.1,
Table1,iv) b)
Type I / II / III / IV / V /
VI / VII
Annex B(Tensile properties:
Breaking strength,) |
- |
0 |
|
- |
5,3.1,
Table1,iv) c)
Type I / II / III / IV / V /
VI / VII
Annex B(Tensile properties:
Yield elongation) |
- |
0 |
|
- |
5,3.1,
Table1,v)
Type I / II / III / IV / V /
VI / VII
Annex C(Tear resistance) |
- |
0 |
|
- |
5,3.1,
Table1,vi)
Type I / II / III / IV / V /
VI / VII
Annex D(Puncture resistanc) |
- |
0 |
|
- |
5,3.1,
Table1,vii)
Type I / II / III / IV / V /
VI / VII
Annex E(Low temperature crack resistance at minus 30°C±1°C) |
- |
0 |
|
- |
5,3.1,
Table1,viii)
Type I / II / III / IV / V /
VI / VII
Annex F(Hydrostatic resistance) |
- |
0 |
|
- |
5,3.1,
Table1,ix)
Type I / II / III / IV / V /
VI / VII
Annex G(Seam strength :
85 percent of the
original actual
fabric strength
or unbreakable
seam) |
- |
0 |
|
- |
5,3.1,
Table1,xi)
Type I / II / III / IV / V /
VI / VII
IS 2530(Carbon black dispersion) |
- |
0 |
|
- |
5,3.1,
Table1,xiv)
Type I / II / III / IV / V /
VI / VII
Annex H(Retention of breaking strength after UV exposure of 144 h :
85 percent of the
original actual
fabric strength) |
- |
0 |
|
- |
5,3.1,
Table 2(Requirements of Textured (Single or Double Sided) HDPE Geomembrane) |
- |
0 |
|
- |
5,3.1,
Table2,i) a)
Type I / II / III / IV / V /
VI
IS 7016 (Part 1)(Length) |
- |
0 |
|
- |
5,3.1,
Table 2,i) b)
Type I / II / III / IV / V /
VI
IS 7016 (Part 1)(width) |
- |
0 |
|
- |
5,3.1,
Table2,ii)
Type I / II / III / IV / V /
VI
Annex K(Average core thickness) |
- |
0 |
|
- |
5,3.1,
Table 2,v) a)
Type I / II / III / IV / V /
VI
Annex B(Tensile properties:
Yield strength,) |
- |
0 |
|
- |
5,3.1,
Table 2,v) b)
Type I / II / III / IV / V /
VI
Annex B(Tensile properties:
Breaking strength,) |
- |
0 |
|
- |
5,3.1,
Table 2,v) c)
Type I / II / III / IV / V /
VI
Annex B(Tensile properties:
Yield elongation) |
- |
0 |
|
- |
5,3.1,
Table 2,vi) a)
Type I / II / III / IV / V /
VI
Annex C(Tear resistance) |
- |
0 |
|
- |
5,3.1,
Table 2,vii)
Type I / II / III / IV / V /
VI
Annex D(Puncture resistanc) |
- |
0 |
|
- |
5,3.1,
Table 2,viii)
Type I / II / III / IV / V /
VI
Annex E(Low temperature crack resistance at minus 30°C±1°C) |
- |
0 |
|
- |
5,3.1,
Table 2,iX)
Type I / II / III / IV / V /
VI
Annex F(Hydrostatic resistance) |
- |
0 |
|
- |
5,3.1,
Table 2,x)
Type I / II / III / IV / V /
VI
Annex G(Seam strength :
85 percent of the
original actual
fabric strength
or unbreakable
seam) |
- |
0 |
|
- |
5,3.1,
Table 2,xii)
Type I / II / III / IV / V /
VI
IS 2530(Carbon black dispersion) |
- |
0 |
|
- |
5,3.1,
Table 2,xv)
Type I / II / III / IV / V /
VI
Annex H(Retention of breaking strength after UV exposure of 144 h :
85 percent of the
original actual
fabric strength) |
- |
0 |
|
- |
6(DIMENSIONS AND TOLERANCES
The dimensions of HDPE geomembrane when tested by the method given in IS 7016 (Part 1) shall be as agreed to between the buyer and the seller. However, the minimum width of the HDPE geomembrane shall be 5000 mm. A combination of panel width may be used to obtain desired width of geomembrane. Narrow width panels not less than 1000 mm in width may also be used but such pieces shall not exceed 1 piece per roll of finished material of specified width.) |
- |
0 |
|
- |
7, 7.1
Annex M(COLOUR, SURFACE CHARACTERISTICS AND FREEDOM FROM DEFECTS:
) |
- |
0 |
|
- |
7, 7.2(COLOUR, SURFACE CHARACTERISTICS
AND FREEDOM FROM DEFECTS) |
- |
0 |
|
- |
5,3.1,
Table1,x)
Type I / II / III / IV / V /
VI / VII
IS 2530(Carbon black content) |
- |
0 |
|
- |
5,3.1,
Table 2,xi)
Type I / II / III / IV / V /
VI
IS 2530(Carbon black content) |
- |
0 |
|
- |
5,3.1,
Table2,iii)
Type I / II / III / IV / V /
VI
Annex K(Lowest individual of 10 thickness value) |
- |
0 |
|
- |
5,3.1,
Table1,iii)
Type I / II / III / IV / V /
VI / VII
Method A of
IS 13162 (Part 3)(Lowest individual of 10 thickness value) |
- |
0 |
|
- |
5,3.1,
Table2,iv)
Type I / II / III / IV / V /
VI
Annex L(Average asperity height) |
- |
0 |
|
- |
5,3.1,
Table 2,v) d)
Type I / II / III / IV / V /
VI
Annex B(Tensile properties:
Breaking elongation) |
- |
0 |
|
- |
5,3.1,
Table1,xv)
Type I / II / III / IV / V /
VI / VII
Annex J(Stress crack resistance) |
- |
0 |
|
- |
5,3.1,
Table 2,xvi)
Type I / II / III / IV / V /
VI
Annex J(Stress crack resistance) |
- |
0 |
|
- |
5,3.1,
Table1,iv) d)
Type I / II / III / IV / V /
VI / VII
Annex B(Tensile properties:
Breaking elongation) |
- |
0 |
|
- |
5,3.1,
Table1,xii)
Type I / II / III / IV / V /
VI / VII
ISO 11357 (Part 6)
or ASTM D 5885(Oxidative induction time (OIT) :
a) Standard OIT
or
b) High pressure OIT) |
- |
0 |
|
- |
5,3.1,
Table 2,xiii)
Type I / II / III / IV / V /
VI
ISO 11357 (Part 6)
or ASTM D 5885(Oxidative induction time (OIT) :
a) Standard OIT
or
b) High pressure OIT) |
- |
0 |
|
- |
5,3.1,
Table1,xiii)
Type I / II / III / IV / V /
VI / VII
Oven method of
IS 7016 (Part 8),
ISO 11357-6 and
ASTM D 5885(Oven ageing at 85°C, Retention of
oxidative induction time (OIT) after
90 days :
a) Standard OIT
or
b) High pressure OIT) |
- |
0 |
|
- |
5,3.1,
Table 2,xiv)
Type I / II / III / IV / V /
VI
Oven method of
IS 7016 (Part 8),
ISO 11357-6 and
ASTM D 5885(Oven ageing at 85°C, Retention of
oxidative induction time (OIT) after
90 days :
a) Standard OIT
or
b) High pressure OIT) |
- |
0 |
|
- |
3, 3.1(MATERIAL AND MANUFACTURE) |
- |
0 |
|
- |
3, 3.2(MATERIAL AND MANUFACTURE
If two or more pieces of geomembranes are used,
the material shall be joined together by a suitable heat
sealing process keeping an overlap of at least 2.5 cm. ) |
- |
0 |
|
- |
4, 4.1(VARIETY AND TYPES :
Based on the finish, HDPE geomembrane shall be
of following varieties) |
- |
0 |
|
- |
4.2,4.2.1(Based on the thickness of HDPE geomembrane, the material shall be classified as under) |
- |
0 |
|
- |
4.2,4.2.2(Based on the thickness of HDPE geomembrane, the material shall be classified as under) |
- |
0 |
|
- |
5(REQUIREMENTS) |
- |
0 |
|
- |
5,3.1,
Table 1(Requirements of Smooth HDPE Geomembrane) |
- |
0 |
|
- |
5,3.1,
Table1,i) a)
Type I / II / III / IV / V /
VI / VII
IS 7016 (Part 1)(Length) |
- |
0 |
|
- |
5,3.1,
Table1,i) b)
Type I / II / III / IV / V /
VI / VII
IS 7016 (Part 1)(width) |
- |
0 |
|
- |
5,3.1,
Table1,ii)
Type I / II / III / IV / V /
VI / VII
Method A of
IS 13162 (Part 3)(Average thickness at a pressure of 2 ± 0.01 kPa) |
- |
0 |
|
- |
5,3.1,
Table1,iv) a)
Type I / II / III / IV / V /
VI / VII
Annex B(Tensile properties:
Yield strength,) |
- |
0 |
|
- |
5,3.1,
Table1,iv) b)
Type I / II / III / IV / V /
VI / VII
Annex B(Tensile properties:
Breaking strength,) |
- |
0 |
|
- |
5,3.1,
Table1,iv) c)
Type I / II / III / IV / V /
VI / VII
Annex B(Tensile properties:
Yield elongation) |
- |
0 |
|
- |
5,3.1,
Table1,v)
Type I / II / III / IV / V /
VI / VII
Annex C(Tear resistance) |
- |
0 |
|
- |
5,3.1,
Table1,vi)
Type I / II / III / IV / V /
VI / VII
Annex D(Puncture resistanc) |
- |
0 |
|
- |
5,3.1,
Table1,vii)
Type I / II / III / IV / V /
VI / VII
Annex E(Low temperature crack resistance at minus 30°C±1°C) |
- |
0 |
|
- |
5,3.1,
Table1,viii)
Type I / II / III / IV / V /
VI / VII
Annex F(Hydrostatic resistance) |
- |
0 |
|
- |
5,3.1,
Table1,ix)
Type I / II / III / IV / V /
VI / VII
Annex G(Seam strength :
85 percent of the
original actual
fabric strength
or unbreakable
seam) |
- |
0 |
|
- |
5,3.1,
Table1,xi)
Type I / II / III / IV / V /
VI / VII
IS 2530(Carbon black dispersion) |
- |
0 |
|
- |
5,3.1,
Table1,xiv)
Type I / II / III / IV / V /
VI / VII
Annex H(Retention of breaking strength after UV exposure of 144 h :
85 percent of the
original actual
fabric strength) |
- |
0 |
|
- |
5,3.1,
Table 2(Requirements of Textured (Single or Double Sided) HDPE Geomembrane) |
- |
0 |
|
- |
5,3.1,
Table2,i) a)
Type I / II / III / IV / V /
VI
IS 7016 (Part 1)(Length) |
- |
0 |
|
- |
5,3.1,
Table 2,i) b)
Type I / II / III / IV / V /
VI
IS 7016 (Part 1)(width) |
- |
0 |
|
- |
5,3.1,
Table2,ii)
Type I / II / III / IV / V /
VI
Annex K(Average core thickness) |
- |
0 |
|
- |
5,3.1,
Table 2,v) a)
Type I / II / III / IV / V /
VI
Annex B(Tensile properties:
Yield strength,) |
- |
0 |
|
- |
5,3.1,
Table 2,v) b)
Type I / II / III / IV / V /
VI
Annex B(Tensile properties:
Breaking strength,) |
- |
0 |
|
- |
5,3.1,
Table 2,v) c)
Type I / II / III / IV / V /
VI
Annex B(Tensile properties:
Yield elongation) |
- |
0 |
|
- |
5,3.1,
Table 2,vi) a)
Type I / II / III / IV / V /
VI
Annex C(Tear resistance) |
- |
0 |
|
- |
5,3.1,
Table 2,vii)
Type I / II / III / IV / V /
VI
Annex D(Puncture resistanc) |
- |
0 |
|
- |
5,3.1,
Table 2,viii)
Type I / II / III / IV / V /
VI
Annex E(Low temperature crack resistance at minus 30°C±1°C) |
- |
0 |
|
- |
5,3.1,
Table 2,iX)
Type I / II / III / IV / V /
VI
Annex F(Hydrostatic resistance) |
- |
0 |
|
- |
5,3.1,
Table 2,x)
Type I / II / III / IV / V /
VI
Annex G(Seam strength :
85 percent of the
original actual
fabric strength
or unbreakable
seam) |
- |
0 |
|
- |
5,3.1,
Table 2,xii)
Type I / II / III / IV / V /
VI
IS 2530(Carbon black dispersion) |
- |
0 |
|
- |
5,3.1,
Table 2,xv)
Type I / II / III / IV / V /
VI
Annex H(Retention of breaking strength after UV exposure of 144 h :
85 percent of the
original actual
fabric strength) |
- |
0 |
|
- |
6(DIMENSIONS AND TOLERANCES
The dimensions of HDPE geomembrane when tested by the method given in IS 7016 (Part 1) shall be as agreed to between the buyer and the seller. However, the minimum width of the HDPE geomembrane shall be 5000 mm. A combination of panel width may be used to obtain desired width of geomembrane. Narrow width panels not less than 1000 mm in width may also be used but such pieces shall not exceed 1 piece per roll of finished material of specified width.) |
- |
0 |
|
- |
7, 7.1
Annex M(COLOUR, SURFACE CHARACTERISTICS AND FREEDOM FROM DEFECTS:
) |
- |
0 |
|
- |
7, 7.2(COLOUR, SURFACE CHARACTERISTICS
AND FREEDOM FROM DEFECTS) |
- |
0 |
|
- |
5,3.1,
Table1,x)
Type I / II / III / IV / V /
VI / VII
IS 2530(Carbon black content) |
- |
0 |
|
- |
5,3.1,
Table 2,xi)
Type I / II / III / IV / V /
VI
IS 2530(Carbon black content) |
- |
0 |
|
- |
5,3.1,
Table2,iii)
Type I / II / III / IV / V /
VI
Annex K(Lowest individual of 10 thickness value) |
- |
0 |
|
- |
5,3.1,
Table1,iii)
Type I / II / III / IV / V /
VI / VII
Method A of
IS 13162 (Part 3)(Lowest individual of 10 thickness value) |
- |
0 |
|
- |
5,3.1,
Table2,iv)
Type I / II / III / IV / V /
VI
Annex L(Average asperity height) |
- |
0 |
|
- |
5,3.1,
Table 2,v) d)
Type I / II / III / IV / V /
VI
Annex B(Tensile properties:
Breaking elongation) |
- |
0 |
|
- |
5,3.1,
Table1,xv)
Type I / II / III / IV / V /
VI / VII
Annex J(Stress crack resistance) |
- |
0 |
|
- |
5,3.1,
Table 2,xvi)
Type I / II / III / IV / V /
VI
Annex J(Stress crack resistance) |
- |
0 |
|
- |
5,3.1,
Table1,iv) d)
Type I / II / III / IV / V /
VI / VII
Annex B(Tensile properties:
Breaking elongation) |
- |
0 |
|
- |
5,3.1,
Table1,xii)
Type I / II / III / IV / V /
VI / VII
ISO 11357 (Part 6)
or ASTM D 5885(Oxidative induction time (OIT) :
a) Standard OIT
or
b) High pressure OIT) |
- |
0 |
|
- |
5,3.1,
Table 2,xiii)
Type I / II / III / IV / V /
VI
ISO 11357 (Part 6)
or ASTM D 5885(Oxidative induction time (OIT) :
a) Standard OIT
or
b) High pressure OIT) |
- |
0 |
|
- |
5,3.1,
Table1,xiii)
Type I / II / III / IV / V /
VI / VII
Oven method of
IS 7016 (Part 8),
ISO 11357-6 and
ASTM D 5885(Oven ageing at 85°C, Retention of
oxidative induction time (OIT) after
90 days :
a) Standard OIT
or
b) High pressure OIT) |
- |
0 |
|
- |
5,3.1,
Table 2,xiv)
Type I / II / III / IV / V /
VI
Oven method of
IS 7016 (Part 8),
ISO 11357-6 and
ASTM D 5885(Oven ageing at 85°C, Retention of
oxidative induction time (OIT) after
90 days :
a) Standard OIT
or
b) High pressure OIT) |
- |
0 |
|
- |
3, 3.1(MATERIAL AND MANUFACTURE) |
- |
0 |
|
- |
3, 3.2(MATERIAL AND MANUFACTURE
If two or more pieces of geomembranes are used,
the material shall be joined together by a suitable heat
sealing process keeping an overlap of at least 2.5 cm. ) |
- |
0 |
|
- |
4, 4.1(VARIETY AND TYPES :
Based on the finish, HDPE geomembrane shall be
of following varieties) |
- |
0 |
|
- |
4.2,4.2.1(Based on the thickness of HDPE geomembrane, the material shall be classified as under) |
- |
0 |
|
- |
4.2,4.2.2(Based on the thickness of HDPE geomembrane, the material shall be classified as under) |
- |
0 |
|
- |
5(REQUIREMENTS) |
- |
0 |
|
- |
5,3.1,
Table 1(Requirements of Smooth HDPE Geomembrane) |
- |
0 |
|
- |
5,3.1,
Table1,i) a)
Type I / II / III / IV / V /
VI / VII
IS 7016 (Part 1)(Length) |
- |
0 |
|
- |
5,3.1,
Table1,i) b)
Type I / II / III / IV / V /
VI / VII
IS 7016 (Part 1)(width) |
- |
0 |
|
- |
5,3.1,
Table1,ii)
Type I / II / III / IV / V /
VI / VII
Method A of
IS 13162 (Part 3)(Average thickness at a pressure of 2 ± 0.01 kPa) |
- |
0 |
|
- |
5,3.1,
Table1,iv) a)
Type I / II / III / IV / V /
VI / VII
Annex B(Tensile properties:
Yield strength,) |
- |
0 |
|
- |
5,3.1,
Table1,iv) b)
Type I / II / III / IV / V /
VI / VII
Annex B(Tensile properties:
Breaking strength,) |
- |
0 |
|
- |
5,3.1,
Table1,iv) c)
Type I / II / III / IV / V /
VI / VII
Annex B(Tensile properties:
Yield elongation) |
- |
0 |
|
- |
5,3.1,
Table1,v)
Type I / II / III / IV / V /
VI / VII
Annex C(Tear resistance) |
- |
0 |
|
- |
5,3.1,
Table1,vi)
Type I / II / III / IV / V /
VI / VII
Annex D(Puncture resistanc) |
- |
0 |
|
- |
5,3.1,
Table1,vii)
Type I / II / III / IV / V /
VI / VII
Annex E(Low temperature crack resistance at minus 30°C±1°C) |
- |
0 |
|
- |
5,3.1,
Table1,viii)
Type I / II / III / IV / V /
VI / VII
Annex F(Hydrostatic resistance) |
- |
0 |
|
- |
5,3.1,
Table1,ix)
Type I / II / III / IV / V /
VI / VII
Annex G(Seam strength :
85 percent of the
original actual
fabric strength
or unbreakable
seam) |
- |
0 |
|
- |
5,3.1,
Table1,xi)
Type I / II / III / IV / V /
VI / VII
IS 2530(Carbon black dispersion) |
- |
0 |
|
- |
5,3.1,
Table1,xiv)
Type I / II / III / IV / V /
VI / VII
Annex H(Retention of breaking strength after UV exposure of 144 h :
85 percent of the
original actual
fabric strength) |
- |
0 |
|
- |
5,3.1,
Table 2(Requirements of Textured (Single or Double Sided) HDPE Geomembrane) |
- |
0 |
|
- |
5,3.1,
Table2,i) a)
Type I / II / III / IV / V /
VI
IS 7016 (Part 1)(Length) |
- |
0 |
|
- |
5,3.1,
Table 2,i) b)
Type I / II / III / IV / V /
VI
IS 7016 (Part 1)(width) |
- |
0 |
|
- |
5,3.1,
Table2,ii)
Type I / II / III / IV / V /
VI
Annex K(Average core thickness) |
- |
0 |
|
- |
5,3.1,
Table 2,v) a)
Type I / II / III / IV / V /
VI
Annex B(Tensile properties:
Yield strength,) |
- |
0 |
|
- |
5,3.1,
Table 2,v) b)
Type I / II / III / IV / V /
VI
Annex B(Tensile properties:
Breaking strength,) |
- |
0 |
|
- |
5,3.1,
Table 2,v) c)
Type I / II / III / IV / V /
VI
Annex B(Tensile properties:
Yield elongation) |
- |
0 |
|
- |
5,3.1,
Table 2,vi) a)
Type I / II / III / IV / V /
VI
Annex C(Tear resistance) |
- |
0 |
|
- |
5,3.1,
Table 2,vii)
Type I / II / III / IV / V /
VI
Annex D(Puncture resistanc) |
- |
0 |
|
- |
5,3.1,
Table 2,viii)
Type I / II / III / IV / V /
VI
Annex E(Low temperature crack resistance at minus 30°C±1°C) |
- |
0 |
|
- |
5,3.1,
Table 2,iX)
Type I / II / III / IV / V /
VI
Annex F(Hydrostatic resistance) |
- |
0 |
|
- |
5,3.1,
Table 2,x)
Type I / II / III / IV / V /
VI
Annex G(Seam strength :
85 percent of the
original actual
fabric strength
or unbreakable
seam) |
- |
0 |
|
- |
5,3.1,
Table 2,xii)
Type I / II / III / IV / V /
VI
IS 2530(Carbon black dispersion) |
- |
0 |
|
- |
5,3.1,
Table 2,xv)
Type I / II / III / IV / V /
VI
Annex H(Retention of breaking strength after UV exposure of 144 h :
85 percent of the
original actual
fabric strength) |
- |
0 |
|
- |
6(DIMENSIONS AND TOLERANCES
The dimensions of HDPE geomembrane when tested by the method given in IS 7016 (Part 1) shall be as agreed to between the buyer and the seller. However, the minimum width of the HDPE geomembrane shall be 5000 mm. A combination of panel width may be used to obtain desired width of geomembrane. Narrow width panels not less than 1000 mm in width may also be used but such pieces shall not exceed 1 piece per roll of finished material of specified width.) |
- |
0 |
|
- |
7, 7.1
Annex M(COLOUR, SURFACE CHARACTERISTICS AND FREEDOM FROM DEFECTS:
) |
- |
0 |
|
- |
7, 7.2(COLOUR, SURFACE CHARACTERISTICS
AND FREEDOM FROM DEFECTS) |
- |
0 |
|
- |
5,3.1,
Table1,x)
Type I / II / III / IV / V /
VI / VII
IS 2530(Carbon black content) |
- |
0 |
|
- |
5,3.1,
Table 2,xi)
Type I / II / III / IV / V /
VI
IS 2530(Carbon black content) |
- |
0 |
|
- |
5,3.1,
Table2,iii)
Type I / II / III / IV / V /
VI
Annex K(Lowest individual of 10 thickness value) |
- |
0 |
|
- |
5,3.1,
Table2,iv)
Type I / II / III / IV / V /
VI
Annex L(Average asperity height) |
- |
0 |
|
- |
5,3.1,
Table 2,v) d)
Type I / II / III / IV / V /
VI
Annex B(Tensile properties:
Breaking elongation) |
- |
0 |
|
- |
5,3.1,
Table1,xv)
Type I / II / III / IV / V /
VI / VII
Annex J(Stress crack resistance) |
- |
0 |
|
- |
5,3.1,
Table 2,xvi)
Type I / II / III / IV / V /
VI
Annex J(Stress crack resistance) |
- |
0 |
|
- |
5,3.1,
Table1,iv) d)
Type I / II / III / IV / V /
VI / VII
Annex B(Tensile properties:
Breaking elongation) |
- |
0 |
|
- |
5,3.1,
Table1,xii)
Type I / II / III / IV / V /
VI / VII
ISO 11357 (Part 6)
or ASTM D 5885(Oxidative induction time (OIT) :
a) Standard OIT
or
b) High pressure OIT) |
- |
0 |
|
- |
5,3.1,
Table 2,xiii)
Type I / II / III / IV / V /
VI
ISO 11357 (Part 6)
or ASTM D 5885(Oxidative induction time (OIT) :
a) Standard OIT
or
b) High pressure OIT) |
- |
0 |
|
- |
5,3.1,
Table1,xiii)
Type I / II / III / IV / V /
VI / VII
Oven method of
IS 7016 (Part 8),
ISO 11357-6 and
ASTM D 5885(Oven ageing at 85°C, Retention of
oxidative induction time (OIT) after
90 days :
a) Standard OIT
or
b) High pressure OIT) |
- |
0 |
|
- |
5,3.1,
Table 2,xiv)
Type I / II / III / IV / V /
VI
Oven method of
IS 7016 (Part 8),
ISO 11357-6 and
ASTM D 5885(Oven ageing at 85°C, Retention of
oxidative induction time (OIT) after
90 days :
a) Standard OIT
or
b) High pressure OIT) |
- |
0 |
|
- |
3, 3.1(MATERIAL AND MANUFACTURE) |
- |
0 |
|
- |
3, 3.2(MATERIAL AND MANUFACTURE
If two or more pieces of geomembranes are used,
the material shall be joined together by a suitable heat
sealing process keeping an overlap of at least 2.5 cm. ) |
- |
0 |
|
- |
4, 4.1(VARIETY AND TYPES :
Based on the finish, HDPE geomembrane shall be
of following varieties) |
- |
0 |
|
- |
4.2,4.2.1(Based on the thickness of HDPE geomembrane, the material shall be classified as under) |
- |
0 |
|
- |
4.2,4.2.2(Based on the thickness of HDPE geomembrane, the material shall be classified as under) |
- |
0 |
|
- |
5(REQUIREMENTS) |
- |
0 |
|
- |
5,3.1,
Table 1(Requirements of Smooth HDPE Geomembrane) |
- |
0 |
|
- |
5,3.1,
Table1,i) a)
Type I / II / III / IV / V /
VI / VII
IS 7016 (Part 1)(Length) |
- |
0 |
|
- |
5,3.1,
Table1,i) b)
Type I / II / III / IV / V /
VI / VII
IS 7016 (Part 1)(width) |
- |
0 |
|
- |
5,3.1,
Table1,ii)
Type I / II / III / IV / V /
VI / VII
Method A of
IS 13162 (Part 3)(Average thickness at a pressure of 2 ± 0.01 kPa) |
- |
0 |
|
- |
5,3.1,
Table1,iv) a)
Type I / II / III / IV / V /
VI / VII
Annex B(Tensile properties:
Yield strength,) |
- |
0 |
|
- |
5,3.1,
Table1,iv) b)
Type I / II / III / IV / V /
VI / VII
Annex B(Tensile properties:
Breaking strength,) |
- |
0 |
|
- |
5,3.1,
Table1,iv) c)
Type I / II / III / IV / V /
VI / VII
Annex B(Tensile properties:
Yield elongation) |
- |
0 |
|
- |
5,3.1,
Table1,v)
Type I / II / III / IV / V /
VI / VII
Annex C(Tear resistance) |
- |
0 |
|
- |
5,3.1,
Table1,vi)
Type I / II / III / IV / V /
VI / VII
Annex D(Puncture resistanc) |
- |
0 |
|
- |
5,3.1,
Table1,vii)
Type I / II / III / IV / V /
VI / VII
Annex E(Low temperature crack resistance at minus 30°C±1°C) |
- |
0 |
|
- |
5,3.1,
Table1,viii)
Type I / II / III / IV / V /
VI / VII
Annex F(Hydrostatic resistance) |
- |
0 |
|
- |
5,3.1,
Table1,ix)
Type I / II / III / IV / V /
VI / VII
Annex G(Seam strength :
85 percent of the
original actual
fabric strength
or unbreakable
seam) |
- |
0 |
|
- |
5,3.1,
Table1,xi)
Type I / II / III / IV / V /
VI / VII
IS 2530(Carbon black dispersion) |
- |
0 |
|
- |
5,3.1,
Table1,xiv)
Type I / II / III / IV / V /
VI / VII
Annex H(Retention of breaking strength after UV exposure of 144 h :
85 percent of the
original actual
fabric strength) |
- |
0 |
|
- |
5,3.1,
Table 2(Requirements of Textured (Single or Double Sided) HDPE Geomembrane) |
- |
0 |
|
- |
5,3.1,
Table2,i) a)
Type I / II / III / IV / V /
VI
IS 7016 (Part 1)(Length) |
- |
0 |
|
- |
5,3.1,
Table 2,i) b)
Type I / II / III / IV / V /
VI
IS 7016 (Part 1)(width) |
- |
0 |
|
- |
5,3.1,
Table2,ii)
Type I / II / III / IV / V /
VI
Annex K(Average core thickness) |
- |
0 |
|
- |
5,3.1,
Table 2,v) a)
Type I / II / III / IV / V /
VI
Annex B(Tensile properties:
Yield strength,) |
- |
0 |
|
- |
5,3.1,
Table 2,v) b)
Type I / II / III / IV / V /
VI
Annex B(Tensile properties:
Breaking strength,) |
- |
0 |
|
- |
5,3.1,
Table 2,v) c)
Type I / II / III / IV / V /
VI
Annex B(Tensile properties:
Yield elongation) |
- |
0 |
|
- |
5,3.1,
Table 2,vi) a)
Type I / II / III / IV / V /
VI
Annex C(Tear resistance) |
- |
0 |
|
- |
5,3.1,
Table 2,vii)
Type I / II / III / IV / V /
VI
Annex D(Puncture resistanc) |
- |
0 |
|
- |
5,3.1,
Table 2,viii)
Type I / II / III / IV / V /
VI
Annex E(Low temperature crack resistance at minus 30°C±1°C) |
- |
0 |
|
- |
5,3.1,
Table 2,iX)
Type I / II / III / IV / V /
VI
Annex F(Hydrostatic resistance) |
- |
0 |
|
- |
5,3.1,
Table 2,x)
Type I / II / III / IV / V /
VI
Annex G(Seam strength :
85 percent of the
original actual
fabric strength
or unbreakable
seam) |
- |
0 |
|
- |
5,3.1,
Table 2,xii)
Type I / II / III / IV / V /
VI
IS 2530(Carbon black dispersion) |
- |
0 |
|
- |
5,3.1,
Table 2,xv)
Type I / II / III / IV / V /
VI
Annex H(Retention of breaking strength after UV exposure of 144 h :
85 percent of the
original actual
fabric strength) |
- |
0 |
|
- |
6(DIMENSIONS AND TOLERANCES
The dimensions of HDPE geomembrane when tested by the method given in IS 7016 (Part 1) shall be as agreed to between the buyer and the seller. However, the minimum width of the HDPE geomembrane shall be 5000 mm. A combination of panel width may be used to obtain desired width of geomembrane. Narrow width panels not less than 1000 mm in width may also be used but such pieces shall not exceed 1 piece per roll of finished material of specified width.) |
- |
0 |
|
- |
7, 7.1
Annex M(COLOUR, SURFACE CHARACTERISTICS AND FREEDOM FROM DEFECTS:
) |
- |
0 |
|
- |
7, 7.2(COLOUR, SURFACE CHARACTERISTICS
AND FREEDOM FROM DEFECTS) |
- |
0 |
|
- |
5,3.1,
Table1,iii)
Type I / II / III / IV / V /
VI / VII
Method A of
IS 13162 (Part 3)(Lowest individual of 10 thickness value) |
- |
0 |
|
- |
|
15 May, 2027 |
- Included w.e.f 02.06.2025 |
18 |
IS 1341 (2018) |
Steel Butt Hinges - Specification (Sixth Revision) |
All Type/Size |
8200 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
3 Tables 2 to 9(Types) |
- |
200 |
|
- |
5.1 Tables 2 to 9 (2)(Size of Hinge) |
- |
200 |
|
- |
5.1 Tables 2 to 9 (3)(Length A) |
- |
200 |
|
- |
5.1 Tables 2 to 9 (4)(Breadth B) |
- |
200 |
|
- |
5.1 Tables 2 to 9 (4)(Breadth B1) |
- |
200 |
|
- |
5.1 Tables 2 to 9 (4)(Breadth B2) |
- |
200 |
|
- |
5.1 Tables 2 to 9 (5)(Thickness of Flap C) |
- |
200 |
|
- |
5.1 Tables 2 to 9 (6)(Diameter of Hinge Pin D) |
- |
200 |
|
- |
5.1 Tables 2 to 9 (7)(Number of Knuckles) |
- |
200 |
|
- |
5.1 Tables 2 to 9 (8)(Number of Screw Holes) |
- |
200 |
|
- |
5.1 Tables 2 to 9 (9)(Holes for Screw No.) |
- |
200 |
|
- |
6.1(General) |
- |
200 |
|
- |
6.1(General) |
- |
200 |
|
- |
6.1(General) |
- |
200 |
|
- |
6.2.1(Knuckles) |
- |
200 |
|
- |
6.3(Pins) |
- |
200 |
|
- |
6.4(Screw Holes) |
- |
200 |
|
- |
6.4.2(Position of Holes) |
- |
200 |
|
- |
6.4.2(X) |
- |
200 |
|
- |
6.4.2(Y) |
- |
200 |
|
- |
6.4.2(Z) |
- |
200 |
|
- |
6.4.2.1(Position of Holes) |
- |
200 |
|
- |
7(Finish) |
- |
200 |
|
- |
TABLE-1 (Clause-4)(TITANIUM) |
- |
400 |
|
- |
TABLE-1 (Clause-4)(VANADIUM) |
- |
400 |
|
- |
TABLE-1 (Clause-4)(NIOBIUM) |
- |
400 |
|
- |
TABLE-1 (Clause-4)(Molybdenum) |
- |
400 |
|
- |
TABLE-1 (Clause-4)(Chromium) |
- |
400 |
|
- |
TABLE-1 (Clause-4)(Nickel) |
- |
400 |
|
- |
TABLE-1 (Clause-4)( ALUMINIUM) |
- |
400 |
|
- |
TABLE-1 (Clause-4)(SILICON) |
- |
400 |
|
- |
TABLE-1 (Clause-4)(NITROGEN) |
- |
1000 |
|
- |
TABLE-1 (Clause-4)(MANGANESE) |
- |
400 |
|
- |
TABLE-1 (Clause-4)(PHOSPHURS) |
- |
400 |
|
- |
TABLE-1 (Clause-4)(SULPHUR) |
- |
400 |
|
- |
TABLE-1 (Clause-4)( CARBON) |
- |
400 |
|
- |
Clause 4 Table 1(Manganese ( Pin)) |
- |
400 |
|
- |
Clause 4 Table 1(Phosphorus ( Pin)) |
- |
400 |
|
- |
Clause 4 Table 1(Sulphur ( Pin)) |
- |
400 |
|
- |
Clause 4 Table 1(Carbon ( Pin)) |
- |
400 |
|
- |
Clause 4 Table 1(Nitrogen ( Flap)) |
- |
1000 |
|
- |
Clause 4 Table 1(Manganese ( Flap)) |
- |
400 |
|
- |
Clause 4 Table 1(Phosphorus ( Flap)) |
- |
400 |
|
- |
Clause 4 Table 1(Sulphur ( Flap)) |
- |
400 |
|
- |
Clause 4 Table 1(Carbon ( Flap)) |
- |
400 |
|
- |
8(Marking) |
- |
200 |
|
- |
Cl 4 & Table 1(Sulphur- IS 228(Part 9)) |
- |
400 |
|
- |
Cl 4 & Table 1(Carbon- IS 228(Part 1)) |
- |
400 |
|
- |
Cl 4 & Table 1(Phosphorous- IS 228(Part 3)) |
- |
400 |
|
- |
Cl 4 & Table 1(Manganese- IS 228(Part 2)) |
- |
400 |
|
- |
Cl 4 & Table 1(Silicon- IS 228(Part 2)) |
- |
400 |
|
- |
Cl 4 & Table 1(Nitrogen -IS 228(Part 19)) |
- |
1000 |
|
- |
|
15 May, 2027 |
- Included w.e.f 08.05.2025 |
19 |
IS 14715 : Part 2 (2016) |
Jute geotextiles Part 2 Control of bank erosion in rivers and waterways – Specification (second revision) |
All type |
6500 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
1(Thickness at 2 kPa- IS 13162 (Part 3)) |
- |
200 |
|
- |
2(Width- IS 1954) |
- |
100 |
|
- |
2(Mass- IS 15891 (Part 1)) |
- |
300 |
|
- |
2(Thickness at 2 kPa-IS 15891 (Part 2)) |
- |
200 |
|
- |
2(Tensile strength MD*CD- IS 15891 (Part 3)) |
- |
1500 |
|
- |
1(Width- IS 1954) |
- |
100 |
|
- |
1(Ends × Picks- IS 1963) |
- |
200 |
|
- |
1(Thickness at 2 kPa- IS 13162 (Part 3)) |
- |
200 |
|
- |
1(Tensile strength in MD × CD,- IS 13162 (Part 5)) |
- |
0 |
|
Tensile and elongation test price is 1500/-. |
1(Elongation at break in MD × CD- IS 13162 (Part 5)) |
- |
0 |
|
Tensile and elongation test price is 1500/-. |
1(Puncture resistance- IS 16078) |
- |
1000 |
|
- |
1(Burst strength- IS 1966 (Part 1)) |
- |
1000 |
|
- |
1(Permittivity at 50 mm constant head- IS 14324) |
- |
1000 |
|
- |
1(Apparent opening size (A. O. S.) , O95- IS 14294) |
- |
500 |
|
- |
1(Apparent opening size (A. O. S.) , O95- IS 14294) |
- |
500 |
|
- |
4, Table 1, (ii)(Construction) |
- |
200 |
|
- |
4, Table 1, (ii)(Weight at 20 percent moisture regain, g/m2 , Min, for Treated Woven Jute Geotextiles) |
- |
300 |
|
- |
4, Table 1, (iii)(Width, cm, for Treated Woven Jute Geotextiles) |
- |
0 |
|
Test price for width test is 100/-. |
4, Table 1, (iv)(Ends x Picks/dm, for Treated Woven Jute Geotextiles) |
- |
0 |
|
Test price for Ends x picks/dm is 200/-. |
4, Table 1, (v)(Thickness at 2kPa, mm, for Treated Woven Jute Geotextiles) |
- |
0 |
|
Test price for thickness measurement is 200/-. |
4, Table 1, (vi)(Tensile Strength in MD x CD, kN/m, for Treated Woven Jute Geotextiles) |
- |
0 |
|
Test price for tensile and elongation test is 1500/-. |
4, Table 1, (vii)(Elongation at break in MD x CD, percent, for Treated Woven Jute Geotextiles) |
- |
0 |
|
Test price for tensile and elongation test is 1500/-. |
4, Table 1, (viii)(Puncture Resistance, kN, Min, for Treated Woven Jute Geotextiles) |
- |
0 |
|
Test price for puncturing test is 1000/-. |
4, Table 1, (ix)(Burst Strength, kPa. Min, for Treated Woven Jute Geotextiles) |
- |
0 |
|
Test price for bursting Strength is 1000/-. |
4, Table 1, (x)(Permittivity at 50 mm constant head, sec –1 , Min, for Treated Woven Jute Geotextiles) |
- |
0 |
|
Test price for permittivity test is 1000/-. |
4, Table 1, (xi)(Apparent opening size (A. O. S.) , O95 , Micron3, for Treated Woven Jute Geotextiles) |
- |
0 |
|
Test price for apparent size is 500/-. |
5(Sampling) |
- |
300 |
|
- |
6(Packaging) |
- |
200 |
|
- |
1(Thickness at 2 kPa- IS 13162 (Part 3)) |
- |
0 |
|
- |
2(Width- IS 1954) |
- |
0 |
|
- |
2(Mass- IS 15891 (Part 1)) |
- |
0 |
|
- |
2(Thickness at 2 kPa-IS 15891 (Part 2)) |
- |
0 |
|
- |
2(Tensile strength MD*CD- IS 15891 (Part 3)) |
- |
0 |
|
- |
1(Width- IS 1954) |
- |
0 |
|
- |
1(Ends × Picks- IS 1963) |
- |
0 |
|
- |
1(Thickness at 2 kPa- IS 13162 (Part 3)) |
- |
0 |
|
- |
1(Tensile strength in MD × CD,- IS 13162 (Part 5)) |
- |
0 |
|
- |
1(Elongation at break in MD × CD- IS 13162 (Part 5)) |
- |
0 |
|
- |
1(Puncture resistance- IS 16078) |
- |
0 |
|
- |
1(Burst strength- IS 1966 (Part 1)) |
- |
0 |
|
- |
1(Permittivity at 50 mm constant head- IS 14324) |
- |
0 |
|
- |
1(Apparent opening size (A. O. S.) , O95- IS 14294) |
- |
0 |
|
- |
1(Apparent opening size (A. O. S.) , O95- IS 14294) |
- |
0 |
|
- |
4, Table 1, (ii)(Construction) |
- |
0 |
|
- |
4, Table 1, (ii)(Weight at 20 percent moisture regain, g/m2 , Min, for Treated Woven Jute Geotextiles) |
- |
0 |
|
- |
4, Table 1, (iii)(Width, cm, for Treated Woven Jute Geotextiles) |
- |
0 |
|
- |
4, Table 1, (iv)(Ends x Picks/dm, for Treated Woven Jute Geotextiles) |
- |
0 |
|
- |
4, Table 1, (v)(Thickness at 2kPa, mm, for Treated Woven Jute Geotextiles) |
- |
0 |
|
- |
4, Table 1, (vi)(Tensile Strength in MD x CD, kN/m, for Treated Woven Jute Geotextiles) |
- |
0 |
|
- |
4, Table 1, (vii)(Elongation at break in MD x CD, percent, for Treated Woven Jute Geotextiles) |
- |
0 |
|
- |
4, Table 1, (viii)(Puncture Resistance, kN, Min, for Treated Woven Jute Geotextiles) |
- |
0 |
|
- |
4, Table 1, (ix)(Burst Strength, kPa. Min, for Treated Woven Jute Geotextiles) |
- |
0 |
|
- |
4, Table 1, (x)(Permittivity at 50 mm constant head, sec –1 , Min, for Treated Woven Jute Geotextiles) |
- |
0 |
|
- |
4, Table 1, (xi)(Apparent opening size (A. O. S.) , O95 , Micron3, for Treated Woven Jute Geotextiles) |
- |
0 |
|
- |
5(Sampling) |
- |
0 |
|
- |
6(Packaging) |
- |
0 |
|
- |
1(Thickness at 2 kPa- IS 13162 (Part 3)) |
- |
0 |
|
- |
2(Width- IS 1954) |
- |
0 |
|
- |
2(Mass- IS 15891 (Part 1)) |
- |
0 |
|
- |
2(Thickness at 2 kPa-IS 15891 (Part 2)) |
- |
0 |
|
- |
2(Tensile strength MD*CD- IS 15891 (Part 3)) |
- |
0 |
|
- |
1(Width- IS 1954) |
- |
0 |
|
- |
1(Ends × Picks- IS 1963) |
- |
0 |
|
- |
1(Thickness at 2 kPa- IS 13162 (Part 3)) |
- |
0 |
|
- |
1(Tensile strength in MD × CD,- IS 13162 (Part 5)) |
- |
0 |
|
- |
1(Elongation at break in MD × CD- IS 13162 (Part 5)) |
- |
0 |
|
- |
1(Puncture resistance- IS 16078) |
- |
0 |
|
- |
1(Burst strength- IS 1966 (Part 1)) |
- |
0 |
|
- |
1(Permittivity at 50 mm constant head- IS 14324) |
- |
0 |
|
- |
1(Apparent opening size (A. O. S.) , O95- IS 14294) |
- |
0 |
|
- |
1(Apparent opening size (A. O. S.) , O95- IS 14294) |
- |
0 |
|
- |
4, Table 1, (ii)(Construction) |
- |
0 |
|
- |
4, Table 1, (ii)(Weight at 20 percent moisture regain, g/m2 , Min, for Treated Woven Jute Geotextiles) |
- |
0 |
|
- |
4, Table 1, (iii)(Width, cm, for Treated Woven Jute Geotextiles) |
- |
0 |
|
- |
4, Table 1, (iv)(Ends x Picks/dm, for Treated Woven Jute Geotextiles) |
- |
0 |
|
- |
4, Table 1, (v)(Thickness at 2kPa, mm, for Treated Woven Jute Geotextiles) |
- |
0 |
|
- |
4, Table 1, (vi)(Tensile Strength in MD x CD, kN/m, for Treated Woven Jute Geotextiles) |
- |
0 |
|
- |
4, Table 1, (vii)(Elongation at break in MD x CD, percent, for Treated Woven Jute Geotextiles) |
- |
0 |
|
- |
4, Table 1, (viii)(Puncture Resistance, kN, Min, for Treated Woven Jute Geotextiles) |
- |
0 |
|
- |
4, Table 1, (ix)(Burst Strength, kPa. Min, for Treated Woven Jute Geotextiles) |
- |
0 |
|
- |
4, Table 1, (x)(Permittivity at 50 mm constant head, sec –1 , Min, for Treated Woven Jute Geotextiles) |
- |
0 |
|
- |
4, Table 1, (xi)(Apparent opening size (A. O. S.) , O95 , Micron3, for Treated Woven Jute Geotextiles) |
- |
0 |
|
- |
5(Sampling) |
- |
0 |
|
- |
6(Packaging) |
- |
0 |
|
- |
|
15 May, 2027 |
- Included w.e.f 02.06.2025 |
20 |
IS 14715 : Part 1 (2016) |
Jute geotextiles Part 1 Strengthening of sub-grade in roads – Specification (second revision) |
All Type |
6500 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
1(Weight at 20% moisture Regain- IS 14716) |
- |
300 |
|
- |
1(Width- IS 1954) |
- |
100 |
|
- |
1(Ends × Picks- IS 1963) |
- |
200 |
|
- |
1(Tensile strength in MD × CD- IS 13162 (Part 5)) |
- |
1500 |
|
- |
1("Elongation at break in MD × CD-
IS 13162 (Part 5)") |
- |
0 |
|
Tensile test and elongation test price is 1500/-. |
1(Puncture resistance- IS 16078) |
- |
1000 |
|
- |
1(Burst strength- IS 1966 (Part 1)) |
- |
1000 |
|
- |
1(Permittivity at 50mm constant head- IS 14324) |
- |
1000 |
|
- |
1(Apparent opening size (A. O. S.) , O95- IS 14294) |
- |
500 |
|
- |
2(Elongation at break MD * CD - IS 15891 (Part 3)) |
- |
0 |
|
Tensile test and elongation test price is 1500/-. |
2(Permittivity at 50 mm constant head- IS 14324) |
- |
0 |
|
Test price for Permittivity test is 1000/-. |
2(Bursting strength- IS 1966 (Part 1)) |
- |
0 |
|
Test price for bursting test is 1000/-. |
2(Apparent opening size (A. O. S.), O95- IS 14294) |
- |
0 |
|
Test price for apparent size is 500/-. |
1(Weight at 20 percent moisture regain- IS 14716) |
- |
0 |
|
Test Price for Weight at 20 % moisture regain is 300/-. |
4, Table 1, (i)(Construction) |
- |
1 |
|
Test price for construction is 200/-. |
4, Table 1, (ii)(Weight at 20 percent moisture regain, g/m2 for Woven Jute Geotextiles) |
- |
0 |
|
Test Price for Weight at 20 % moisture regain is 300/-. |
4, Table 1, (iii)(Width cm, for Woven Jute Geotextiles) |
- |
0 |
|
Test price for width test is 100/-. |
4, Table 1, (iv)(Ends X Picks/ dm, for Woven Jute Geotextiles) |
- |
0 |
|
Test price for Endx picks/dm test is 200/-. |
4, Table 1, (v)(Thickness at 2kPA, mm, for Woven Jute Geotextiles) |
- |
200 |
|
- |
4, Table 1, (vi)(Tensile strength in MD × CD, kN/m, Min, for Woven Jute Geotextiles) |
- |
0 |
|
Test price for tensile test and elongation is 1500/-. |
4, Table 1, (vii)(Elongation at break in MD × CD, for Woven Jute Geotextiles) |
- |
0 |
|
Test price for tensile test and elongation is 1500/-. |
4, Table 1, (viii)(Puncture resistance, kN, Min, for Woven Jute Geotextiles) |
- |
0 |
|
Test price for puncturing test is 1000/-. |
4, Table 1, (ix)(Burst strength, kPa, Min, for Woven Jute Geotextiles) |
- |
0 |
|
Test price for bursting test is 1000/-. |
4, Table 1, (x)(Permittivity at 50mm constant head, sec -1 , Min, for Woven Jute Geotextiles) |
- |
0 |
|
Test price for bursting test is 1000/-. |
4, Table 1, (xi)(Apparent opening size (A. O. S.) , O 95 , Micron, for Woven Jute Geotextiles) |
- |
0 |
|
Test price for apparent size is 500/-. |
4, Table 2, (i)(Width, cm, for Non-Woven Jute Geotextiles) |
- |
0 |
|
Test price for width test is 100/-. |
4, Table 2, (ii)(Mass, g/m2, for Non-Woven Jute Geotextiles) |
- |
0 |
|
Test price for Mass and weight measurement is 300/-. |
4, Table 2, (iii)(Thickness at 2 kPa, mm, for Non-Woven Jute Geotextiles) |
- |
0 |
|
Test price for thickness measurement is 200/-. |
4, Table 2, (iv)(Tensile strength, kN/m, Min, for Non-Woven Jute Geotextiles) |
- |
0 |
|
Test price for tensile test and elongation is 1500/-. |
4, Table 2, (v)(Elongation at break, percent, for Non-Woven Jute Geotextiles) |
- |
0 |
|
Test price for tensile test and elongation is 1500/-. |
4, Table 2, (vi)(Permittivity at 50 mm constant head, sec–1 , Min, for Non-Woven Jute Geotextiles) |
- |
0 |
|
Test price for bursting test is 1000/-. |
4, Table 2, (vii)(Bursting strength, kPa, Min, for Non-Woven Jute Geotextiles) |
- |
0 |
|
Test price for bursting test is 1000/-. |
4, Table 2, (viii)(Apparent opening size (A. O. S.), O 95 , Micron, for Non-Woven Jute Geotextiles) |
- |
0 |
|
Test price for apparent size is 500/-. |
5(Sampling) |
- |
200 |
|
- |
6(Packaging) |
- |
300 |
|
- |
1(Weight at 20% moisture Regain- IS 14716) |
- |
0 |
|
- |
1(Width- IS 1954) |
- |
0 |
|
- |
1(Ends × Picks- IS 1963) |
- |
0 |
|
- |
1(Tensile strength in MD × CD- IS 13162 (Part 5)) |
- |
0 |
|
- |
1("Elongation at break in MD × CD-
IS 13162 (Part 5)") |
- |
0 |
|
- |
1(Puncture resistance- IS 16078) |
- |
0 |
|
- |
1(Burst strength- IS 1966 (Part 1)) |
- |
0 |
|
- |
1(Permittivity at 50mm constant head- IS 14324) |
- |
0 |
|
- |
1(Apparent opening size (A. O. S.) , O95- IS 14294) |
- |
0 |
|
- |
2(Elongation at break MD * CD - IS 15891 (Part 3)) |
- |
0 |
|
- |
2(Permittivity at 50 mm constant head- IS 14324) |
- |
0 |
|
- |
2(Bursting strength- IS 1966 (Part 1)) |
- |
0 |
|
- |
2(Apparent opening size (A. O. S.), O95- IS 14294) |
- |
0 |
|
- |
1(Weight at 20 percent moisture regain- IS 14716) |
- |
0 |
|
- |
4, Table 1, (i)(Construction) |
- |
0 |
|
- |
4, Table 1, (ii)(Weight at 20 percent moisture regain, g/m2 for Woven Jute Geotextiles) |
- |
0 |
|
- |
4, Table 1, (iii)(Width cm, for Woven Jute Geotextiles) |
- |
0 |
|
- |
4, Table 1, (iv)(Ends X Picks/ dm, for Woven Jute Geotextiles) |
- |
0 |
|
- |
4, Table 1, (v)(Thickness at 2kPA, mm, for Woven Jute Geotextiles) |
- |
0 |
|
- |
4, Table 1, (vi)(Tensile strength in MD × CD, kN/m, Min, for Woven Jute Geotextiles) |
- |
0 |
|
- |
4, Table 1, (vii)(Elongation at break in MD × CD, for Woven Jute Geotextiles) |
- |
0 |
|
- |
4, Table 1, (viii)(Puncture resistance, kN, Min, for Woven Jute Geotextiles) |
- |
0 |
|
- |
4, Table 1, (ix)(Burst strength, kPa, Min, for Woven Jute Geotextiles) |
- |
0 |
|
- |
4, Table 1, (x)(Permittivity at 50mm constant head, sec -1 , Min, for Woven Jute Geotextiles) |
- |
0 |
|
- |
4, Table 1, (xi)(Apparent opening size (A. O. S.) , O 95 , Micron, for Woven Jute Geotextiles) |
- |
0 |
|
- |
4, Table 2, (i)(Width, cm, for Non-Woven Jute Geotextiles) |
- |
0 |
|
- |
4, Table 2, (ii)(Mass, g/m2, for Non-Woven Jute Geotextiles) |
- |
0 |
|
- |
4, Table 2, (iii)(Thickness at 2 kPa, mm, for Non-Woven Jute Geotextiles) |
- |
0 |
|
- |
4, Table 2, (iv)(Tensile strength, kN/m, Min, for Non-Woven Jute Geotextiles) |
- |
0 |
|
- |
4, Table 2, (v)(Elongation at break, percent, for Non-Woven Jute Geotextiles) |
- |
0 |
|
- |
4, Table 2, (vi)(Permittivity at 50 mm constant head, sec–1 , Min, for Non-Woven Jute Geotextiles) |
- |
0 |
|
- |
4, Table 2, (vii)(Bursting strength, kPa, Min, for Non-Woven Jute Geotextiles) |
- |
0 |
|
- |
4, Table 2, (viii)(Apparent opening size (A. O. S.), O 95 , Micron, for Non-Woven Jute Geotextiles) |
- |
0 |
|
- |
5(Sampling) |
- |
0 |
|
- |
6(Packaging) |
- |
0 |
|
- |
1(Weight at 20% moisture Regain- IS 14716) |
- |
0 |
|
- |
1(Width- IS 1954) |
- |
0 |
|
- |
1(Ends × Picks- IS 1963) |
- |
0 |
|
- |
1(Tensile strength in MD × CD- IS 13162 (Part 5)) |
- |
0 |
|
- |
1("Elongation at break in MD × CD-
IS 13162 (Part 5)") |
- |
0 |
|
- |
1(Puncture resistance- IS 16078) |
- |
0 |
|
- |
1(Burst strength- IS 1966 (Part 1)) |
- |
0 |
|
- |
1(Permittivity at 50mm constant head- IS 14324) |
- |
0 |
|
- |
1(Apparent opening size (A. O. S.) , O95- IS 14294) |
- |
0 |
|
- |
2(Elongation at break MD * CD - IS 15891 (Part 3)) |
- |
0 |
|
- |
2(Permittivity at 50 mm constant head- IS 14324) |
- |
0 |
|
- |
2(Bursting strength- IS 1966 (Part 1)) |
- |
0 |
|
- |
2(Apparent opening size (A. O. S.), O95- IS 14294) |
- |
0 |
|
- |
1(Weight at 20 percent moisture regain- IS 14716) |
- |
0 |
|
- |
4, Table 1, (i)(Construction) |
- |
0 |
|
- |
4, Table 1, (ii)(Weight at 20 percent moisture regain, g/m2 for Woven Jute Geotextiles) |
- |
0 |
|
- |
4, Table 1, (iii)(Width cm, for Woven Jute Geotextiles) |
- |
0 |
|
- |
4, Table 1, (iv)(Ends X Picks/ dm, for Woven Jute Geotextiles) |
- |
0 |
|
- |
4, Table 1, (v)(Thickness at 2kPA, mm, for Woven Jute Geotextiles) |
- |
0 |
|
- |
4, Table 1, (vi)(Tensile strength in MD × CD, kN/m, Min, for Woven Jute Geotextiles) |
- |
0 |
|
- |
4, Table 1, (vii)(Elongation at break in MD × CD, for Woven Jute Geotextiles) |
- |
0 |
|
- |
4, Table 1, (viii)(Puncture resistance, kN, Min, for Woven Jute Geotextiles) |
- |
0 |
|
- |
4, Table 1, (ix)(Burst strength, kPa, Min, for Woven Jute Geotextiles) |
- |
0 |
|
- |
4, Table 1, (x)(Permittivity at 50mm constant head, sec -1 , Min, for Woven Jute Geotextiles) |
- |
0 |
|
- |
4, Table 1, (xi)(Apparent opening size (A. O. S.) , O 95 , Micron, for Woven Jute Geotextiles) |
- |
0 |
|
- |
4, Table 2, (i)(Width, cm, for Non-Woven Jute Geotextiles) |
- |
0 |
|
- |
4, Table 2, (ii)(Mass, g/m2, for Non-Woven Jute Geotextiles) |
- |
0 |
|
- |
4, Table 2, (iii)(Thickness at 2 kPa, mm, for Non-Woven Jute Geotextiles) |
- |
0 |
|
- |
4, Table 2, (iv)(Tensile strength, kN/m, Min, for Non-Woven Jute Geotextiles) |
- |
0 |
|
- |
4, Table 2, (v)(Elongation at break, percent, for Non-Woven Jute Geotextiles) |
- |
0 |
|
- |
4, Table 2, (vi)(Permittivity at 50 mm constant head, sec–1 , Min, for Non-Woven Jute Geotextiles) |
- |
0 |
|
- |
4, Table 2, (vii)(Bursting strength, kPa, Min, for Non-Woven Jute Geotextiles) |
- |
0 |
|
- |
4, Table 2, (viii)(Apparent opening size (A. O. S.), O 95 , Micron, for Non-Woven Jute Geotextiles) |
- |
0 |
|
- |
5(Sampling) |
- |
0 |
|
- |
6(Packaging) |
- |
0 |
|
- |
|
15 May, 2027 |
- Included w.e.f 02.06.2025 |
21 |
IS 17374 (2020) |
Geosynthetics – Reinforced HDPE membrane for effluents and chemical resistance lining – Specification |
All Type |
220000 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
Clause No. 3.1(Reinforced HDPE Membrane) |
- |
2000 |
|
- |
Clause No. 5.3, Table No. 1, (i)(Thickness (mm)) |
- |
500 |
|
- |
Clause No. 5.3, Table No. 1, (ii)(Mass (g/m2)) |
- |
500 |
|
- |
Clause No. 5.3, Table No. 1, (iii)(Dimensions (length and width)) |
- |
500 |
|
- |
Clause No. 3.1, Table No. 1, (iv)(Carbon black content, percent) |
- |
2000 |
|
- |
Clause No. 3.1, Table No. 1, (v)(Carbon black dispersion) |
- |
2000 |
|
- |
Clause No. 5.3, Table No. 1, (vi)(Breaking load on 20 cm × 10 cm strip before UV exposure, N) |
- |
5000 |
|
- |
Clause No. 5.3, Table No. 1, (vii)(Strain at maximum load, percent) |
- |
2000 |
|
- |
Clause No. 5.3, Table No. 1, (viii)(Retention of breaking load on 20 cm × 10 cm strip after UV exposure of 144 h) |
- |
20000 |
|
- |
Clause No. 5.3, Table No. 1, (ix)(Impact failure load, at 1524 mm drop, Min gram force at 50 percent failure) |
- |
2000 |
|
- |
Clause No. 5.3, Table No. 1, (x)(Tear resistance, N) |
- |
2000 |
|
- |
Clause No. 5.3, Table No. 1, (x)(Tear resistance, N) |
- |
2000 |
|
- |
Clause No. 5.3, Table No. 1, (xi)(Puncture resistance, N) |
- |
2000 |
|
- |
Clause No. 5.3, Table No. 1, (xii)(Bursting strength (Ball burst), N/cm2) |
- |
1000 |
|
- |
Clause No. 5.3, Table No. 1, (xiii)(Seam strength before UV exposure, N/mm) |
- |
1000 |
|
- |
Clause No. 5.3, Table No. 1, (xiv)(Seam strength after UV exposure of 144 h, N/mm) |
- |
20000 |
|
- |
Clause No. 5.3, Table No. 1, (xv)(Hydrostatic resistance before UV exposure, kg/cm2) |
- |
1000 |
|
- |
Clause No. 5.3, Table No. 1, (xvi)(Hydrostatic resistance after UV exposure of 144 h, kg/cm2) |
- |
5000 |
|
- |
Clause No. 5.3, Table No. 1, (xvii)(Low temperature crack resistance at minus 30 °C ± 1°C) |
- |
2000 |
|
- |
Clause No. 5.3, Table No. 1, (xviii)(Oxidative induction time (OIT), minutes, (a) Standard OIT or (b) High Pressure OIT) |
- |
10000 |
|
- |
Clause No. 5.3, Table No. 1, (xix)(Oven ageing at 85°C, Retention of oxidative induction time (OIT) after 90 days, percent, (a) Standard OIT or (b) High Pressure OIT) |
- |
60000 |
|
- |
Clause No. 5.3, Table No. 1, (xx)(Stress crack resistance, h) |
- |
2000 |
|
- |
Clause No. 5.3, Table No. 1, (xxi)(Abrasion resistance) |
- |
1000 |
|
- |
Clause No. 5.3, Table No. 1, (xxii)(Ash content, percent) |
- |
1000 |
|
- |
Clause No. 5.4, Table No. 2, (i)(Change in weight, percent) |
- |
50000 |
|
- |
Clause No. 5.4, Table No. 2, (ii)(Change in volume, percent) |
- |
2000 |
|
- |
Clause No. 5.4, Table No. 2, (iii)(Visual observations) |
- |
500 |
|
- |
Clause No. 5.4, Table No. 2, (iv)(Change in tensile strength, percent) |
- |
1000 |
|
- |
Clause No. 5.4, Table No. 2, (v)(Change in elongation, percent) |
- |
1000 |
|
- |
Clause No. 5.4, Table No. 2, (vi)(Change in 2 percent secant modulus, percent) |
- |
1000 |
|
- |
Clause No. 5.4, Table No. 2, (vii)(Change in seam strength, percent) |
- |
2000 |
|
- |
3.1(MATERIAL AND MANUFACTURE - -HDPE membrane -UV stablised or carbon black stablised LDPE or LLDPE shall contain minimum 2.5 percent of carbon black) |
- |
2000 |
|
- |
3.2(MATERIAL AND MANUFACTURE - A suitable multi-layer membrane with adequate number of layers shall be produced using a combination of HDPE fabric and layers of coating film) |
- |
1000 |
|
- |
3.3- Table 1 - i)(Thickness (mm)) |
- |
500 |
|
- |
3.3- Table 1 - ii)(Mass (g/m2)) |
- |
500 |
|
- |
3.3- Table 1 - iii)(Dimensions (length and width)) |
- |
500 |
|
- |
3.3- Table 1 - iv)(Carbon black content, percent) |
- |
1000 |
|
- |
3.3- Table 1 - v)(Carbon black dispersion) |
- |
1000 |
|
- |
3.3- Table 1 - vi)("Breaking load on 20 cm × 10 cm strip before UV exposure, N, Min
a) Warp way b) Weft way") |
- |
1000 |
|
- |
3.3- Table 1 - vii)(Strain at maximum load) |
- |
2000 |
|
- |
3.3- Table 1 - viii)(Retention of breaking load on 20 cm × 10 cm strip after UV exposure of 144 h a) Warp way b) Weft way) |
- |
20000 |
|
- |
3.3- Table 1 - ix)(Impact failure load, at 1524 mm drop, Min gram force at 50 percent failure) |
- |
2000 |
|
- |
3.3- Table 1 - x)(Tear resistance, N) |
- |
2000 |
|
- |
3.3- Table 1 - xi)(Puncture resistance, N) |
- |
2000 |
|
- |
3.3- Table 1 - xii)(Bursting strength (Ball burst), N/cm2) |
- |
1000 |
|
- |
3.3- Table 1 - xiii)(Seam strength before UV exposure, N/ mm) |
- |
1000 |
|
- |
3.3- Table 1 - xiv)(Seam strength after UV exposure of 144 h, N/mm) |
- |
20000 |
|
- |
3.3- Table 1 - xv)(Hydrostatic resistance before UV exposure, kg/cm2 ,) |
- |
1000 |
|
- |
3.3- Table 1 - xvi)(Hydrostatic resistance after UV exposure of 144 h, kg/cm2) |
- |
10000 |
|
- |
3.3- Table 1 - xvii)("Low temperature crack resistance at
minus 30 °C ± 1°C") |
- |
2000 |
|
- |
3.3- Table 1 - xviii)(Oxidative induction time (OIT), minutes a) Standard OIT or b) High pressure OIT) |
- |
10000 |
|
- |
3.3- Table 1 - xix)(Oven ageing at 85°C, Retention of oxidative induction time (OIT) after 90 days, percent a) Standard OIT or b) High pressure OIT) |
- |
60000 |
|
- |
3.3- Table 1 - xx)(Stress crack resistance) |
- |
2000 |
|
- |
3.3- Table 1 - xxi)(Abrasion resistance) |
- |
1000 |
|
- |
3.3- Table 1 - xxii)(Ash content, Max) |
- |
1000 |
|
- |
4(TYPES OF GEOGRIDS - a) Type I b) Type II c) Type III d) Type IV e) Type V f) Type VI) |
- |
500 |
|
- |
5.1(REQUIREMENTS - Workmanship) |
- |
500 |
|
- |
5.2(REQUIREMENTS - Joints/Seams) |
- |
500 |
|
- |
5.4-Table 2- i)(Requirements of Reinforced HDPE Membranes after Treating Against Chemicals - Change in weight) |
- |
50000 |
|
- |
5.4-Table 2- ii)(Requirements of Reinforced HDPE Membranes after Treating Against Chemicals - Change in volume) |
- |
2000 |
|
- |
5.4-Table 2- iii)(Requirements of Reinforced HDPE Membranes after Treating Against Chemicals - Visual observations) |
- |
500 |
|
- |
5.4-Table 2- iv)(Requirements of Reinforced HDPE Membranes after Treating Against Chemicals - Change in tensile strength) |
- |
1000 |
|
- |
5.4-Table 2- v)(Requirements of Reinforced HDPE Membranes after Treating Against Chemicals - Change in elongation) |
- |
1000 |
|
- |
5.4-Table 2- vi)(Requirements of Reinforced HDPE Membranes after Treating Against Chemicals - Change in 2 percent secant modulus) |
- |
1000 |
|
- |
5.4-Table 2- vii)(Requirements of Reinforced HDPE Membranes after Treating Against Chemicals - Change in seam strength) |
- |
2000 |
|
- |
6(PACKING AND MARKING) |
- |
200 |
|
- |
Clause No. 3.1(Reinforced HDPE Membrane) |
- |
0 |
|
- |
Clause No. 5.3, Table No. 1, (i)(Thickness (mm)) |
- |
0 |
|
- |
Clause No. 5.3, Table No. 1, (ii)(Mass (g/m2)) |
- |
0 |
|
- |
Clause No. 5.3, Table No. 1, (iii)(Dimensions (length and width)) |
- |
0 |
|
- |
Clause No. 3.1, Table No. 1, (iv)(Carbon black content, percent) |
- |
0 |
|
- |
Clause No. 3.1, Table No. 1, (v)(Carbon black dispersion) |
- |
0 |
|
- |
Clause No. 5.3, Table No. 1, (vi)(Breaking load on 20 cm × 10 cm strip before UV exposure, N) |
- |
0 |
|
- |
Clause No. 5.3, Table No. 1, (vii)(Strain at maximum load, percent) |
- |
0 |
|
- |
Clause No. 5.3, Table No. 1, (viii)(Retention of breaking load on 20 cm × 10 cm strip after UV exposure of 144 h) |
- |
0 |
|
- |
Clause No. 5.3, Table No. 1, (ix)(Impact failure load, at 1524 mm drop, Min gram force at 50 percent failure) |
- |
0 |
|
- |
Clause No. 5.3, Table No. 1, (x)(Tear resistance, N) |
- |
0 |
|
- |
Clause No. 5.3, Table No. 1, (x)(Tear resistance, N) |
- |
0 |
|
- |
Clause No. 5.3, Table No. 1, (xi)(Puncture resistance, N) |
- |
0 |
|
- |
Clause No. 5.3, Table No. 1, (xii)(Bursting strength (Ball burst), N/cm2) |
- |
0 |
|
- |
Clause No. 5.3, Table No. 1, (xiii)(Seam strength before UV exposure, N/mm) |
- |
0 |
|
- |
Clause No. 5.3, Table No. 1, (xiv)(Seam strength after UV exposure of 144 h, N/mm) |
- |
0 |
|
- |
Clause No. 5.3, Table No. 1, (xv)(Hydrostatic resistance before UV exposure, kg/cm2) |
- |
0 |
|
- |
Clause No. 5.3, Table No. 1, (xvi)(Hydrostatic resistance after UV exposure of 144 h, kg/cm2) |
- |
0 |
|
- |
Clause No. 5.3, Table No. 1, (xvii)(Low temperature crack resistance at minus 30 °C ± 1°C) |
- |
0 |
|
- |
Clause No. 5.3, Table No. 1, (xviii)(Oxidative induction time (OIT), minutes, (a) Standard OIT or (b) High Pressure OIT) |
- |
0 |
|
- |
Clause No. 5.3, Table No. 1, (xix)(Oven ageing at 85°C, Retention of oxidative induction time (OIT) after 90 days, percent, (a) Standard OIT or (b) High Pressure OIT) |
- |
0 |
|
- |
Clause No. 5.3, Table No. 1, (xx)(Stress crack resistance, h) |
- |
0 |
|
- |
Clause No. 5.3, Table No. 1, (xxi)(Abrasion resistance) |
- |
0 |
|
- |
Clause No. 5.3, Table No. 1, (xxii)(Ash content, percent) |
- |
0 |
|
- |
Clause No. 5.4, Table No. 2, (i)(Change in weight, percent) |
- |
0 |
|
- |
Clause No. 5.4, Table No. 2, (ii)(Change in volume, percent) |
- |
0 |
|
- |
Clause No. 5.4, Table No. 2, (iii)(Visual observations) |
- |
0 |
|
- |
Clause No. 5.4, Table No. 2, (iv)(Change in tensile strength, percent) |
- |
0 |
|
- |
Clause No. 5.4, Table No. 2, (v)(Change in elongation, percent) |
- |
0 |
|
- |
Clause No. 5.4, Table No. 2, (vi)(Change in 2 percent secant modulus, percent) |
- |
0 |
|
- |
Clause No. 5.4, Table No. 2, (vii)(Change in seam strength, percent) |
- |
0 |
|
- |
3.1(MATERIAL AND MANUFACTURE - -HDPE membrane -UV stablised or carbon black stablised LDPE or LLDPE shall contain minimum 2.5 percent of carbon black) |
- |
0 |
|
- |
3.2(MATERIAL AND MANUFACTURE - A suitable multi-layer membrane with adequate number of layers shall be produced using a combination of HDPE fabric and layers of coating film) |
- |
0 |
|
- |
3.3- Table 1 - i)(Thickness (mm)) |
- |
0 |
|
- |
3.3- Table 1 - ii)(Mass (g/m2)) |
- |
0 |
|
- |
3.3- Table 1 - iii)(Dimensions (length and width)) |
- |
0 |
|
- |
3.3- Table 1 - iv)(Carbon black content, percent) |
- |
0 |
|
- |
3.3- Table 1 - v)(Carbon black dispersion) |
- |
0 |
|
- |
3.3- Table 1 - vi)("Breaking load on 20 cm × 10 cm strip before UV exposure, N, Min
a) Warp way b) Weft way") |
- |
0 |
|
- |
3.3- Table 1 - vii)(Strain at maximum load) |
- |
0 |
|
- |
3.3- Table 1 - viii)(Retention of breaking load on 20 cm × 10 cm strip after UV exposure of 144 h a) Warp way b) Weft way) |
- |
0 |
|
- |
3.3- Table 1 - ix)(Impact failure load, at 1524 mm drop, Min gram force at 50 percent failure) |
- |
0 |
|
- |
3.3- Table 1 - x)(Tear resistance, N) |
- |
0 |
|
- |
3.3- Table 1 - xi)(Puncture resistance, N) |
- |
0 |
|
- |
3.3- Table 1 - xii)(Bursting strength (Ball burst), N/cm2) |
- |
0 |
|
- |
3.3- Table 1 - xiii)(Seam strength before UV exposure, N/ mm) |
- |
0 |
|
- |
3.3- Table 1 - xiv)(Seam strength after UV exposure of 144 h, N/mm) |
- |
0 |
|
- |
3.3- Table 1 - xv)(Hydrostatic resistance before UV exposure, kg/cm2 ,) |
- |
0 |
|
- |
3.3- Table 1 - xvi)(Hydrostatic resistance after UV exposure of 144 h, kg/cm2) |
- |
0 |
|
- |
3.3- Table 1 - xvii)("Low temperature crack resistance at
minus 30 °C ± 1°C") |
- |
0 |
|
- |
3.3- Table 1 - xviii)(Oxidative induction time (OIT), minutes a) Standard OIT or b) High pressure OIT) |
- |
0 |
|
- |
3.3- Table 1 - xix)(Oven ageing at 85°C, Retention of oxidative induction time (OIT) after 90 days, percent a) Standard OIT or b) High pressure OIT) |
- |
0 |
|
- |
3.3- Table 1 - xx)(Stress crack resistance) |
- |
0 |
|
- |
3.3- Table 1 - xxi)(Abrasion resistance) |
- |
0 |
|
- |
3.3- Table 1 - xxii)(Ash content, Max) |
- |
0 |
|
- |
4(TYPES OF GEOGRIDS - a) Type I b) Type II c) Type III d) Type IV e) Type V f) Type VI) |
- |
0 |
|
- |
5.1(REQUIREMENTS - Workmanship) |
- |
0 |
|
- |
5.2(REQUIREMENTS - Joints/Seams) |
- |
0 |
|
- |
5.4-Table 2- i)(Requirements of Reinforced HDPE Membranes after Treating Against Chemicals - Change in weight) |
- |
0 |
|
- |
5.4-Table 2- ii)(Requirements of Reinforced HDPE Membranes after Treating Against Chemicals - Change in volume) |
- |
0 |
|
- |
5.4-Table 2- iii)(Requirements of Reinforced HDPE Membranes after Treating Against Chemicals - Visual observations) |
- |
0 |
|
- |
5.4-Table 2- iv)(Requirements of Reinforced HDPE Membranes after Treating Against Chemicals - Change in tensile strength) |
- |
0 |
|
- |
5.4-Table 2- v)(Requirements of Reinforced HDPE Membranes after Treating Against Chemicals - Change in elongation) |
- |
0 |
|
- |
5.4-Table 2- vi)(Requirements of Reinforced HDPE Membranes after Treating Against Chemicals - Change in 2 percent secant modulus) |
- |
0 |
|
- |
5.4-Table 2- vii)(Requirements of Reinforced HDPE Membranes after Treating Against Chemicals - Change in seam strength) |
- |
0 |
|
- |
6(PACKING AND MARKING) |
- |
0 |
|
- |
Clause No. 3.1(Reinforced HDPE Membrane) |
- |
0 |
|
- |
Clause No. 5.3, Table No. 1, (i)(Thickness (mm)) |
- |
0 |
|
- |
Clause No. 5.3, Table No. 1, (ii)(Mass (g/m2)) |
- |
0 |
|
- |
Clause No. 5.3, Table No. 1, (iii)(Dimensions (length and width)) |
- |
0 |
|
- |
Clause No. 3.1, Table No. 1, (iv)(Carbon black content, percent) |
- |
0 |
|
- |
Clause No. 3.1, Table No. 1, (v)(Carbon black dispersion) |
- |
0 |
|
- |
Clause No. 5.3, Table No. 1, (vi)(Breaking load on 20 cm × 10 cm strip before UV exposure, N) |
- |
0 |
|
- |
Clause No. 5.3, Table No. 1, (vii)(Strain at maximum load, percent) |
- |
0 |
|
- |
Clause No. 5.3, Table No. 1, (viii)(Retention of breaking load on 20 cm × 10 cm strip after UV exposure of 144 h) |
- |
0 |
|
- |
Clause No. 5.3, Table No. 1, (ix)(Impact failure load, at 1524 mm drop, Min gram force at 50 percent failure) |
- |
0 |
|
- |
Clause No. 5.3, Table No. 1, (x)(Tear resistance, N) |
- |
0 |
|
- |
Clause No. 5.3, Table No. 1, (x)(Tear resistance, N) |
- |
0 |
|
- |
Clause No. 5.3, Table No. 1, (xi)(Puncture resistance, N) |
- |
0 |
|
- |
Clause No. 5.3, Table No. 1, (xii)(Bursting strength (Ball burst), N/cm2) |
- |
0 |
|
- |
Clause No. 5.3, Table No. 1, (xiii)(Seam strength before UV exposure, N/mm) |
- |
0 |
|
- |
Clause No. 5.3, Table No. 1, (xiv)(Seam strength after UV exposure of 144 h, N/mm) |
- |
0 |
|
- |
Clause No. 5.3, Table No. 1, (xv)(Hydrostatic resistance before UV exposure, kg/cm2) |
- |
0 |
|
- |
Clause No. 5.3, Table No. 1, (xvi)(Hydrostatic resistance after UV exposure of 144 h, kg/cm2) |
- |
0 |
|
- |
Clause No. 5.3, Table No. 1, (xvii)(Low temperature crack resistance at minus 30 °C ± 1°C) |
- |
0 |
|
- |
Clause No. 5.3, Table No. 1, (xviii)(Oxidative induction time (OIT), minutes, (a) Standard OIT or (b) High Pressure OIT) |
- |
0 |
|
- |
Clause No. 5.3, Table No. 1, (xix)(Oven ageing at 85°C, Retention of oxidative induction time (OIT) after 90 days, percent, (a) Standard OIT or (b) High Pressure OIT) |
- |
0 |
|
- |
Clause No. 5.3, Table No. 1, (xx)(Stress crack resistance, h) |
- |
0 |
|
- |
Clause No. 5.3, Table No. 1, (xxi)(Abrasion resistance) |
- |
0 |
|
- |
Clause No. 5.3, Table No. 1, (xxii)(Ash content, percent) |
- |
0 |
|
- |
Clause No. 5.4, Table No. 2, (i)(Change in weight, percent) |
- |
0 |
|
- |
Clause No. 5.4, Table No. 2, (ii)(Change in volume, percent) |
- |
0 |
|
- |
Clause No. 5.4, Table No. 2, (iii)(Visual observations) |
- |
0 |
|
- |
Clause No. 5.4, Table No. 2, (iv)(Change in tensile strength, percent) |
- |
0 |
|
- |
Clause No. 5.4, Table No. 2, (v)(Change in elongation, percent) |
- |
0 |
|
- |
Clause No. 5.4, Table No. 2, (vi)(Change in 2 percent secant modulus, percent) |
- |
0 |
|
- |
Clause No. 5.4, Table No. 2, (vii)(Change in seam strength, percent) |
- |
0 |
|
- |
3.1(MATERIAL AND MANUFACTURE - -HDPE membrane -UV stablised or carbon black stablised LDPE or LLDPE shall contain minimum 2.5 percent of carbon black) |
- |
0 |
|
- |
3.2(MATERIAL AND MANUFACTURE - A suitable multi-layer membrane with adequate number of layers shall be produced using a combination of HDPE fabric and layers of coating film) |
- |
0 |
|
- |
3.3- Table 1 - i)(Thickness (mm)) |
- |
0 |
|
- |
3.3- Table 1 - ii)(Mass (g/m2)) |
- |
0 |
|
- |
3.3- Table 1 - iii)(Dimensions (length and width)) |
- |
0 |
|
- |
3.3- Table 1 - iv)(Carbon black content, percent) |
- |
0 |
|
- |
3.3- Table 1 - v)(Carbon black dispersion) |
- |
0 |
|
- |
3.3- Table 1 - vi)("Breaking load on 20 cm × 10 cm strip before UV exposure, N, Min
a) Warp way b) Weft way") |
- |
0 |
|
- |
3.3- Table 1 - vii)(Strain at maximum load) |
- |
0 |
|
- |
3.3- Table 1 - viii)(Retention of breaking load on 20 cm × 10 cm strip after UV exposure of 144 h a) Warp way b) Weft way) |
- |
0 |
|
- |
3.3- Table 1 - ix)(Impact failure load, at 1524 mm drop, Min gram force at 50 percent failure) |
- |
0 |
|
- |
3.3- Table 1 - x)(Tear resistance, N) |
- |
0 |
|
- |
3.3- Table 1 - xi)(Puncture resistance, N) |
- |
0 |
|
- |
3.3- Table 1 - xii)(Bursting strength (Ball burst), N/cm2) |
- |
0 |
|
- |
3.3- Table 1 - xiii)(Seam strength before UV exposure, N/ mm) |
- |
0 |
|
- |
3.3- Table 1 - xiv)(Seam strength after UV exposure of 144 h, N/mm) |
- |
0 |
|
- |
3.3- Table 1 - xv)(Hydrostatic resistance before UV exposure, kg/cm2 ,) |
- |
0 |
|
- |
3.3- Table 1 - xvi)(Hydrostatic resistance after UV exposure of 144 h, kg/cm2) |
- |
0 |
|
- |
3.3- Table 1 - xvii)("Low temperature crack resistance at
minus 30 °C ± 1°C") |
- |
0 |
|
- |
3.3- Table 1 - xviii)(Oxidative induction time (OIT), minutes a) Standard OIT or b) High pressure OIT) |
- |
0 |
|
- |
3.3- Table 1 - xix)(Oven ageing at 85°C, Retention of oxidative induction time (OIT) after 90 days, percent a) Standard OIT or b) High pressure OIT) |
- |
0 |
|
- |
3.3- Table 1 - xx)(Stress crack resistance) |
- |
0 |
|
- |
3.3- Table 1 - xxi)(Abrasion resistance) |
- |
0 |
|
- |
3.3- Table 1 - xxii)(Ash content, Max) |
- |
0 |
|
- |
4(TYPES OF GEOGRIDS - a) Type I b) Type II c) Type III d) Type IV e) Type V f) Type VI) |
- |
0 |
|
- |
5.1(REQUIREMENTS - Workmanship) |
- |
0 |
|
- |
5.2(REQUIREMENTS - Joints/Seams) |
- |
0 |
|
- |
5.4-Table 2- i)(Requirements of Reinforced HDPE Membranes after Treating Against Chemicals - Change in weight) |
- |
0 |
|
- |
5.4-Table 2- ii)(Requirements of Reinforced HDPE Membranes after Treating Against Chemicals - Change in volume) |
- |
0 |
|
- |
5.4-Table 2- iii)(Requirements of Reinforced HDPE Membranes after Treating Against Chemicals - Visual observations) |
- |
0 |
|
- |
5.4-Table 2- iv)(Requirements of Reinforced HDPE Membranes after Treating Against Chemicals - Change in tensile strength) |
- |
0 |
|
- |
5.4-Table 2- v)(Requirements of Reinforced HDPE Membranes after Treating Against Chemicals - Change in elongation) |
- |
0 |
|
- |
5.4-Table 2- vi)(Requirements of Reinforced HDPE Membranes after Treating Against Chemicals - Change in 2 percent secant modulus) |
- |
0 |
|
- |
5.4-Table 2- vii)(Requirements of Reinforced HDPE Membranes after Treating Against Chemicals - Change in seam strength) |
- |
0 |
|
- |
6(PACKING AND MARKING) |
- |
0 |
|
- |
|
15 May, 2027 |
- Included w.e.f 02.06.2025 |
22 |
IS 17371 (2020) |
Geosynthetics – Geogrids for flexible pavements – Specification |
All Grades |
190000 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
1("Ultimate tensile strength, (MD × CD)- IS 16635
30/30
40/40
50/50
60/60
80/80
100/100") |
- |
2000 |
|
- |
1("Tensile strength at 2 percent strain, (MD × CD- IS 16635
20/20
30/30
40/40") |
- |
1000 |
|
- |
1("Tensile strength at 5 percent strain, (MD × CD- IS 16635
20/20
30/30
40/40") |
- |
1000 |
|
- |
1(UV resistance, strength retained after 500 h exposure- IS 13162 (part 2)) |
- |
60000 |
|
- |
1(Chemical resistance, strength retained after 72 h immersion- IS 17363) |
- |
30000 |
|
- |
2("Ultimate tensile strength, (MD × CD)- IS 16635
20/20
30/30
40/40") |
- |
2000 |
|
- |
2("Tensile strength at 2 percent strain, (MD × CD- IS 16635
20/20
30/30
40/40") |
- |
1000 |
|
- |
2("Tensile strength at 5 percent strain, (MD × CD- IS 16635
20/20
30/30
40/40") |
- |
1000 |
|
- |
2(UV resistance, strength retained after 500 h exposure- IS 13162 (part 2)) |
- |
60000 |
|
- |
2(Chemical resistance, strength retained after 72 h immersion- IS 17363) |
- |
30000 |
|
- |
2("Junction strength- IS 17371 AnnexB
20/20
30/30
40/40") |
- |
1500 |
|
- |
Clause No. 4.1(Geogrid Raw Materials) |
- |
30000 |
|
- |
Clause No. 4.1(Carbon Black content of Geogrid) |
- |
3000 |
|
- |
Clause No. 4.4(PET Geogrid weight) |
- |
15000 |
|
- |
Clause No. 4.4(PET Geogrid carboxyl end group content) |
- |
15000 |
|
- |
Clause No. 4.5(Identification of Geogrid) |
- |
1000 |
|
- |
Clause No. 5.2, Table No. 1 (ii)(Tensile strength at 2 percent strain, (MD × CD) kN/m of PET Geogrids) |
- |
10000 |
|
- |
Clause No. 5.2, Table No. 1 (iii)(Tensile strength at 5 percent strain, (MD × CD) kN/m of PET Geogrids) |
- |
1000 |
|
- |
Clause No. 5.2, table No. 1 (iv)(UV resistance, strength retained after 500 h exposure of PET Geogrids) |
- |
60000 |
|
- |
Clause No. 5.2, Table No. 1 (v)(Chemical resistance, strength retained after 72 h immersion of PET Geogrids) |
- |
30000 |
|
- |
Clause No. 5.2, table No. 1 (vi)(Width of PET Geogrids) |
- |
500 |
|
- |
Clause No. 5.2, Table No. 1 (vii)(Roll length of PET Geogrids) |
- |
500 |
|
- |
Clause No. 5.2, Table No. 2 (i)(Ultimate tensile strength, (MD × CD) kN/m of PP Geogrids) |
- |
2000 |
|
- |
Clause No. 5.2, Table No. 2 (ii)(Tensile strength at 2 percent strain, (MD × CD) kN/m of PP Geogrids) |
- |
1000 |
|
- |
Clause No. 5.2, Table No. 2 (iii)(Tensile strength at 5 percent strain, (MD × CD) kN/m of PP Geogrids) |
- |
1000 |
|
- |
Clause No. 5.2, table No. 2 (iv)(UV resistance, strength retained after 500 h exposure of PP Geogrids) |
- |
60000 |
|
- |
Clause No. 5.2, Table No. 2 (v)(Chemical resistance, strength retained after 72 h immersion of PP Geogrids) |
- |
30000 |
|
- |
Clause No. 5.2, Table No. 2 (vi)(Junction strength, percent strength of original strength) |
- |
1500 |
|
- |
Clause No. 5.2, table No. 2 (vii)(Width of PP Geogrids) |
- |
500 |
|
- |
Clause No. 5.2, Table No. 2 (viii)(Roll length of PP Geogrids) |
- |
500 |
|
- |
4.1(MATERIALS - Geogrid materials shall be inert to all chemicals naturally found in commonly encountered soils not containing adverse solvents and at ambient temperatures) |
- |
30000 |
|
- |
4.2(MATERIALS - Geogrids shall be rendered resistant to UV. Rigid geogrids shall have minimum 2 percent (mass/mass) of carbon black content) |
- |
3000 |
|
- |
4.3(MATERIALS - The geogrid shall be resistant to commonly encountered chemicals and microorganisms (rot and mildew) normally found in soils and shall be stabilized against short term exposure to solar radiation) |
- |
500 |
|
- |
4.4(MATERIALS - PET geogrids, it shall have average molecular weight more than or equal to 25,000 g/mol) |
- |
30000 |
|
- |
4.5(MATERIALS - Identification of Geogrid) |
- |
1000 |
|
- |
5.1(REQUIREMENTS FOR GEOGRIDS -Geogrids shall be dimensionally stable and able to retain their geometry under manufacture, transport, and installation) |
- |
1000 |
|
- |
5.2- Table 1- i)(REQUIREMENTS FOR PET GEOGRIDS - Ultimate tensile strength, (MD × CD) kN/m) |
- |
2000 |
|
- |
5.2- Table 1- ii)(REQUIREMENTS FOR PET GEOGRIDS - Tensile strength at 2 percent strain, (MD × CD) kN/m,) |
- |
1000 |
|
- |
5.2- Table 1- iii)(REQUIREMENTS FOR PET GEOGRIDS - Tensile strength at 5 percent strain, (MD × CD) kN/m,) |
- |
1000 |
|
- |
5.2- Table 1- iv)(REQUIREMENTS FOR PET GEOGRIDS - UV resistance, strength retained after 500 h exposure) |
- |
60000 |
|
- |
5.2- Table 1- v)(REQUIREMENTS FOR GEOGRIDS - Chemical resistance, strength retained after 72 h immersion) |
- |
30000 |
|
- |
5.2- Table 1- vi)(REQUIREMENTS FOR PET GEOGRIDS - Width) |
- |
500 |
|
- |
5.2- Table 1- vii)(REQUIREMENTS FOR PET GEOGRIDS - Roll length) |
- |
500 |
|
- |
5.2- Table 2- i)(REQUIREMENTS FOR PP GEOGRIDS - Ultimate tensile strength, (MD × CD) kN/m) |
- |
2000 |
|
- |
5.2- Table 2- ii)(REQUIREMENTS FOR PP GEOGRIDS - Tensile strength at 2 percent strain, (MD × CD) kN/m) |
- |
1000 |
|
- |
5.2- Table 2- iii)(REQUIREMENTS FOR PP GEOGRIDS - Tensile strength at 5 percent strain, (MD × CD) kN/m,) |
- |
1000 |
|
- |
5.2- Table 2- iv)(REQUIREMENTS FOR PP GEOGRIDS - UV resistance, strength retained after 500 h exposure) |
- |
60000 |
|
- |
5.2- Table 2- v)(REQUIREMENTS FOR PP GEOGRIDS - Chemical resistance, strength retained after 72 h immersion) |
- |
30000 |
|
- |
5.2- Table 2- vi)(REQUIREMENTS FOR PP GEOGRIDS - Junction strength, percent strength of original strength) |
- |
1500 |
|
- |
5.2- Table 2- vii)(REQUIREMENTS FOR PP GEOGRIDS - Width) |
- |
500 |
|
- |
5.2- Table 2- vIii)(REQUIREMENTS FOR PET GEOGRIDS - Roll length) |
- |
500 |
|
- |
6(MARKING AND LABELLING) |
- |
1000 |
|
- |
7(PACKING - minimum thickness of packing film) |
- |
500 |
|
- |
8.1(IDENTIFICATION, DELIVERY, STORAGE AND HANDLING) |
- |
1000 |
|
- |
1("Ultimate tensile strength, (MD × CD)- IS 16635
30/30
40/40
50/50
60/60
80/80
100/100") |
- |
0 |
|
Repeated Clause. |
1("Tensile strength at 2 percent strain, (MD × CD- IS 16635
20/20
30/30
40/40") |
- |
0 |
|
Repeated Clause. |
1("Tensile strength at 5 percent strain, (MD × CD- IS 16635
20/20
30/30
40/40") |
- |
0 |
|
Repeated Clause. |
1(UV resistance, strength retained after 500 h exposure- IS 13162 (part 2)) |
- |
0 |
|
Repeated Clause. |
1(Chemical resistance, strength retained after 72 h immersion- IS 17363) |
- |
0 |
|
Repeated Clause. |
2("Ultimate tensile strength, (MD × CD)- IS 16635
20/20
30/30
40/40") |
- |
0 |
|
Repeated Clause. |
2("Tensile strength at 2 percent strain, (MD × CD- IS 16635
20/20
30/30
40/40") |
- |
0 |
|
Repeated Clause. |
2("Tensile strength at 5 percent strain, (MD × CD- IS 16635
20/20
30/30
40/40") |
- |
0 |
|
Repeated Clause. |
2(UV resistance, strength retained after 500 h exposure- IS 13162 (part 2)) |
- |
0 |
|
Repeated Clause. |
2(Chemical resistance, strength retained after 72 h immersion- IS 17363) |
- |
0 |
|
Repeated Clause. |
2("Junction strength- IS 17371 AnnexB
20/20
30/30
40/40") |
- |
0 |
|
Repeated Clause. |
Clause No. 4.1(Geogrid Raw Materials) |
- |
0 |
|
Repeated Clause. |
Clause No. 4.1(Carbon Black content of Geogrid) |
- |
0 |
|
Repeated Clause. |
Clause No. 4.4(PET Geogrid weight) |
- |
0 |
|
Repeated Clause. |
Clause No. 4.4(PET Geogrid carboxyl end group content) |
- |
0 |
|
Repeated Clause. |
Clause No. 4.5(Identification of Geogrid) |
- |
0 |
|
Repeated Clause. |
Clause No. 5.2, Table No. 1 (ii)(Tensile strength at 2 percent strain, (MD × CD) kN/m of PET Geogrids) |
- |
0 |
|
Repeated Clause. |
Clause No. 5.2, Table No. 1 (iii)(Tensile strength at 5 percent strain, (MD × CD) kN/m of PET Geogrids) |
- |
0 |
|
Repeated Clause. |
Clause No. 5.2, table No. 1 (iv)(UV resistance, strength retained after 500 h exposure of PET Geogrids) |
- |
0 |
|
Repeated Clause. |
Clause No. 5.2, Table No. 1 (v)(Chemical resistance, strength retained after 72 h immersion of PET Geogrids) |
- |
0 |
|
Repeated Clause. |
Clause No. 5.2, table No. 1 (vi)(Width of PET Geogrids) |
- |
0 |
|
Repeated Clause. |
Clause No. 5.2, Table No. 1 (vii)(Roll length of PET Geogrids) |
- |
0 |
|
Repeated Clause. |
Clause No. 5.2, Table No. 2 (i)(Ultimate tensile strength, (MD × CD) kN/m of PP Geogrids) |
- |
0 |
|
Repeated Clause. |
Clause No. 5.2, Table No. 2 (ii)(Tensile strength at 2 percent strain, (MD × CD) kN/m of PP Geogrids) |
- |
0 |
|
Repeated Clause. |
Clause No. 5.2, Table No. 2 (iii)(Tensile strength at 5 percent strain, (MD × CD) kN/m of PP Geogrids) |
- |
0 |
|
Repeated Clause. |
Clause No. 5.2, table No. 2 (iv)(UV resistance, strength retained after 500 h exposure of PP Geogrids) |
- |
0 |
|
Repeated Clause. |
Clause No. 5.2, Table No. 2 (v)(Chemical resistance, strength retained after 72 h immersion of PP Geogrids) |
- |
0 |
|
Repeated Clause. |
Clause No. 5.2, Table No. 2 (vi)(Junction strength, percent strength of original strength) |
- |
0 |
|
Repeated Clause. |
Clause No. 5.2, table No. 2 (vii)(Width of PP Geogrids) |
- |
0 |
|
Repeated Clause. |
Clause No. 5.2, Table No. 2 (viii)(Roll length of PP Geogrids) |
- |
0 |
|
Repeated Clause. |
4.1(MATERIALS - Geogrid materials shall be inert to all chemicals naturally found in commonly encountered soils not containing adverse solvents and at ambient temperatures) |
- |
0 |
|
Repeated Clause. |
4.2(MATERIALS - Geogrids shall be rendered resistant to UV. Rigid geogrids shall have minimum 2 percent (mass/mass) of carbon black content) |
- |
0 |
|
Repeated Clause. |
4.3(MATERIALS - The geogrid shall be resistant to commonly encountered chemicals and microorganisms (rot and mildew) normally found in soils and shall be stabilized against short term exposure to solar radiation) |
- |
0 |
|
Repeated Clause. |
4.4(MATERIALS - PET geogrids, it shall have average molecular weight more than or equal to 25,000 g/mol) |
- |
0 |
|
Repeated Clause. |
4.5(MATERIALS - Identification of Geogrid) |
- |
0 |
|
Repeated Clause. |
5.1(REQUIREMENTS FOR GEOGRIDS -Geogrids shall be dimensionally stable and able to retain their geometry under manufacture, transport, and installation) |
- |
0 |
|
Repeated Clause. |
5.2- Table 1- i)(REQUIREMENTS FOR PET GEOGRIDS - Ultimate tensile strength, (MD × CD) kN/m) |
- |
0 |
|
Repeated Clause. |
5.2- Table 1- ii)(REQUIREMENTS FOR PET GEOGRIDS - Tensile strength at 2 percent strain, (MD × CD) kN/m,) |
- |
0 |
|
Repeated Clause. |
5.2- Table 1- iii)(REQUIREMENTS FOR PET GEOGRIDS - Tensile strength at 5 percent strain, (MD × CD) kN/m,) |
- |
0 |
|
Repeated Clause. |
5.2- Table 1- iv)(REQUIREMENTS FOR PET GEOGRIDS - UV resistance, strength retained after 500 h exposure) |
- |
0 |
|
Repeated Clause. |
5.2- Table 1- v)(REQUIREMENTS FOR GEOGRIDS - Chemical resistance, strength retained after 72 h immersion) |
- |
0 |
|
Repeated Clause. |
5.2- Table 1- vi)(REQUIREMENTS FOR PET GEOGRIDS - Width) |
- |
0 |
|
Repeated Clause. |
5.2- Table 1- vii)(REQUIREMENTS FOR PET GEOGRIDS - Roll length) |
- |
0 |
|
Repeated Clause. |
5.2- Table 2- i)(REQUIREMENTS FOR PP GEOGRIDS - Ultimate tensile strength, (MD × CD) kN/m) |
- |
0 |
|
Repeated Clause. |
5.2- Table 2- ii)(REQUIREMENTS FOR PP GEOGRIDS - Tensile strength at 2 percent strain, (MD × CD) kN/m) |
- |
0 |
|
Repeated Clause. |
5.2- Table 2- iii)(REQUIREMENTS FOR PP GEOGRIDS - Tensile strength at 5 percent strain, (MD × CD) kN/m,) |
- |
0 |
|
Repeated Clause. |
5.2- Table 2- iv)(REQUIREMENTS FOR PP GEOGRIDS - UV resistance, strength retained after 500 h exposure) |
- |
0 |
|
Repeated Clause. |
5.2- Table 2- v)(REQUIREMENTS FOR PP GEOGRIDS - Chemical resistance, strength retained after 72 h immersion) |
- |
0 |
|
Repeated Clause. |
5.2- Table 2- vi)(REQUIREMENTS FOR PP GEOGRIDS - Junction strength, percent strength of original strength) |
- |
0 |
|
Repeated Clause. |
5.2- Table 2- vii)(REQUIREMENTS FOR PP GEOGRIDS - Width) |
- |
0 |
|
Repeated Clause. |
5.2- Table 2- vIii)(REQUIREMENTS FOR PET GEOGRIDS - Roll length) |
- |
0 |
|
Repeated Clause. |
6(MARKING AND LABELLING) |
- |
0 |
|
Repeated Clause. |
7(PACKING - minimum thickness of packing film) |
- |
0 |
|
Repeated Clause. |
8.1(IDENTIFICATION, DELIVERY, STORAGE AND HANDLING) |
- |
0 |
|
Repeated Clause. |
1("Ultimate tensile strength, (MD × CD)- IS 16635
30/30
40/40
50/50
60/60
80/80
100/100") |
- |
0 |
|
- |
1("Tensile strength at 2 percent strain, (MD × CD- IS 16635
20/20
30/30
40/40") |
- |
0 |
|
- |
1("Tensile strength at 5 percent strain, (MD × CD- IS 16635
20/20
30/30
40/40") |
- |
0 |
|
- |
1(UV resistance, strength retained after 500 h exposure- IS 13162 (part 2)) |
- |
0 |
|
- |
1(Chemical resistance, strength retained after 72 h immersion- IS 17363) |
- |
0 |
|
- |
2("Ultimate tensile strength, (MD × CD)- IS 16635
20/20
30/30
40/40") |
- |
0 |
|
- |
2("Tensile strength at 2 percent strain, (MD × CD- IS 16635
20/20
30/30
40/40") |
- |
0 |
|
- |
2("Tensile strength at 5 percent strain, (MD × CD- IS 16635
20/20
30/30
40/40") |
- |
0 |
|
- |
2(UV resistance, strength retained after 500 h exposure- IS 13162 (part 2)) |
- |
0 |
|
- |
2(Chemical resistance, strength retained after 72 h immersion- IS 17363) |
- |
0 |
|
- |
2("Junction strength- IS 17371 AnnexB
20/20
30/30
40/40") |
- |
0 |
|
- |
Clause No. 4.1(Geogrid Raw Materials) |
- |
0 |
|
- |
Clause No. 4.1(Carbon Black content of Geogrid) |
- |
0 |
|
- |
Clause No. 4.4(PET Geogrid weight) |
- |
0 |
|
- |
Clause No. 4.4(PET Geogrid carboxyl end group content) |
- |
0 |
|
- |
Clause No. 4.5(Identification of Geogrid) |
- |
0 |
|
- |
Clause No. 5.2, Table No. 1 (ii)(Tensile strength at 2 percent strain, (MD × CD) kN/m of PET Geogrids) |
- |
0 |
|
- |
Clause No. 5.2, Table No. 1 (iii)(Tensile strength at 5 percent strain, (MD × CD) kN/m of PET Geogrids) |
- |
0 |
|
- |
Clause No. 5.2, table No. 1 (iv)(UV resistance, strength retained after 500 h exposure of PET Geogrids) |
- |
0 |
|
- |
Clause No. 5.2, Table No. 1 (v)(Chemical resistance, strength retained after 72 h immersion of PET Geogrids) |
- |
0 |
|
- |
Clause No. 5.2, table No. 1 (vi)(Width of PET Geogrids) |
- |
0 |
|
- |
Clause No. 5.2, Table No. 1 (vii)(Roll length of PET Geogrids) |
- |
0 |
|
- |
Clause No. 5.2, Table No. 2 (i)(Ultimate tensile strength, (MD × CD) kN/m of PP Geogrids) |
- |
0 |
|
- |
Clause No. 5.2, Table No. 2 (ii)(Tensile strength at 2 percent strain, (MD × CD) kN/m of PP Geogrids) |
- |
0 |
|
- |
Clause No. 5.2, Table No. 2 (iii)(Tensile strength at 5 percent strain, (MD × CD) kN/m of PP Geogrids) |
- |
0 |
|
- |
Clause No. 5.2, table No. 2 (iv)(UV resistance, strength retained after 500 h exposure of PP Geogrids) |
- |
0 |
|
- |
Clause No. 5.2, Table No. 2 (v)(Chemical resistance, strength retained after 72 h immersion of PP Geogrids) |
- |
0 |
|
- |
Clause No. 5.2, Table No. 2 (vi)(Junction strength, percent strength of original strength) |
- |
0 |
|
- |
Clause No. 5.2, table No. 2 (vii)(Width of PP Geogrids) |
- |
0 |
|
- |
Clause No. 5.2, Table No. 2 (viii)(Roll length of PP Geogrids) |
- |
0 |
|
- |
4.1(MATERIALS - Geogrid materials shall be inert to all chemicals naturally found in commonly encountered soils not containing adverse solvents and at ambient temperatures) |
- |
0 |
|
- |
4.2(MATERIALS - Geogrids shall be rendered resistant to UV. Rigid geogrids shall have minimum 2 percent (mass/mass) of carbon black content) |
- |
0 |
|
- |
4.3(MATERIALS - The geogrid shall be resistant to commonly encountered chemicals and microorganisms (rot and mildew) normally found in soils and shall be stabilized against short term exposure to solar radiation) |
- |
0 |
|
- |
4.4(MATERIALS - PET geogrids, it shall have average molecular weight more than or equal to 25,000 g/mol) |
- |
0 |
|
- |
4.5(MATERIALS - Identification of Geogrid) |
- |
0 |
|
- |
5.1(REQUIREMENTS FOR GEOGRIDS -Geogrids shall be dimensionally stable and able to retain their geometry under manufacture, transport, and installation) |
- |
0 |
|
- |
5.2- Table 1- i)(REQUIREMENTS FOR PET GEOGRIDS - Ultimate tensile strength, (MD × CD) kN/m) |
- |
0 |
|
- |
5.2- Table 1- ii)(REQUIREMENTS FOR PET GEOGRIDS - Tensile strength at 2 percent strain, (MD × CD) kN/m,) |
- |
0 |
|
- |
5.2- Table 1- iii)(REQUIREMENTS FOR PET GEOGRIDS - Tensile strength at 5 percent strain, (MD × CD) kN/m,) |
- |
0 |
|
- |
5.2- Table 1- iv)(REQUIREMENTS FOR PET GEOGRIDS - UV resistance, strength retained after 500 h exposure) |
- |
0 |
|
- |
5.2- Table 1- v)(REQUIREMENTS FOR GEOGRIDS - Chemical resistance, strength retained after 72 h immersion) |
- |
0 |
|
- |
5.2- Table 1- vi)(REQUIREMENTS FOR PET GEOGRIDS - Width) |
- |
0 |
|
- |
5.2- Table 1- vii)(REQUIREMENTS FOR PET GEOGRIDS - Roll length) |
- |
0 |
|
- |
5.2- Table 2- i)(REQUIREMENTS FOR PP GEOGRIDS - Ultimate tensile strength, (MD × CD) kN/m) |
- |
0 |
|
- |
5.2- Table 2- ii)(REQUIREMENTS FOR PP GEOGRIDS - Tensile strength at 2 percent strain, (MD × CD) kN/m) |
- |
0 |
|
- |
5.2- Table 2- iii)(REQUIREMENTS FOR PP GEOGRIDS - Tensile strength at 5 percent strain, (MD × CD) kN/m,) |
- |
0 |
|
- |
5.2- Table 2- iv)(REQUIREMENTS FOR PP GEOGRIDS - UV resistance, strength retained after 500 h exposure) |
- |
0 |
|
- |
5.2- Table 2- v)(REQUIREMENTS FOR PP GEOGRIDS - Chemical resistance, strength retained after 72 h immersion) |
- |
0 |
|
- |
5.2- Table 2- vi)(REQUIREMENTS FOR PP GEOGRIDS - Junction strength, percent strength of original strength) |
- |
0 |
|
- |
5.2- Table 2- vii)(REQUIREMENTS FOR PP GEOGRIDS - Width) |
- |
0 |
|
- |
5.2- Table 2- vIii)(REQUIREMENTS FOR PET GEOGRIDS - Roll length) |
- |
0 |
|
- |
6(MARKING AND LABELLING) |
- |
0 |
|
- |
7(PACKING - minimum thickness of packing film) |
- |
0 |
|
- |
8.1(IDENTIFICATION, DELIVERY, STORAGE AND HANDLING) |
- |
0 |
|
- |
|
15 May, 2027 |
- Included w.e.f 02.06.2025 |
23 |
IS 5405 (2025) |
Disposable Sanitary Napkin/Panty Liner/Maternity Pad/Period Panty - Specification ( Third Revision ) |
Sanitary Napkins |
16000 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
3.1(Cover/Top sheet) |
- |
1000 |
|
- |
3.2(Absorbent core) |
- |
500 |
|
- |
3.3(Barrier or bottom sheet) |
- |
500 |
|
- |
4.1(Types) |
- |
200 |
|
- |
4.2(shapes) |
- |
300 |
|
- |
5(Sizes) |
- |
1000 |
|
- |
Cl. 5 Table-1(Type) |
- |
0 |
|
Test price for Clause 5 is 1000/-. |
Cl. 5 Table-1(Size class) |
- |
0 |
|
Test price for Clause 5 is 1000/-. |
Cl. 5 Table-1(Length (Absorbent core only)) |
- |
0 |
|
Test price for Clause 5 is 1000/-. |
Cl. 5 Table-1(Width (Absorbent core only)) |
- |
0 |
|
Test price for Clause 5 is 1000/-. |
6.1(Manufacture, workmanship and finish) |
- |
500 |
|
Test price for Clause 6 is 500/-. |
6.2(Manufacture, workmanship and finish) |
- |
0 |
|
Test price for Clause 6 is 500/-. |
7.1(pH value (IS 1390)) |
- |
1000 |
|
- |
7.2(Ability to withstand Pressure after absorption) |
- |
1000 |
|
- |
7.2(Ability to withstand Pressure after absorption - Leakage) |
- |
0 |
|
Test price for clause 7.2 is 1000/-. |
7.3.1(Total Viable count) |
- |
2000 |
|
- |
7.3.2(Staphylococcus aureus) |
- |
2000 |
|
- |
7.4(Biocompatibility evaluation - Cytotoxicity (IS/ISO 10993 P-5)) |
- |
0 |
|
Under Exclusion. |
7.4(Biocompatibility evaluation - Irritation (IS 17932 P-7)) |
- |
0 |
|
Under Exclusion. |
7.4(Biocompatibility evaluation - skin Sensitization (Optional) (IS 17932 P-6)) |
- |
0 |
|
Under Exclusion. |
7.5(Phthalate test) |
- |
4000 |
|
- |
7.6(Compostability (Optional) (IS/ISO 17088)) |
- |
0 |
|
Under Exclusion |
7.7(Anti bacterial activity value (Optional) (IS/ISO 20743)) |
- |
2000 |
|
- |
3.1(Cover/Top Sheet (non sterile gauze)) |
- |
0 |
|
Test price for clause 3.1 is 800/-. |
3.1(Cover/Top Sheet (sterile gauze)) |
- |
0 |
|
Test price for clause 3.1 is 800/-. |
5(Size) |
- |
0 |
|
Test price for Clause 5 is 1000/-. |
7.1(pH Test) |
- |
0 |
|
Test price for clause 7.1 is 4000/-. |
7.2, Table 2("Ability to Withstand Pressure after Absorption: Liquid Absorption
ml, Min (Sanitary napkin)") |
- |
0 |
|
Test price for clause 7.2 is 1000/-. |
7.2, Table 2("Ability to Withstand Pressure after Absorption: Liquid Absorption
ml, Min (Panty liner)") |
- |
0 |
|
Test price for clause 7.2 is 1000/-. |
7.2, Table 2("Ability to Withstand Pressure after Absorption: Liquid Absorption
ml, Min(Maternity pad)") |
- |
0 |
|
Test price for clause 7.2 is 1000/-. |
7.2, Table 2("Ability to Withstand Pressure after Absorption: Liquid Absorption
ml, Min (Period panty)") |
- |
0 |
|
Test price for clause 7.2 is 1000/-. |
3.1(Cover/Top sheet) |
- |
0 |
|
- |
3.2(Absorbent core) |
- |
0 |
|
- |
3.3(Barrier or bottom sheet) |
- |
0 |
|
- |
4.1(Types) |
- |
0 |
|
- |
4.2(shapes) |
- |
0 |
|
- |
5(Sizes) |
- |
0 |
|
- |
Cl. 5 Table-1(Type) |
- |
0 |
|
- |
Cl. 5 Table-1(Size class) |
- |
0 |
|
- |
Cl. 5 Table-1(Length (Absorbent core only)) |
- |
0 |
|
- |
Cl. 5 Table-1(Width (Absorbent core only)) |
- |
0 |
|
- |
6.1(Manufacture, workmanship and finish) |
- |
0 |
|
- |
6.2(Manufacture, workmanship and finish) |
- |
0 |
|
- |
7.1(pH value (IS 1390)) |
- |
0 |
|
- |
7.2(Ability to withstand Pressure after absorption) |
- |
0 |
|
- |
7.2(Ability to withstand Pressure after absorption - Leakage) |
- |
0 |
|
- |
7.3.1(Total Viable count) |
- |
0 |
|
- |
7.3.2(Staphylococcus aureus) |
- |
0 |
|
- |
7.4(Biocompatibility evaluation - Cytotoxicity (IS/ISO 10993 P-5)) |
- |
0 |
|
- |
7.4(Biocompatibility evaluation - Irritation (IS 17932 P-7)) |
- |
0 |
|
- |
7.4(Biocompatibility evaluation - skin Sensitization (Optional) (IS 17932 P-6)) |
- |
0 |
|
- |
7.5(Phthalate test) |
- |
0 |
|
- |
7.6(Compostability (Optional) (IS/ISO 17088)) |
- |
0 |
|
- |
7.7(Anti bacterial activity value (Optional) (IS/ISO 20743)) |
- |
0 |
|
- |
3.1(Cover/Top Sheet (non sterile gauze)) |
- |
0 |
|
- |
3.1(Cover/Top Sheet (sterile gauze)) |
- |
0 |
|
- |
5(Size) |
- |
0 |
|
- |
7.1(pH Test) |
- |
0 |
|
- |
7.2, Table 2("Ability to Withstand Pressure after Absorption: Liquid Absorption
ml, Min (Sanitary napkin)") |
- |
0 |
|
- |
7.2, Table 2("Ability to Withstand Pressure after Absorption: Liquid Absorption
ml, Min (Panty liner)") |
- |
0 |
|
- |
7.2, Table 2("Ability to Withstand Pressure after Absorption: Liquid Absorption
ml, Min(Maternity pad)") |
- |
0 |
|
- |
7.2, Table 2("Ability to Withstand Pressure after Absorption: Liquid Absorption
ml, Min (Period panty)") |
- |
0 |
|
- |
|
15 May, 2027 |
- - |
24 |
IS 695 (2020) |
Acetic Acid — Specification ( Fourth Revision ) |
Industrial Chemical-Acitic Acid |
13500 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
4.3 - Table 1 - Sl No - xiv(Water content - IS 2362) |
- |
800 |
|
- |
4.3 - Table 1 - Sl No - xiii( Oxidizable impurities - Annex A 11) |
- |
900 |
|
- |
4.3 - Table 1 - Sl No - xii(Acetaldehyde (CH3CHO) - Annex A 10) |
- |
900 |
|
- |
4.3 - Table 1 - Sl No - xi(Formic acid (HCOOH)- Annex A 9) |
- |
1000 |
|
- |
4.3 - Table 1 - Sl No - x(Heavy metals [(including iron) calculated as Pb] - Annex A 8) |
- |
800 |
|
- |
4.3 - Table 1 - Sl No - ix(Sulphate (as SO4) - Annex A 7) |
- |
800 |
|
- |
4.3 - Table 1 - Sl No - viii(Iron (as Fe) - Annex A 6) |
- |
800 |
|
- |
4.3 - Table 1 - Sl No - vii(Chloride (as Cl) - Annex A 5) |
- |
800 |
|
- |
4.3 - Table 1 - Sl No - vi(Residue on evaporation - Annex A 4) |
- |
1000 |
|
- |
4.3 - Table 1 - Sl No - v(Crystallizing point - Annex A 3) |
- |
1000 |
|
- |
4.3 - Table 1 - Sl No - iv(Acetic acid content (CH3COOH) - Annex A2) |
- |
1000 |
|
- |
4.3 - Table 1 - Sl No - iii(Colour - IS 8768) |
- |
600 |
|
- |
4.3 - Table 1 - Sl No - ii(Relative density at 27/27 ℃ - Cl 6 of IS 82) |
- |
1000 |
|
- |
4.3 - Table 1 - Sl No - i(Solubility in water - Annex A 1) |
- |
600 |
|
- |
4.2.2(Description) |
- |
500 |
|
- |
4.1(Description) |
- |
0 |
|
Test price for clause 4.1 is 500/-. |
|
15 May, 2027 |
- Included w.e.f 28.05.2025 |
25 |
IS 14407 (2023) |
Aluminium cans for beverages -- Specification (first revision) |
UTENSILS-Aluminium Cans for Beverages |
31500 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
4(Capacity) |
- |
31500 |
|
- |
5(Material) |
- |
31500 |
|
- |
5.1-1A&B-1(Copper) |
- |
31500 |
|
- |
5.1-1A&B-2(Magnesium) |
- |
31500 |
|
- |
5.1-1A&B-3(Silicon) |
- |
31500 |
|
- |
5.1-1A&B-4(Iron) |
- |
31500 |
|
- |
5.1-1A&B-5(Manganese) |
- |
31500 |
|
- |
5.1-1A&B-6(Zinc) |
- |
31500 |
|
- |
5.1-1A&B-7(Titanium) |
- |
31500 |
|
- |
5.1-1A&B-8(Chromium) |
- |
31500 |
|
- |
5.1-1A&B-9(Gallium) |
- |
31500 |
|
- |
5.1-1A&B-10(Vanadium) |
- |
31500 |
|
- |
5.1-1A&B-11(Other total) |
- |
31500 |
|
- |
5.1-1A&B-12(Aluminium) |
- |
31500 |
|
- |
5.2 -6 Annex B-2.2(Determination of HX8 Minimum Tensile Strength) |
- |
31500 |
|
- |
5.3-2A&B(Temper) |
- |
31500 |
|
- |
5.3-2A&B(Specified Thickness) |
- |
31500 |
|
- |
5.3-2A&B(Tensile Strength) |
- |
31500 |
|
- |
5.3-2A&B(Elongation) |
- |
31500 |
|
- |
5.3-2A&B(Bend Test) |
- |
31500 |
|
- |
6.1.1(Manufacture - Can Body) |
- |
31500 |
|
- |
6.1.2(Manufacture - Can Ends) |
- |
31500 |
|
- |
6.2(Internal Finish) |
- |
31500 |
|
- |
6.3(External Coating) |
- |
31500 |
|
- |
6.3.1(Bottom Rim Coating) |
- |
31500 |
|
- |
6.3.2(Pasteurisation and Retort Coating) |
- |
31500 |
|
- |
6.4(Shape and Dimensions) |
- |
31500 |
|
- |
6.4.1 - 3(Shape and Dimensions) |
- |
31500 |
|
- |
6.4.1 - 3(Nominal Capacity) |
- |
31500 |
|
- |
6.4.1 - 3(Can Type) |
- |
31500 |
|
- |
6.4.1 - 3(Finished Can Height) |
- |
31500 |
|
- |
6.4.1 - 3(Inside Neck/Plug Diameter) |
- |
31500 |
|
- |
6.4.1 - 3(Outside Can Diameter) |
- |
31500 |
|
- |
6.4.1 - 3(Free Board) |
- |
31500 |
|
- |
6.4.1 - 3(Neck Seaming Clearance) |
- |
31500 |
|
- |
6.4.1 - 3(Brimful Capacity) |
- |
31500 |
|
- |
6.4.2-4(Can End Size) |
- |
31500 |
|
- |
6.4.2-4(Outside Curl Diameter) |
- |
31500 |
|
- |
6.4.2-4(Punch Plug Diameter) |
- |
31500 |
|
- |
6.4.2-4(Curl Height) |
- |
31500 |
|
- |
6.4.2-4(Inside Curl Diameter) |
- |
31500 |
|
- |
6.4.2-4(Countersink Depth) |
- |
31500 |
|
- |
6.4.2-4(Panel Height) |
- |
31500 |
|
- |
7.1.1(Top Load /Axial Load /Column Strength) |
- |
31500 |
|
- |
7.1.2(Enamel Rater Criteria) |
- |
31500 |
|
- |
7.1.3(Buckle Strength/Dome Reversal) |
- |
31500 |
|
- |
7.1.4(Air Pressure Test) |
- |
31500 |
|
- |
7.1.5(Slip Angle Test/Wall Mobility Test) |
- |
31500 |
|
- |
7.2(Testing of Ends) |
- |
31500 |
|
- |
7.3.1(Overall Migration Limit) |
- |
31500 |
|
- |
7.3.2(Specific Migration Limit) |
- |
31500 |
|
- |
7.3.2 - 5 - 1(Barium) |
- |
31500 |
|
- |
7.3.2 - 5 - 2(Cobalt) |
- |
31500 |
|
- |
7.3.2 - 5 - 3(Copper) |
- |
31500 |
|
- |
7.3.2 - 5 - 4(Iron) |
- |
31500 |
|
- |
7.3.2 - 5 - 5(Lithium) |
- |
31500 |
|
- |
7.3.2 - 5 - 6(Manganese) |
- |
31500 |
|
- |
7.3.2 - 5 - 7(Zinc) |
- |
31500 |
|
- |
7.3.2 - 5 - 8(Antimony) |
- |
31500 |
|
- |
7.3.2 - 5 - 9("Phthalic acid, bis (2-ethylhexyl)ester
(DEHP)") |
- |
31500 |
|
- |
9(Marking) |
- |
31500 |
|
- |
7.2(Capacity) |
- |
31500 |
|
- |
7.3(Impact Resistance test) |
- |
31500 |
|
- |
6.4.2-4(Can End Type) |
- |
31500 |
|
- |
5.3-2A&B(0.2 % Proof Stress) |
- |
31500 |
|
- |
4(Capacity) |
- |
0 |
|
- |
5(Material) |
- |
0 |
|
- |
5.1-1A&B-1(Copper) |
- |
0 |
|
- |
5.1-1A&B-2(Magnesium) |
- |
0 |
|
- |
5.1-1A&B-3(Silicon) |
- |
0 |
|
- |
5.1-1A&B-4(Iron) |
- |
0 |
|
- |
5.1-1A&B-5(Manganese) |
- |
0 |
|
- |
5.1-1A&B-6(Zinc) |
- |
0 |
|
- |
5.1-1A&B-7(Titanium) |
- |
0 |
|
- |
5.1-1A&B-8(Chromium) |
- |
0 |
|
- |
5.1-1A&B-9(Gallium) |
- |
0 |
|
- |
5.1-1A&B-10(Vanadium) |
- |
0 |
|
- |
5.1-1A&B-11(Other total) |
- |
0 |
|
- |
5.1-1A&B-12(Aluminium) |
- |
0 |
|
- |
5.2 -6 Annex B-2.2(Determination of HX8 Minimum Tensile Strength) |
- |
0 |
|
- |
5.3-2A&B(Temper) |
- |
0 |
|
- |
5.3-2A&B(Specified Thickness) |
- |
0 |
|
- |
5.3-2A&B(Tensile Strength) |
- |
0 |
|
- |
5.3-2A&B(Elongation) |
- |
0 |
|
- |
5.3-2A&B(Bend Test) |
- |
0 |
|
- |
6.1.1(Manufacture - Can Body) |
- |
0 |
|
- |
6.1.2(Manufacture - Can Ends) |
- |
0 |
|
- |
6.2(Internal Finish) |
- |
0 |
|
- |
6.3(External Coating) |
- |
0 |
|
- |
6.3.1(Bottom Rim Coating) |
- |
0 |
|
- |
6.3.2(Pasteurisation and Retort Coating) |
- |
0 |
|
- |
6.4(Shape and Dimensions) |
- |
0 |
|
- |
6.4.1 - 3(Shape and Dimensions) |
- |
0 |
|
- |
6.4.1 - 3(Nominal Capacity) |
- |
0 |
|
- |
6.4.1 - 3(Can Type) |
- |
0 |
|
- |
6.4.1 - 3(Finished Can Height) |
- |
0 |
|
- |
6.4.1 - 3(Inside Neck/Plug Diameter) |
- |
0 |
|
- |
6.4.1 - 3(Outside Can Diameter) |
- |
0 |
|
- |
6.4.1 - 3(Free Board) |
- |
0 |
|
- |
6.4.1 - 3(Neck Seaming Clearance) |
- |
0 |
|
- |
6.4.1 - 3(Brimful Capacity) |
- |
0 |
|
- |
6.4.2-4(Can End Size) |
- |
0 |
|
- |
6.4.2-4(Outside Curl Diameter) |
- |
0 |
|
- |
6.4.2-4(Punch Plug Diameter) |
- |
0 |
|
- |
6.4.2-4(Curl Height) |
- |
0 |
|
- |
6.4.2-4(Inside Curl Diameter) |
- |
0 |
|
- |
6.4.2-4(Countersink Depth) |
- |
0 |
|
- |
6.4.2-4(Panel Height) |
- |
0 |
|
- |
7.1.1(Top Load /Axial Load /Column Strength) |
- |
0 |
|
- |
7.1.2(Enamel Rater Criteria) |
- |
0 |
|
- |
7.1.3(Buckle Strength/Dome Reversal) |
- |
0 |
|
- |
7.1.4(Air Pressure Test) |
- |
0 |
|
- |
7.1.5(Slip Angle Test/Wall Mobility Test) |
- |
0 |
|
- |
7.2(Testing of Ends) |
- |
0 |
|
- |
7.3.1(Overall Migration Limit) |
- |
0 |
|
- |
7.3.2(Specific Migration Limit) |
- |
0 |
|
- |
7.3.2 - 5 - 1(Barium) |
- |
0 |
|
- |
7.3.2 - 5 - 2(Cobalt) |
- |
0 |
|
- |
7.3.2 - 5 - 3(Copper) |
- |
0 |
|
- |
7.3.2 - 5 - 4(Iron) |
- |
0 |
|
- |
7.3.2 - 5 - 5(Lithium) |
- |
0 |
|
- |
7.3.2 - 5 - 6(Manganese) |
- |
0 |
|
- |
7.3.2 - 5 - 7(Zinc) |
- |
0 |
|
- |
7.3.2 - 5 - 8(Antimony) |
- |
0 |
|
- |
7.3.2 - 5 - 9("Phthalic acid, bis (2-ethylhexyl)ester
(DEHP)") |
- |
0 |
|
- |
9(Marking) |
- |
0 |
|
- |
7.2(Capacity) |
- |
0 |
|
- |
7.3(Impact Resistance test) |
- |
0 |
|
- |
6.4.2-4(Can End Type) |
- |
0 |
|
- |
5.3-2A&B(0.2 % Proof Stress) |
- |
0 |
|
- |
|
15 May, 2027 |
- Included w.e.f.29.05.2025 |
26 |
IS 13893 (1994) |
Polyurethane soles semirigid - specification |
- |
5500 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
4.1(Design) |
- |
150 |
|
EXCLUDING 18 % GST |
4.2 (Amendment 2)(Thickness) |
- |
150 |
|
- |
4.3.1 Table 1 i) (Amendment 2)(Relative Density) |
- |
300 |
|
- |
4.3.1 Table 1 iii) (Amendment 2)(Abrasion Resistance at applied force of 10 N) |
- |
600 |
|
- |
4.3.1 Table 1 iv) (Amendment 2)(Flexing Resistance, Bennewart method) |
- |
600 |
|
- |
4.3.1 Table 1 v) (Amendment 2)(Hydrolysis Resistance, cut growth after 150000 flexes) |
- |
2000 |
|
- |
4.3.1 Table 1 vi) (Amendment 2)(Tensile Strength) |
- |
500 |
|
- |
4.3.1 Table 1 vii) (Amendment 2)(Elongation at break) |
- |
200 |
|
- |
4.3.1 Table 1 viii) (Amendment 2)(Tear Strength (average force)) |
- |
500 |
|
- |
4.3.1 Table 1 ii) (Amendment 2)(Hardness, degree, Shore A) |
- |
500 |
|
- |
|
15 May, 2027 |
- Amendment No. 2 included w.e.f. 09.11.2024 |
27 |
IS 15298 : part 4 (2024) |
Personal Protective Equipment Part 4 Occupational Footwear (ISO 20347 : 2021, MOD) (Third Revision) |
Safety Shoes-Part-4 |
54000 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
Cl 5.2(Design) |
- |
150 |
|
10% Discount on BIS sample. |
Cl 5.2.2(" Height of upper
") |
- |
150 |
|
10% Discount on BIS sample. |
Cl 5.2.3(Heel area) |
- |
150 |
|
10% Discount on BIS sample. |
Cl 5.3.1.1(Construction of whole footwear) |
- |
200 |
|
10% Discount on BIS sample. |
Cl 5.3.1.2(Upper/outsole bond strength) |
- |
750 |
|
10% Discount on BIS sample. |
Cl 5.3.2(Leak proofness) |
- |
300 |
|
10% Discount on BIS sample. |
Cl 5.3.3(Specific ergonomic features) |
- |
600 |
|
10% Discount on BIS sample. |
Cl 5.3.4.2(Slip resistance on ceramic tile floor with sodium lauryl sulphate (NaLS) solution) |
- |
1500 |
|
10% Discount on BIS sample. |
Cl 5.3.5, Table no 1 of IS 17011,(i)(Allergenic and carcinogenic disperse dyes) |
- |
4500 |
|
10% Discount on BIS sample. |
Cl 5.3.5, Table no 1 of IS 17011 (ii)(Aromatic amines released from Azo dyes (each individual amine)) |
- |
2200 |
|
10% Discount on BIS sample. |
Cl 5.3.5, Table no 1 of IS 17011 (iii)(Aromatic amines released from Azo dyes (each individual amine)) |
- |
2200 |
|
10% Discount on BIS sample. |
Cl 5.3.5, Table no 1 of IS 17011 (iv)(Chromium (VI)) |
- |
1200 |
|
10% Discount on BIS sample. |
Cl 5.3.5, Table no 1 of IS 17011 (v)(Dimethyl fumarate (DMFU)) |
- |
2400 |
|
10% Discount on BIS sample. |
Cl 5.3.5, Table no1 of IS 17011 (vi)(Formaldehyde (free or released by partial hydrolysis)) |
- |
1000 |
|
10% Discount on BIS sample. |
Cl 5.3.5, Table no 1 of IS 17011 (vii)(Formaldehyde) |
- |
1000 |
|
10% Discount on BIS sample. |
Cl 5.3.5, Table no 1 of IS 17011 (viii)(Organotin compounds) |
- |
4500 |
|
10% Discount on BIS sample. |
Cl 5.3.5, Table no 1 of IS 17011 (ix)(PCP-TeCP-TriCP polychlorophenols) |
- |
2400 |
|
10% Discount on BIS sample. |
Cl 5.3.5, Table no 1 of IS 17011 (x)(pH) |
- |
300 |
|
10% Discount on BIS sample. |
Cl 5.3.5, Table no 1 of IS 17011 (xi)(Phthalates (each individual phthalate)) |
- |
2800 |
|
10% Discount on BIS sample. |
Cl 5.3.5, Table no 1 of IS 17011 (xii)(Nickel, on skin contact) |
- |
1500 |
|
10% Discount on BIS sample. |
Cl 5.3.6(Seam strength) |
- |
750 |
|
10% Discount on BIS sample. |
Cl 5.3.7(Lead Content ( National Annex A)) |
- |
1000 |
|
10% Discount on BIS sample. |
Cl 5.4.1.1(Class I footwear, determination of the area where upper requirements apply of Upper) |
- |
400 |
|
10% Discount on BIS sample. |
Cl 5.4.1.2(Hybrid footwear, determination of the area where upper requirements apply of Upper) |
- |
400 |
|
10% Discount on BIS sample. |
Cl 5.4.2(Thickness) |
- |
200 |
|
10% Discount on BIS sample. |
Cl 5.4.3(Tear strength) |
- |
500 |
|
10% Discount on BIS sample. |
Cl 5.4.4, Table 9(Tensile properties- Tensile strength) |
- |
500 |
|
10% Discount on BIS sample. |
Cl 5.4.4, Table 9(Tensile properties- Breaking Force) |
- |
500 |
|
10% Discount on BIS sample. |
Cl 5.4.4, Table 9(Tensile properties-Modulus at 100 % elongation) |
- |
500 |
|
10% Discount on BIS sample. |
Cl 5.4.4, Table 9(Tensile properties- Elongation at break) |
- |
500 |
|
10% Discount on BIS sample. |
Cl 5.4.5(Flexing resistance) |
- |
600 |
|
10% Discount on BIS sample. |
Cl 5.4.6(Water vapour permeability and coefficient) |
- |
700 |
|
10% Discount on BIS sample. |
Cl 5.4.7(Resistance to hydrolysis) |
- |
1000 |
|
10% Discount on BIS sample. |
Cl 5.5.2(Lining- Tear strength) |
- |
450 |
|
10% Discount on BIS sample. |
Cl 5.5.3(Lining- Abrasion resistance) |
- |
600 |
|
10% Discount on BIS sample. |
Cl 5.5.4(Lining-Water vapour permeability and coefficient) |
- |
700 |
|
10% Discount on BIS sample. |
Cl 5.6.2(Tear strength of tongue) |
- |
500 |
|
10% Discount on BIS sample. |
Cl 5.7.1(Thickness of Insole, insock and footbed) |
- |
200 |
|
10% Discount on BIS sample. |
Cl 5.7.2(Water permeability of insock) |
- |
500 |
|
10% Discount on BIS sample. |
Cl 5.7.3(Water absorption and desorption of Insole, insock and footbed) |
- |
800 |
|
10% Discount on BIS sample. |
Cl 5.7.4.1(Abrasion resistance of Insoles) |
- |
600 |
|
10% Discount on BIS sample. |
Cl 5.7.4.2(Abrasion resistance of Insocks) |
- |
600 |
|
10% Discount on BIS sample. |
Cl 5.8.2.1(Thickness of Outsole) |
- |
200 |
|
10% Discount on BIS sample. |
Cl 5.8.2.2(Cleated area) |
- |
150 |
|
10% Discount on BIS sample. |
Cl 5.8.2.3(Cleat height) |
- |
150 |
|
10% Discount on BIS sample. |
Cl 5.8.3(Outsole- Tear strength) |
- |
500 |
|
10% Discount on BIS sample. |
Cl 5.8.4(Outsole- Abrasion resistance) |
- |
700 |
|
10% Discount on BIS sample. |
Cl 5.8.5(Outsole-Flexing resistance) |
- |
700 |
|
10% Discount on BIS sample. |
Cl 5.8.6(Outsole-Resistance to hydrolysis) |
- |
1000 |
|
10% Discount on BIS sample. |
Cl 5.8.7(Interlayer bond strength) |
- |
450 |
|
10% Discount on BIS sample. |
Cl 6.2.1.1.2(Metallic perforation-resistant inserts (Type P)) |
- |
500 |
|
10% Discount on BIS sample. |
Cl 6.2.1.1.3(Non-metallic perforation-resistant inserts and insoles (Type PL)) |
- |
500 |
|
10% Discount on BIS sample. |
Cl 6.2.1.1.4(Non-metallic perforation-resistant inserts and insoles (Type PS)) |
- |
500 |
|
10% Discount on BIS sample. |
Cl 6.2.1.2(Construction of perforation resistant insert) |
- |
200 |
|
10% Discount on BIS sample. |
Cl 6.2.1.3(Dimensions of perforation resistant insert) |
- |
200 |
|
10% Discount on BIS sample. |
Cl 6.2.1.4.1(Flex resistance of perforation-resistant inserts) |
- |
600 |
|
10% Discount on BIS sample. |
Cl 6.2.1.4.2.1(ISO 20344:2021, 5.11.2) |
- |
500 |
|
10% Discount on BIS sample. |
Cl 6.2.1.4.2.2(ISO 20344:2021, 5.6.2.1) |
- |
500 |
|
10% Discount on BIS sample. |
Cl 6.2.1.4.3(Stability against ageing and environmental influence of non-metallic perforationresistant inserts) |
- |
700 |
|
10% Discount on BIS sample. |
Cl 6.2.2.1(Electrical properties of Partially conductive footwear) |
- |
1500 |
|
10% Discount on BIS sample. |
Cl 6.2.2.2(Electrical properties of Antistatic footwear) |
- |
1500 |
|
10% Discount on BIS sample. |
Cl 6.2.3.1(Heat insulation of outsole complex) |
- |
600 |
|
10% Discount on BIS sample. |
Cl 6.2.3.2(Cold insulation of outsole complex) |
- |
600 |
|
10% Discount on BIS sample. |
Cl 6.2.4(Energy absorption of seat region) |
- |
450 |
|
10% Discount on BIS sample. |
Cl 6.2.5(Water resistance) |
- |
300 |
|
10% Discount on BIS sample. |
Cl 6.2.6(Ankle protection) |
- |
450 |
|
10% Discount on BIS sample. |
Cl 6.2.7.1(Cut resistance footwear- design) |
- |
200 |
|
10% Discount on BIS sample. |
Cl 6.2.7.2(Dimensions and construction of protective area of Cut resistance footwear) |
- |
200 |
|
10% Discount on BIS sample. |
Cl 6.2.7.3(Resistance to cutting) |
- |
450 |
|
10% Discount on BIS sample. |
Cl 6.2.8(Scuff cap) |
- |
600 |
|
10% Discount on BIS sample. |
Cl 6.2.9("Slip resistance on ceramic tile floor with glycerine
") |
- |
1500 |
|
10% Discount on BIS sample. |
Cl 6.3(Upper — Water penetration and absorption) |
- |
300 |
|
10% Discount on BIS sample. |
Cl 6.4.1(Resistance to hot contact - Outsole) |
- |
300 |
|
10% Discount on BIS sample. |
Cl 6.4.3.1(Mechanical properties of Ladder grip) |
- |
500 |
|
10% Discount on BIS sample. |
Cl 6.4.3.2(Design of Ladder grip) |
- |
200 |
|
10% Discount on BIS sample. |
Cl 6.4.3.3(Cleat height in the waist area of Ladder grip) |
- |
200 |
|
10% Discount on BIS sample. |
Cl 6.4.3.4(Heel breast of Ladder grip) |
- |
200 |
|
10% Discount on BIS sample. |
Cl 7("Marking
") |
- |
200 |
|
10% Discount on BIS sample. |
Cl 6.4.2(Resistance to fuel oil - Outsole) |
- |
300 |
|
10% Discount on BIS sample. |
|
15 May, 2027 |
- Included w.e.f 28.05.2025 |
28 |
IS 15298 : Part 3 (2024) |
Personal Protective Equipment Part 3 Protective Footwear (ISO 20346 : 2021, MOD) (Third Revision) |
Safety Footwear -Part 3 |
56000 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
Cl 5.2(Design) |
- |
150 |
|
10% Discount on BIS sample. |
Cl 5.2.2(" Height of upper
") |
- |
150 |
|
10% Discount on BIS sample. |
Cl 5.2.3(Heel area) |
- |
150 |
|
10% Discount on BIS sample. |
Cl 5.3.1.1(Construction of whole footwear) |
- |
200 |
|
10% Discount on BIS sample. |
Cl 5.3.1.2(Upper/outsole bond strength) |
- |
700 |
|
10% Discount on BIS sample. |
Cl 5.3.2.1(Toe protection - general) |
- |
150 |
|
10% Discount on BIS sample. |
Cl 5.3.2.2(Internal length) |
- |
150 |
|
10% Discount on BIS sample. |
Cl 5.3.2.3(Width of toecap flange) |
- |
150 |
|
10% Discount on BIS sample. |
Cl 5.3.2.4.1(Corrosion resistance of Class I footwear and hybrid mounted footwear) |
- |
500 |
|
10% Discount on BIS sample. |
Cl 5.3.2.4.2(Corrosion resistance of Class II and hybrid moulded footwear) |
- |
500 |
|
10% Discount on BIS sample. |
Cl 5.3.2.5(Behaviour of toecaps (thermal and chemical) of Corrosion resistance) |
- |
500 |
|
10% Discount on BIS sample. |
Cl 5.3.2.6(Impact resistance) |
- |
400 |
|
10% Discount on BIS sample. |
Cl 5.3.2.7(Compression resistance) |
- |
400 |
|
10% Discount on BIS sample. |
Cl 5.3.3(Leak proofness) |
- |
300 |
|
10% Discount on BIS sample. |
Cl 5.3.4("Specific ergonomic features
") |
- |
600 |
|
10% Discount on BIS sample. |
Cl 5.3.5.2(Slip resistance on ceramic tile floor with sodium lauryl sulphate (NaLS) solution) |
- |
1500 |
|
10% Discount on BIS sample. |
Cl 5.3.6, Table no 1 of IS 17011 (i)(Allergenic and carcinogenic disperse dyes) |
- |
4500 |
|
10% Discount on BIS sample. |
Cl 5.3.6, Table no 1 of IS 17011 (ii)(Aromatic amines released from Azo dyes (each individual amine)) |
- |
2200 |
|
10% Discount on BIS sample. |
Cl 5.3.6, Table no 1 of IS 17011 (iii)(Aromatic amines released from Azo dyes (each individual amine)) |
- |
2200 |
|
10% Discount on BIS sample. |
Cl 5.3.6, Table no 1 of IS 17011 (iv)(Chromium (VI)) |
- |
1200 |
|
10% Discount on BIS sample. |
Cl 5.3.6, Table no 1 of IS 17011 (v)(Dimethyl fumarate (DMFU)) |
- |
2400 |
|
10% Discount on BIS sample. |
Cl 5.3.6, Table no1 of IS 17011 (vi)(Formaldehyde (free or released by partial hydrolysis)) |
- |
1000 |
|
10% Discount on BIS sample. |
Cl 5.3.6, Table no 1 of IS 17011 (vii)(Formaldehyde) |
- |
1000 |
|
10% Discount on BIS sample. |
Cl 5.3.6, Table no 1 of IS 17011 (viii)(Organotin compounds) |
- |
4500 |
|
10% Discount on BIS sample. |
Cl 5.3.6, Table no 1 of IS 17011 (ix)(PCP-TeCP-TriCP polychlorophenols) |
- |
2400 |
|
10% Discount on BIS sample. |
Cl 5.3.6, Table no 1 of IS 17011 (x)(pH) |
- |
300 |
|
10% Discount on BIS sample. |
Cl 5.3.6, Table no 1 of IS 17011 (xi)(Phthalates (each individual phthalate)) |
- |
2800 |
|
10% Discount on BIS sample. |
Cl 5.3.6, Table no 1 of IS 17011 (xii)(Nickel, on skin contact) |
- |
1500 |
|
10% Discount on BIS sample. |
Cl 5.3.7(Seam strength) |
- |
700 |
|
10% Discount on BIS sample. |
Cl 5.3.8(Lead Content ( National Annex A)) |
- |
1000 |
|
10% Discount on BIS sample. |
Cl 5.4.1.1(Class I footwear, determination of the area where upper requirements apply of Upper) |
- |
150 |
|
10% Discount on BIS sample. |
Cl 5.4.1.2(Hybrid footwear, determination of the area where upper requirements apply of Upper) |
- |
150 |
|
10% Discount on BIS sample. |
Cl 5.4.2(Thickness) |
- |
200 |
|
10% Discount on BIS sample. |
Cl 5.4.3(Tear strength) |
- |
500 |
|
10% Discount on BIS sample. |
Cl 5.4.4, Table 11(Tensile properties- Tensile strength) |
- |
450 |
|
10% Discount on BIS sample. |
Cl 5.4.4, Table 11(Tensile properties- Breaking Force) |
- |
450 |
|
10% Discount on BIS sample. |
Cl 5.4.4, Table 11(Tensile properties-Modulus at 100 % elongation) |
- |
450 |
|
10% Discount on BIS sample. |
Cl 5.4.4, Table 11(Tensile properties- Elongation at break) |
- |
450 |
|
10% Discount on BIS sample. |
Cl 5.4.4, Table 11(Tensile properties- Elongation at break) |
- |
450 |
|
10% Discount on BIS sample. |
Cl 5.4.6(Water vapour permeability and coefficient) |
- |
450 |
|
10% Discount on BIS sample. |
Cl 5.4.7(Resistance to hydrolysis) |
- |
3000 |
|
10% Discount on BIS sample. |
Cl 5.5.2(Lining- Tear strength) |
- |
450 |
|
10% Discount on BIS sample. |
Cl 5.5.3(Lining- Abrasion resistance) |
- |
900 |
|
10% Discount on BIS sample. |
Cl 5.5.4(Lining-Water vapour permeability and coefficient) |
- |
450 |
|
10% Discount on BIS sample. |
Cl 5.6.2(Tear strength of tongue) |
- |
450 |
|
10% Discount on BIS sample. |
Cl 5.7.1(Thickness of Insole, insock and footbed) |
- |
200 |
|
10% Discount on BIS sample. |
Cl 5.7.2(Water permeability of insock) |
- |
450 |
|
10% Discount on BIS sample. |
Cl 5.7.3(Water absorption and desorption of Insole, insock and footbed) |
- |
800 |
|
10% Discount on BIS sample. |
Cl 5.7.4.1(Abrasion resistance of Insoles) |
- |
900 |
|
10% Discount on BIS sample. |
Cl 5.7.4.2(Abrasion resistance of Insocks) |
- |
900 |
|
10% Discount on BIS sample. |
Cl 5.8.2.1(Thickness of Outsole) |
- |
200 |
|
10% Discount on BIS sample. |
Cl 5.8.2.2(Cleated area) |
- |
150 |
|
10% Discount on BIS sample. |
Cl 5.8.2.3(Cleat height) |
- |
150 |
|
10% Discount on BIS sample. |
Cl 5.8.3(Outsole- Tear strength) |
- |
450 |
|
10% Discount on BIS sample. |
Cl 5.8.4(Outsole- Abrasion resistance) |
- |
900 |
|
10% Discount on BIS sample. |
Cl 5.8.5(Outsole-Flexing resistance) |
- |
1000 |
|
10% Discount on BIS sample. |
Cl 5.8.6(Outsole-Resistance to hydrolysis) |
- |
3000 |
|
10% Discount on BIS sample. |
Cl 5.8.7(Interlayer bond strength) |
- |
450 |
|
10% Discount on BIS sample. |
Cl 6.2.1.1.2(Metallic perforation-resistant inserts (Type P)) |
- |
450 |
|
10% Discount on BIS sample. |
Cl 6.2.1.1.3(Non-metallic perforation-resistant inserts and insoles (Type PL)) |
- |
450 |
|
10% Discount on BIS sample. |
Cl 6.2.1.1.4(Non-metallic perforation-resistant inserts and insoles (Type PS)) |
- |
450 |
|
10% Discount on BIS sample. |
Cl 6.2.1.2(Construction of perforation resistant insert) |
- |
200 |
|
10% Discount on BIS sample. |
Cl 6.2.1.3(Dimensions of perforation resistant insert) |
- |
150 |
|
10% Discount on BIS sample. |
Cl 6.2.1.4.1(Flex resistance of perforation-resistant inserts) |
- |
600 |
|
10% Discount on BIS sample. |
Cl 6.2.1.4.2.1(Corrosion resistance of perforation resistant metallic insert for Class I footwear and hybrid mounted footwear) |
- |
250 |
|
10% Discount on BIS sample. |
Cl 6.2.1.4.2.2(Corrosion resistance of perforation resistant metallic insert for Class II footwear and hybrid moulded footwear) |
- |
250 |
|
10% Discount on BIS sample. |
Cl 6.2.1.4.3(Stability against ageing and environmental influence of non-metallic perforationresistant inserts) |
- |
1500 |
|
10% Discount on BIS sample. |
Cl 6.2.2.1(Electrical properties of Partially conductive footwear) |
- |
1500 |
|
10% Discount on BIS sample. |
Cl 6.2.2.2(Electrical properties of Antistatic footwear) |
- |
1500 |
|
10% Discount on BIS sample. |
Cl 6.2.3.1(Heat insulation of outsole complex) |
- |
600 |
|
10% Discount on BIS sample. |
Cl 6.2.3.2(Cold insulation of outsole complex) |
- |
600 |
|
10% Discount on BIS sample. |
Cl 6.2.4(Energy absorption of seat region) |
- |
450 |
|
10% Discount on BIS sample. |
Cl 6.2.5(Water resistance) |
- |
300 |
|
10% Discount on BIS sample. |
Cl 6.2.6.1(Metatarsal protection - Construction) |
- |
200 |
|
10% Discount on BIS sample. |
Cl 6.2.6.2("Metatarsal protection-Impact resistance of metatarsal protective device
") |
- |
400 |
|
10% Discount on BIS sample. |
Cl 6.2.7(Ankle protection) |
- |
800 |
|
10% Discount on BIS sample. |
Cl 6.2.8.2(Cut resistance footwear- design) |
- |
200 |
|
10% Discount on BIS sample. |
Cl 6.2.8.2(Dimensions and construction of protective area of Cut resistance footwear) |
- |
150 |
|
10% Discount on BIS sample. |
Cl 6.2.8.3(Resistance to cutting) |
- |
1000 |
|
10% Discount on BIS sample. |
Cl 6.2.9(Scuff cap) |
- |
500 |
|
10% Discount on BIS sample. |
Cl 6.2.10("Slip resistance on ceramic tile floor with glycerine
") |
- |
1500 |
|
10% Discount on BIS sample. |
Cl 6.3(Upper — Water penetration and absorption) |
- |
700 |
|
10% Discount on BIS sample. |
Cl 6.4.1(Resistance to hot contact - Outsole) |
- |
300 |
|
10% Discount on BIS sample. |
Cl 6.4.2(Resistance to fuel oil - Outsole) |
- |
300 |
|
10% Discount on BIS sample. |
Cl 6.4.3.1(Mechanical properties of Ladder grip) |
- |
1000 |
|
10% Discount on BIS sample. |
Cl 6.4.3.2(Design of Ladder grip) |
- |
200 |
|
10% Discount on BIS sample. |
Cl 6.4.3.3(Cleat height in the waist area of Ladder grip) |
- |
200 |
|
10% Discount on BIS sample. |
Cl 6.4.3.4(Heel breast of Ladder grip) |
- |
200 |
|
10% Discount on BIS sample. |
Cl 7("Marking
") |
- |
200 |
|
10% Discount on BIS sample. |
Cl 7("Marking
") |
- |
200 |
|
10% Discount on BIS sample. |
|
15 May, 2027 |
- Included w.e.f 03.03.2025 |
29 |
IS 15298 : Part 2 (2024) |
Personal Protective Equipment Part 2 Safety Footwear (ISO 20345 : 2021, MOD) (Third Revision) |
Safety Shoes (Class-I, Class-II and Hybrid footwear) |
5600 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
Cl 5.2(Design) |
- |
200 |
|
10% Discount on BIS sample. |
Cl 5.2.2, Table 4(" Height of upper
") |
- |
150 |
|
10% Discount on BIS sample. |
Cl 5.2.3(Heel area) |
- |
150 |
|
10% Discount on BIS sample. |
Cl 5.3.1.1(Construction of whole footwear) |
- |
100 |
|
10% Discount on BIS sample. |
Cl 5.3.1.2(Upper/outsole bond strength) |
- |
700 |
|
10% Discount on BIS sample. |
Cl 5.3.2.1(Toe protection - general) |
- |
150 |
|
10% Discount on BIS sample. |
Cl 5.3.2.2(Internal length) |
- |
200 |
|
10% Discount on BIS sample. |
Cl 5.3.2.3(Width of toecap flange) |
- |
200 |
|
10% Discount on BIS sample. |
Cl 5.3.2.4.1(Corrosion resistance of Class I footwear and hybrid mounted footwear) |
- |
150 |
|
10% Discount on BIS sample. |
Cl 5.3.2.4.2(Corrosion resistance of Class II and hybrid moulded footwear) |
- |
150 |
|
10% Discount on BIS sample. |
Cl 5.3.2.5(Behaviour of toecaps (thermal and chemical) of Corrosion resistance) |
- |
200 |
|
10% Discount on BIS sample. |
Cl 5.3.2.6(Impact resistance) |
- |
400 |
|
10% Discount on BIS sample. |
Cl 5.3.2.7(Compression resistance) |
- |
400 |
|
10% Discount on BIS sample. |
Cl 5.3.3(Leak proofness) |
- |
300 |
|
10% Discount on BIS sample. |
Cl 5.3.4("Specific ergonomic features
") |
- |
600 |
|
10% Discount on BIS sample. |
Cl 5.3.5.2, Table 7(Slip resistance on ceramic tile floor with sodium lauryl sulphate (NaLS) solution) |
- |
1500 |
|
10% Discount on BIS sample. |
Cl 5.3.6, Table no 1 of IS 17011,(i)(Allergenic and carcinogenic disperse dyes) |
- |
4500 |
|
10% Discount on BIS sample. |
Cl 5.3.6, Table no 1 of IS 17011 (ii)(Aromatic amines released from Azo dyes (each individual amine)) |
- |
2200 |
|
10% Discount on BIS sample. |
Cl 5.3.6, Table no 1 of IS 17011 (iii)(Aromatic amines released from Azo dyes (each individual amine)) |
- |
2200 |
|
10% Discount on BIS sample. |
Cl 5.3.6, Table no 1 of IS 17011 (iv)(Chromium (VI)) |
- |
1200 |
|
10% Discount on BIS sample. |
Cl 5.3.6, Table no 1 of IS 17011 (v)(Dimethyl fumarate (DMFU)) |
- |
2400 |
|
10% Discount on BIS sample. |
Cl 5.3.6, Table no1 of IS 17011 (vi)(Formaldehyde (free or released by partial hydrolysis)) |
- |
1000 |
|
10% Discount on BIS sample. |
Cl 5.3.6, Table no 1 of IS 17011 (vii)(Formaldehyde) |
- |
1000 |
|
10% Discount on BIS sample. |
Cl 5.3.6, Table no 1 of IS 17011 (viii)(Organotin compounds) |
- |
4500 |
|
10% Discount on BIS sample. |
Cl 5.3.6, Table no 1 of IS 17011 (ix)(PCP-TeCP-TriCP polychlorophenols) |
- |
2400 |
|
10% Discount on BIS sample. |
Cl 5.3.6, Table no 1 of IS 17011 (x)(pH) |
- |
300 |
|
10% Discount on BIS sample. |
Cl 5.3.6, Table no 1 of IS 17011 (xi)(Phthalates (each individual phthalate)) |
- |
2800 |
|
10% Discount on BIS sample. |
Cl 5.3.6, Table no 1 of IS 17011 (xii)(Nickel, on skin contact) |
- |
1500 |
|
10% Discount on BIS sample. |
Cl 5.3.7(Seam strength) |
- |
1000 |
|
10% Discount on BIS sample. |
Cl 5.3.8(Lead Content ( National Annex A)) |
- |
1000 |
|
10% Discount on BIS sample. |
Cl 5.4.1.1(Class I footwear, determination of the area where upper requirements apply of Upper) |
- |
150 |
|
10% Discount on BIS sample. |
Cl 5.4.1.2(Hybrid footwear, determination of the area where upper requirements apply of Upper) |
- |
450 |
|
10% Discount on BIS sample. |
Cl 5.4.2(Thickness) |
- |
450 |
|
10% Discount on BIS sample. |
Cl 5.4.3(Tear strength) |
- |
450 |
|
10% Discount on BIS sample. |
Cl 5.4.4, Table 11(Tensile properties- Tensile strength) |
- |
450 |
|
10% Discount on BIS sample. |
Cl 5.4.4, Table 11(Tensile properties- Breaking Force) |
- |
600 |
|
10% Discount on BIS sample. |
Cl 5.4.4, Table 11(Tensile properties-Modulus at 100 % elongation) |
- |
450 |
|
10% Discount on BIS sample. |
Cl 5.4.4, Table 11(Tensile properties- Elongation at break) |
- |
450 |
|
10% Discount on BIS sample. |
Cl 5.4.5(Flexing resistance) |
- |
600 |
|
10% Discount on BIS sample. |
Cl 5.4.6(Water vapour permeability and coefficient) |
- |
450 |
|
10% Discount on BIS sample. |
Cl 5.4.7(Resistance to hydrolysis) |
- |
3000 |
|
10% Discount on BIS sample. |
Cl 5.5.2(Lining- Tear strength) |
- |
450 |
|
10% Discount on BIS sample. |
Cl 5.5.3(Lining- Abrasion resistance) |
- |
450 |
|
10% Discount on BIS sample. |
Cl 5.6.2, Table 14(Tear strength of tongue) |
- |
450 |
|
10% Discount on BIS sample. |
Cl 5.7.1(Thickness of Insole, insock and footbed) |
- |
150 |
|
10% Discount on BIS sample. |
Cl 5.7.2(Water permeability of insock) |
- |
420 |
|
10% Discount on BIS sample. |
Cl 5.7.3(Water absorption and desorption of Insole, insock and footbed) |
- |
900 |
|
10% Discount on BIS sample. |
Cl 5.7.4.1(Abrasion resistance of Insoles) |
- |
900 |
|
10% Discount on BIS sample. |
Cl 5.7.4.2(Abrasion resistance of Insocks) |
- |
400 |
|
10% Discount on BIS sample. |
Cl 5.8.2.1, Table 15(Thickness of Outsole) |
- |
450 |
|
10% Discount on BIS sample. |
Cl 5.8.2.2(Cleated area) |
- |
800 |
|
10% Discount on BIS sample. |
Cl 5.8.2.3(Cleat height) |
- |
800 |
|
10% Discount on BIS sample. |
Cl 5.8.3(Outsole- Tear strength) |
- |
150 |
|
10% Discount on BIS sample. |
Cl 5.8.4(Outsole- Abrasion resistance) |
- |
150 |
|
10% Discount on BIS sample. |
Cl 5.8.5(Outsole-Flexing resistance) |
- |
450 |
|
10% Discount on BIS sample. |
Cl 5.8.6(Outsole-Resistance to hydrolysis) |
- |
900 |
|
10% Discount on BIS sample. |
Cl 5.8.7(Interlayer bond strength) |
- |
800 |
|
10% Discount on BIS sample. |
Cl 6.2.1.1.2(Metallic perforation-resistant inserts (Type P)) |
- |
300 |
|
10% Discount on BIS sample. |
Cl 6.2.1.1.3(Non-metallic perforation-resistant inserts and insoles (Type PL)) |
- |
700 |
|
10% Discount on BIS sample. |
Personal protective equipment: Part 2 safety footwear(Non-metallic perforation-resistant inserts and insoles (Type PS)) |
- |
450 |
|
10% Discount on BIS sample. |
Cl 6.2.1.2(Construction of perforation resistant insert) |
- |
450 |
|
10% Discount on BIS sample. |
Cl 6.2.1.3(Dimensions of perforation resistant insert) |
- |
450 |
|
10% Discount on BIS sample. |
Cl 6.2.1.4.1(Flex resistance of perforation-resistant inserts) |
- |
150 |
|
10% Discount on BIS sample. |
Cl 6.2.1.4.2.1(Corrosion resistance of perforation resistant metallic insert for Class I footwear and hybrid mounted footwear) |
- |
150 |
|
10% Discount on BIS sample. |
Cl 6.2.1.4.2.2(Corrosion resistance of perforation resistant metallic insert for Class II footwear and hybrid moulded footwear) |
- |
600 |
|
10% Discount on BIS sample. |
Cl 6.2.1.4.3(Stability against ageing and environmental influence of non-metallic perforationresistant inserts) |
- |
500 |
|
10% Discount on BIS sample. |
Cl 6.2.2.1(Electrical properties of Partially conductive footwear) |
- |
500 |
|
10% Discount on BIS sample. |
Cl 6.2.2.2(Electrical properties of Antistatic footwear) |
- |
1000 |
|
10% Discount on BIS sample. |
Cl 6.2.3.1(Heat insulation of outsole complex) |
- |
600 |
|
10% Discount on BIS sample. |
Cl 6.2.3.2(Cold insulation of outsole complex) |
- |
600 |
|
10% Discount on BIS sample. |
Cl 6.2.4(Energy absorption of seat region) |
- |
450 |
|
10% Discount on BIS sample. |
Cl 6.2.5(Water resistance) |
- |
300 |
|
10% Discount on BIS sample. |
Cl 6.2.6.1(Metatarsal protection - Construction) |
- |
450 |
|
10% Discount on BIS sample. |
Cl 6.2.6.2("Metatarsal protection-Impact resistance of metatarsal protective device
") |
- |
300 |
|
10% Discount on BIS sample. |
Cl 6.2.7(Ankle protection) |
- |
800 |
|
10% Discount on BIS sample. |
Cl 6.2.8.2(Cut resistance footwear- design) |
- |
450 |
|
10% Discount on BIS sample. |
Cl 6.2.8.2(Dimensions and construction of protective area of Cut resistance footwear) |
- |
150 |
|
10% Discount on BIS sample. |
Cl 6.2.8.3(Resistance to cutting) |
- |
150 |
|
10% Discount on BIS sample. |
Cl 6.2.9(Scuff cap) |
- |
900 |
|
10% Discount on BIS sample. |
Cl 6.2.10 , Table 19("Slip resistance on ceramic tile floor with glycerine
") |
- |
1500 |
|
10% Discount on BIS sample. |
Cl 6.3(Upper — Water penetration and absorption) |
- |
750 |
|
10% Discount on BIS sample. |
Cl 6.4.1(Resistance to hot contact - Outsole) |
- |
300 |
|
10% Discount on BIS sample. |
Cl 6.4.2(Resistance to fuel oil - Outsole) |
- |
300 |
|
10% Discount on BIS sample. |
Cl 6.4.3.1(Mechanical properties of Ladder grip) |
- |
1000 |
|
10% Discount on BIS sample. |
Cl 6.4.3.2(Design of Ladder grip) |
- |
1000 |
|
10% Discount on BIS sample. |
Cl 6.4.3.3(Cleat height in the waist area of Ladder grip) |
- |
150 |
|
10% Discount on BIS sample. |
Cl 6.4.3.4(Heel breast of Ladder grip) |
- |
200 |
|
10% Discount on BIS sample. |
Cl 7, Table 20("Marking
") |
- |
100 |
|
10% Discount on BIS sample. |
Cl 5.5.4(Lining-Water vapour permeability and coefficient) |
- |
450 |
|
10% Discount on BIS sample. |
Cl 5.2(Design) |
- |
0 |
|
Repeated Clause |
Cl 5.2.2, Table 4(" Height of upper
") |
- |
0 |
|
Repeated Clause |
Cl 5.2.3(Heel area) |
- |
0 |
|
Repeated Clause |
Cl 5.3.1.1(Construction of whole footwear) |
- |
0 |
|
Repeated Clause |
Cl 5.3.1.2(Upper/outsole bond strength) |
- |
0 |
|
Repeated Clause |
Cl 5.3.2.1(Toe protection - general) |
- |
0 |
|
Repeated Clause |
Cl 5.3.2.2(Internal length) |
- |
0 |
|
Repeated Clause |
Cl 5.3.2.3(Width of toecap flange) |
- |
0 |
|
Repeated Clause |
Cl 5.3.2.4.1(Corrosion resistance of Class I footwear and hybrid mounted footwear) |
- |
0 |
|
Repeated Clause |
Cl 5.3.2.4.2(Corrosion resistance of Class II and hybrid moulded footwear) |
- |
0 |
|
Repeated Clause |
Cl 5.3.2.5(Behaviour of toecaps (thermal and chemical) of Corrosion resistance) |
- |
0 |
|
Repeated Clause |
Cl 5.3.2.6(Impact resistance) |
- |
0 |
|
Repeated Clause |
Cl 5.3.2.7(Compression resistance) |
- |
0 |
|
Repeated Clause |
Cl 5.3.3(Leak proofness) |
- |
0 |
|
Repeated Clause |
Cl 5.3.4("Specific ergonomic features
") |
- |
0 |
|
Repeated Clause |
Cl 5.3.5.2, Table 7(Slip resistance on ceramic tile floor with sodium lauryl sulphate (NaLS) solution) |
- |
0 |
|
Repeated Clause |
Cl 5.3.6, Table no 1 of IS 17011,(i)(Allergenic and carcinogenic disperse dyes) |
- |
0 |
|
Repeated Clause |
Cl 5.3.6, Table no 1 of IS 17011 (ii)(Aromatic amines released from Azo dyes (each individual amine)) |
- |
0 |
|
Repeated Clause |
Cl 5.3.6, Table no 1 of IS 17011 (iii)(Aromatic amines released from Azo dyes (each individual amine)) |
- |
0 |
|
Repeated Clause |
Cl 5.3.6, Table no 1 of IS 17011 (iv)(Chromium (VI)) |
- |
0 |
|
Repeated Clause |
Cl 5.3.6, Table no 1 of IS 17011 (v)(Dimethyl fumarate (DMFU)) |
- |
0 |
|
Repeated Clause |
Cl 5.3.6, Table no1 of IS 17011 (vi)(Formaldehyde (free or released by partial hydrolysis)) |
- |
0 |
|
Repeated Clause |
Cl 5.3.6, Table no 1 of IS 17011 (vii)(Formaldehyde) |
- |
0 |
|
Repeated Clause |
Cl 5.3.6, Table no 1 of IS 17011 (viii)(Organotin compounds) |
- |
0 |
|
Repeated Clause |
Cl 5.3.6, Table no 1 of IS 17011 (ix)(PCP-TeCP-TriCP polychlorophenols) |
- |
0 |
|
Repeated Clause |
Cl 5.3.6, Table no 1 of IS 17011 (x)(pH) |
- |
0 |
|
Repeated Clause |
Cl 5.3.6, Table no 1 of IS 17011 (xi)(Phthalates (each individual phthalate)) |
- |
0 |
|
Repeated Clause |
Cl 5.3.6, Table no 1 of IS 17011 (xii)(Nickel, on skin contact) |
- |
0 |
|
Repeated Clause |
Cl 5.3.7(Seam strength) |
- |
0 |
|
Repeated Clause |
Cl 5.3.8(Lead Content ( National Annex A)) |
- |
0 |
|
Repeated Clause |
Cl 5.4.1.1(Class I footwear, determination of the area where upper requirements apply of Upper) |
- |
0 |
|
Repeated Clause |
Cl 5.4.1.2(Hybrid footwear, determination of the area where upper requirements apply of Upper) |
- |
0 |
|
Repeated Clause |
Cl 5.4.2(Thickness) |
- |
0 |
|
Repeated Clause |
Cl 5.4.3(Tear strength) |
- |
0 |
|
Repeated Clause |
Cl 5.4.4, Table 11(Tensile properties- Tensile strength) |
- |
0 |
|
Repeated Clause |
Cl 5.4.4, Table 11(Tensile properties- Breaking Force) |
- |
0 |
|
Repeated Clause |
Cl 5.4.4, Table 11(Tensile properties-Modulus at 100 % elongation) |
- |
0 |
|
Repeated Clause |
Cl 5.4.4, Table 11(Tensile properties- Elongation at break) |
- |
0 |
|
Repeated Clause |
Cl 5.4.5(Flexing resistance) |
- |
0 |
|
Repeated Clause |
Cl 5.4.6(Water vapour permeability and coefficient) |
- |
0 |
|
Repeated Clause |
Cl 5.4.7(Resistance to hydrolysis) |
- |
0 |
|
Repeated Clause |
Cl 5.5.2(Lining- Tear strength) |
- |
0 |
|
Repeated Clause |
Cl 5.5.3(Lining- Abrasion resistance) |
- |
0 |
|
Repeated Clause |
Cl 5.6.2, Table 14(Tear strength of tongue) |
- |
0 |
|
Repeated Clause |
Cl 5.7.1(Thickness of Insole, insock and footbed) |
- |
0 |
|
Repeated Clause |
Cl 5.7.2(Water permeability of insock) |
- |
0 |
|
Repeated Clause |
Cl 5.7.3(Water absorption and desorption of Insole, insock and footbed) |
- |
0 |
|
Repeated Clause |
Cl 5.7.4.1(Abrasion resistance of Insoles) |
- |
0 |
|
Repeated Clause |
Cl 5.7.4.2(Abrasion resistance of Insocks) |
- |
0 |
|
Repeated Clause |
Cl 5.8.2.1, Table 15(Thickness of Outsole) |
- |
0 |
|
Repeated Clause |
Cl 5.8.2.2(Cleated area) |
- |
0 |
|
Repeated Clause |
Cl 5.8.2.3(Cleat height) |
- |
0 |
|
Repeated Clause |
Cl 5.8.3(Outsole- Tear strength) |
- |
0 |
|
Repeated Clause |
Cl 5.8.4(Outsole- Abrasion resistance) |
- |
0 |
|
Repeated Clause |
Cl 5.8.5(Outsole-Flexing resistance) |
- |
0 |
|
Repeated Clause |
Cl 5.8.6(Outsole-Resistance to hydrolysis) |
- |
0 |
|
Repeated Clause |
Cl 5.8.7(Interlayer bond strength) |
- |
0 |
|
Repeated Clause |
Cl 6.2.1.1.2(Metallic perforation-resistant inserts (Type P)) |
- |
0 |
|
Repeated Clause |
Cl 6.2.1.1.3(Non-metallic perforation-resistant inserts and insoles (Type PL)) |
- |
0 |
|
Repeated Clause |
Personal protective equipment: Part 2 safety footwear(Non-metallic perforation-resistant inserts and insoles (Type PS)) |
- |
0 |
|
Repeated Clause |
Cl 6.2.1.2(Construction of perforation resistant insert) |
- |
0 |
|
Repeated Clause |
Cl 6.2.1.3(Dimensions of perforation resistant insert) |
- |
0 |
|
Repeated Clause |
Cl 6.2.1.4.1(Flex resistance of perforation-resistant inserts) |
- |
0 |
|
Repeated Clause |
Cl 6.2.1.4.2.1(Corrosion resistance of perforation resistant metallic insert for Class I footwear and hybrid mounted footwear) |
- |
0 |
|
Repeated Clause |
Cl 6.2.1.4.2.2(Corrosion resistance of perforation resistant metallic insert for Class II footwear and hybrid moulded footwear) |
- |
0 |
|
Repeated Clause |
Cl 6.2.1.4.3(Stability against ageing and environmental influence of non-metallic perforationresistant inserts) |
- |
0 |
|
Repeated Clause |
Cl 6.2.2.1(Electrical properties of Partially conductive footwear) |
- |
0 |
|
Repeated Clause |
Cl 6.2.2.2(Electrical properties of Antistatic footwear) |
- |
0 |
|
Repeated Clause |
Cl 6.2.3.1(Heat insulation of outsole complex) |
- |
0 |
|
Repeated Clause |
Cl 6.2.3.2(Cold insulation of outsole complex) |
- |
0 |
|
Repeated Clause |
Cl 6.2.4(Energy absorption of seat region) |
- |
0 |
|
Repeated Clause |
Cl 6.2.5(Water resistance) |
- |
0 |
|
Repeated Clause |
Cl 6.2.6.1(Metatarsal protection - Construction) |
- |
0 |
|
Repeated Clause |
Cl 6.2.6.2("Metatarsal protection-Impact resistance of metatarsal protective device
") |
- |
0 |
|
Repeated Clause |
Cl 6.2.7(Ankle protection) |
- |
0 |
|
Repeated Clause |
Cl 6.2.8.2(Cut resistance footwear- design) |
- |
0 |
|
Repeated Clause |
Cl 6.2.8.2(Dimensions and construction of protective area of Cut resistance footwear) |
- |
0 |
|
Repeated Clause |
Cl 6.2.8.3(Resistance to cutting) |
- |
0 |
|
Repeated Clause |
Cl 6.2.9(Scuff cap) |
- |
0 |
|
Repeated Clause |
Cl 6.2.10 , Table 19("Slip resistance on ceramic tile floor with glycerine
") |
- |
0 |
|
Repeated Clause |
Cl 6.3(Upper — Water penetration and absorption) |
- |
0 |
|
Repeated Clause |
Cl 6.4.1(Resistance to hot contact - Outsole) |
- |
0 |
|
Repeated Clause |
Cl 6.4.2(Resistance to fuel oil - Outsole) |
- |
0 |
|
Repeated Clause |
Cl 6.4.3.1(Mechanical properties of Ladder grip) |
- |
0 |
|
Repeated Clause |
Cl 6.4.3.2(Design of Ladder grip) |
- |
0 |
|
Repeated Clause |
Cl 6.4.3.3(Cleat height in the waist area of Ladder grip) |
- |
0 |
|
Repeated Clause |
Cl 6.4.3.4(Heel breast of Ladder grip) |
- |
0 |
|
Repeated Clause |
Cl 7, Table 20("Marking
") |
- |
0 |
|
Repeated Clause |
Cl 5.5.4(Lining-Water vapour permeability and coefficient) |
- |
0 |
|
Repeated Clause |
|
15 May, 2027 |
- Included w.e.f 28.05.2025 |
30 |
IS 17630 (2021) |
Medical Textiles Bedsheet and Pillow Cover Specification |
Medical Textile |
21000 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
5(WORKMANSHIP AND FINISH) |
- |
200 |
|
- |
6(GENERAL REQUIREMENTS - Fabric Washing & Tumble Drying) |
- |
300 |
|
- |
6- Table 1- i)(GENERAL REQUIREMENTS - Colour fastness to rubbing a) Dry 4 or better b) Wet) |
- |
500 |
|
- |
6- Table 1- ii)(GENERAL REQUIREMENTS - Colour fastness to perspiration (acidic and alkaline) a) Colour change b) Staining) |
- |
1000 |
|
- |
6- Table 1- iii)(GENERAL REQUIREMENTS - Colour fastness to washing a) Colour change b) Staining) |
- |
1000 |
|
- |
6- Table 1- iv)(GENERAL REQUIREMENTS - Colour fastness to light Color change) |
- |
500 |
|
- |
6- Table 1- v)(GENERAL REQUIREMENTS - Dimensional stability to washing, percentage Length and width) |
- |
500 |
|
- |
6- Table 1- vi)(GENERAL REQUIREMENTS - Pilling resistance) |
- |
500 |
|
- |
6- Table 1- vii)(GENERAL REQUIREMENTS - Scouring loss, percent, Max (for cotton)) |
- |
1000 |
|
- |
7.1- Table 2- i)(PERFORMANCE REQUIREMENTS - Tensile strength (dry and wet) (N)) |
- |
500 |
|
- |
7.1- Table 2- ii)(PERFORMANCE REQUIREMENTS - Bursting strength (dry and wet) (kPa)) |
- |
500 |
|
- |
7.1- Table 2- iii)(PERFORMANCE REQUIREMENTS - Seam strength (dry and wet) (N)) |
- |
500 |
|
- |
7.1- Table 2- iv)(PERFORMANCE REQUIREMENTS - pH) |
- |
1000 |
|
- |
7.1- Table 2- v)(PERFORMANCE REQUIREMENTS - Water soluble substance, percent) |
- |
1000 |
|
- |
7.1- Table 2- vi)(PERFORMANCE REQUIREMENTS - Cleanliness–microbial (CFU/100 cm2)) |
- |
2000 |
|
- |
7.1- Table 2- vii)(PERFORMANCE REQUIREMENTS - Particle release [log10 (lint count)]) |
- |
4000 |
|
- |
7.1- Table 2- ix)(PERFORMANCE REQUIREMENTS - Moisture vapour transmission rate (Max)) |
- |
0 |
|
This clause is under exclusion. |
7.2(The performance requirements of reusable products shall have to be met after declared wash and sterilization cycle) |
- |
500 |
|
- |
8.2(PACKAGING of Products STERILIZATION of Products) |
- |
500 |
|
- |
9(MARKING) |
- |
500 |
|
- |
5(WORKMANSHIP AND FINISH) |
- |
0 |
|
Repeated Clause. |
6(GENERAL REQUIREMENTS - Fabric Washing & Tumble Drying) |
- |
0 |
|
Repeated Clause. |
6- Table 1- i)(GENERAL REQUIREMENTS - Colour fastness to rubbing a) Dry 4 or better b) Wet) |
- |
0 |
|
Repeated Clause. |
6- Table 1- ii)(GENERAL REQUIREMENTS - Colour fastness to perspiration (acidic and alkaline) a) Colour change b) Staining) |
- |
0 |
|
Repeated Clause. |
6- Table 1- iii)(GENERAL REQUIREMENTS - Colour fastness to washing a) Colour change b) Staining) |
- |
0 |
|
Repeated Clause. |
6- Table 1- iv)(GENERAL REQUIREMENTS - Colour fastness to light Color change) |
- |
0 |
|
Repeated Clause. |
6- Table 1- v)(GENERAL REQUIREMENTS - Dimensional stability to washing, percentage Length and width) |
- |
0 |
|
Repeated Clause. |
6- Table 1- vi)(GENERAL REQUIREMENTS - Pilling resistance) |
- |
0 |
|
Repeated Clause. |
6- Table 1- vii)(GENERAL REQUIREMENTS - Scouring loss, percent, Max (for cotton)) |
- |
0 |
|
Repeated Clause. |
7.1- Table 2- i)(PERFORMANCE REQUIREMENTS - Tensile strength (dry and wet) (N)) |
- |
0 |
|
Repeated Clause. |
7.1- Table 2- ii)(PERFORMANCE REQUIREMENTS - Bursting strength (dry and wet) (kPa)) |
- |
0 |
|
Repeated Clause. |
7.1- Table 2- iii)(PERFORMANCE REQUIREMENTS - Seam strength (dry and wet) (N)) |
- |
0 |
|
Repeated Clause. |
7.1- Table 2- iv)(PERFORMANCE REQUIREMENTS - pH) |
- |
0 |
|
Repeated Clause. |
7.1- Table 2- v)(PERFORMANCE REQUIREMENTS - Water soluble substance, percent) |
- |
0 |
|
Repeated Clause. |
7.1- Table 2- vi)(PERFORMANCE REQUIREMENTS - Cleanliness–microbial (CFU/100 cm2)) |
- |
0 |
|
Repeated Clause. |
7.1- Table 2- vii)(PERFORMANCE REQUIREMENTS - Particle release [log10 (lint count)]) |
- |
0 |
|
Repeated Clause. |
7.1- Table 2- ix)(PERFORMANCE REQUIREMENTS - Moisture vapour transmission rate (Max)) |
- |
0 |
|
Repeated Clause. |
7.2(The performance requirements of reusable products shall have to be met after declared wash and sterilization cycle) |
- |
0 |
|
Repeated Clause. |
8.2(PACKAGING of Products STERILIZATION of Products) |
- |
0 |
|
Repeated Clause. |
9(MARKING) |
- |
0 |
|
Repeated Clause. |
5(WORKMANSHIP AND FINISH) |
- |
0 |
|
Repeated Clause. |
6(GENERAL REQUIREMENTS - Fabric Washing & Tumble Drying) |
- |
0 |
|
Repeated Clause. |
6- Table 1- i)(GENERAL REQUIREMENTS - Colour fastness to rubbing a) Dry 4 or better b) Wet) |
- |
0 |
|
Repeated Clause. |
6- Table 1- ii)(GENERAL REQUIREMENTS - Colour fastness to perspiration (acidic and alkaline) a) Colour change b) Staining) |
- |
0 |
|
Repeated Clause. |
6- Table 1- iii)(GENERAL REQUIREMENTS - Colour fastness to washing a) Colour change b) Staining) |
- |
0 |
|
Repeated Clause. |
6- Table 1- iv)(GENERAL REQUIREMENTS - Colour fastness to light Color change) |
- |
0 |
|
Repeated Clause. |
6- Table 1- v)(GENERAL REQUIREMENTS - Dimensional stability to washing, percentage Length and width) |
- |
0 |
|
Repeated Clause. |
6- Table 1- vi)(GENERAL REQUIREMENTS - Pilling resistance) |
- |
0 |
|
Repeated Clause. |
6- Table 1- vii)(GENERAL REQUIREMENTS - Scouring loss, percent, Max (for cotton)) |
- |
0 |
|
Repeated Clause. |
7.1- Table 2- i)(PERFORMANCE REQUIREMENTS - Tensile strength (dry and wet) (N)) |
- |
0 |
|
Repeated Clause. |
7.1- Table 2- ii)(PERFORMANCE REQUIREMENTS - Bursting strength (dry and wet) (kPa)) |
- |
0 |
|
Repeated Clause. |
7.1- Table 2- iii)(PERFORMANCE REQUIREMENTS - Seam strength (dry and wet) (N)) |
- |
0 |
|
Repeated Clause. |
7.1- Table 2- iv)(PERFORMANCE REQUIREMENTS - pH) |
- |
0 |
|
Repeated Clause. |
7.1- Table 2- v)(PERFORMANCE REQUIREMENTS - Water soluble substance, percent) |
- |
0 |
|
Repeated Clause. |
7.1- Table 2- vi)(PERFORMANCE REQUIREMENTS - Cleanliness–microbial (CFU/100 cm2)) |
- |
0 |
|
Repeated Clause. |
7.1- Table 2- vii)(PERFORMANCE REQUIREMENTS - Particle release [log10 (lint count)]) |
- |
0 |
|
Repeated Clause. |
7.1- Table 2- ix)(PERFORMANCE REQUIREMENTS - Moisture vapour transmission rate (Max)) |
- |
0 |
|
Repeated Clause. |
7.2(The performance requirements of reusable products shall have to be met after declared wash and sterilization cycle) |
- |
0 |
|
Repeated Clause. |
8.2(PACKAGING of Products STERILIZATION of Products) |
- |
0 |
|
Repeated Clause. |
9(MARKING) |
- |
0 |
|
Repeated Clause. |
5(WORKMANSHIP AND FINISH) |
- |
0 |
|
Repeated Clause. |
6(GENERAL REQUIREMENTS - Fabric Washing & Tumble Drying) |
- |
0 |
|
Repeated Clause. |
6- Table 1- i)(GENERAL REQUIREMENTS - Colour fastness to rubbing a) Dry 4 or better b) Wet) |
- |
0 |
|
Repeated Clause. |
6- Table 1- ii)(GENERAL REQUIREMENTS - Colour fastness to perspiration (acidic and alkaline) a) Colour change b) Staining) |
- |
0 |
|
Repeated Clause. |
6- Table 1- iii)(GENERAL REQUIREMENTS - Colour fastness to washing a) Colour change b) Staining) |
- |
0 |
|
Repeated Clause. |
6- Table 1- iv)(GENERAL REQUIREMENTS - Colour fastness to light Color change) |
- |
0 |
|
Repeated Clause. |
6- Table 1- v)(GENERAL REQUIREMENTS - Dimensional stability to washing, percentage Length and width) |
- |
0 |
|
Repeated Clause. |
6- Table 1- vi)(GENERAL REQUIREMENTS - Pilling resistance) |
- |
0 |
|
Repeated Clause. |
6- Table 1- vii)(GENERAL REQUIREMENTS - Scouring loss, percent, Max (for cotton)) |
- |
0 |
|
Repeated Clause. |
7.1- Table 2- i)(PERFORMANCE REQUIREMENTS - Tensile strength (dry and wet) (N)) |
- |
0 |
|
Repeated Clause. |
7.1- Table 2- ii)(PERFORMANCE REQUIREMENTS - Bursting strength (dry and wet) (kPa)) |
- |
0 |
|
Repeated Clause. |
7.1- Table 2- iii)(PERFORMANCE REQUIREMENTS - Seam strength (dry and wet) (N)) |
- |
0 |
|
Repeated Clause. |
7.1- Table 2- iv)(PERFORMANCE REQUIREMENTS - pH) |
- |
0 |
|
Repeated Clause. |
7.1- Table 2- v)(PERFORMANCE REQUIREMENTS - Water soluble substance, percent) |
- |
0 |
|
Repeated Clause. |
7.1- Table 2- vi)(PERFORMANCE REQUIREMENTS - Cleanliness–microbial (CFU/100 cm2)) |
- |
0 |
|
Repeated Clause. |
7.1- Table 2- vii)(PERFORMANCE REQUIREMENTS - Particle release [log10 (lint count)]) |
- |
0 |
|
Repeated Clause. |
7.1- Table 2- ix)(PERFORMANCE REQUIREMENTS - Moisture vapour transmission rate (Max)) |
- |
0 |
|
Repeated Clause. |
7.2(The performance requirements of reusable products shall have to be met after declared wash and sterilization cycle) |
- |
0 |
|
Repeated Clause. |
8.2(PACKAGING of Products STERILIZATION of Products) |
- |
0 |
|
Repeated Clause. |
9(MARKING) |
- |
0 |
|
Repeated Clause. |
|
15 May, 2027 |
- Included w.e.f.19.05.2025
Exclusion
7.1- Table 2- viii) (PERFORMANCE REQUIREMENTS - Biocompatibility Evaluation a) Cytotoxicity b) Irritation and skin sensitization)
7.1- Table 2- ix) (PERFORMANCE REQUIREMENTS - Moisture vapour transmission rate (Max)) |