BIS - LIMS (Laboratory Information Management System)

MSME TESTING CENTRE, CHENNAI

65/1, GST Road, Guindy, Chennai, Chennai, Tamil Nadu, 600032

9445662299 dctc-sr@dcmsme.gov.in

Scope List

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42 Results

S.No.

Indian Standard No.

Product

Grade / Type / Size / Designation etc.

Testing Charges (Excl. Of Taxes)

Validity Date

Remark

IS 11513 (2017)

Hot rolled carbon steel strip for cold rolling purposes - Specification (Second Revision)

4100 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
Cl 8(Workmanship)	-	0	NIL
Cl 9(Length, Width, Thickness, Crown, Edge Camber & Difference in Thickness Across Width )	-	360	NIL
6.1(Carbon %)	-	250	NIL
6.1(Manganese %)	-	250	NIL
6.1(Phosphorus %)	-	250	NIL
6.1(Sulphur %)	-	250	NIL
6.1(Silicon %)	-	250	NIL
6.1( Aluminium %)	-	250	NIL
6.1( Nb)	-	250	NIL
6.1(V)	-	250	NIL
6.1( Ti)	-	250	NIL
6.1(Boron)	-	250	NIL
6.1( Nitrogen%)	-	250	NIL
6.1(Microalloying)	-	250	NIL
Cl. 10(Weight)	-	360	NIL
Cl. 9.3(Crown)	-	0	NIL
Cl.9.3.1(Difference in Thickness)	-	0	NIL
Cl. 9.5(Edge Camber)	-	0	NIL
Cl.9(Thickness)	-	0	NIL
Cl.9(Width)	-	0	NIL

31 Dec, 2026

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-

IS 277 (2018)

Galvanized steel strips and sheets (Plain And Corrugated) - Specification (Seventh Revision)

3000 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
Cl 8.1(UTM)	-	600	NIL
Cl 10(Galvanising Test)	-	900	NIL
Cl 13(Weight)	-	600	NIL
Cl 14(Length, Width & Thickness)	-	600	NIL
7.4(Mass of Coating: Single Spot Test)	-	900	NIL
7.4(Mass of Coating: Triple Spot Test)	-	900	NIL
5.1(phosphorus)	-	250	NIL
5.1(copper)	-	250	NIL
5.1(nitrogen)	-	250	NIL
5.1(micro alloy)	-	250	NIL
5.1(aluminium)	-	250	NIL
5.1(silicon )	-	250	NIL
5.1(manganese)	-	250	NIL
5.1(sulphur)	-	250	NIL
5.1(Titanium)	-	250	NIL

31 Dec, 2026

-
-

IS 2004 (1991)

Carbon steel forgings for general engineering purposes - Specification (Third Revision)

4550 View breakup
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Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
7.1(Ladle Analysis)	-	2400	NIL
9.1 Table - 2 (i)(Tensile Strength Min (MPa))	-	350	NIL
9.1 Table - 2 (ii)(Yield Strength Min (MPa))	-	350	NIL
9.1 Table - 2 (iii)(Elongation Min, Percent)	-	350	NIL
9.1 Table - 2 (iv)(Hardness, percent)	-	500	NIL
12.1.2(Bend Test)	-	600	NIL

31 Dec, 2026

-
Exclusion: Cl.12.1.24 (Grain Flow), Cl.12.1.2.5 (Optional Tests), Cl.9.1 Table-2 (iv) (Hardness), Cl.9.1 Table-2 (v) (Normaliting Temperature)

IS 398 : Part 3 (1976)

Specification for aluminium conductors for overhead transmission purposes: Part 3 aluminium conductors, aluminized steel reinforced (Second Revision)

3150 View breakup
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Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
7.1 Table-1(Dimensional measurement of wires)	-	630	for 7 stands
12.2 Table 1(Breaking Load Test- Before Stranding)	-	1080	for 7 stands
12.2 Table 1(Breaking Load Test- After Stranding)	-	1080	for 7 stands
12.3 Table 1(Elongation Test- After Stranding)	-	450	for 7 stands
12.3 Table 1(Elongation Test- Before Stranding)	-	450	for 7 stands
12.4 Table 1(Resistance of Aluminium wire)	-	630	for 7 stands
9.2 Table 3(Lay Ratio of stranded conductors)	-	360	for 7 stands

31 Dec, 2026

-
-

IS 398 : Part 1 (1996)

Aluminium conductors for overhead transmission purposes - Specification: Part 1 aluminium stranded conductors (Third Revision)

All Size

7300 View breakup
(for 7 strands)

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
12.2, Table-1(Measurement of diameter of individual aluminium wire)	-	700	For 7 strand
12.3, Table-1(Breaking load before stranding)	-	1200	For 7 strand
12.3, Table-1(Breaking load after stranding)	-	1200	For 7 strand
12.4(Wrapping test)	-	700	For 7 strand
12.5, Table 1(Resistance test)	-	700	For 7 strand
12.6, Table 3(Measurement of lay ratio)	-	400	For 7 strand
9.3(Stranding)	-	100	For 7 strand
6(Freedom from defects)	-	100	For 7 strand
7.2.1(Sizes)	-	100	For 7 strand
8, 8.1, 8.2(Joint in wires, except during stranding)	-	500	For 7 strand
9.2(Lay ratio)	-	400	For 7 strand
4.1(Resistivity)	-	700	For 7 strand
4.2(Density)	-	500	For 7 strand

31 Dec, 2026

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-

IS 3975 (1999)

Low carbon galvanized steel wires, formed wires and tapes for armouring of cables - Specification (Third Revision)

6400 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
14 (a)(Marking)	-	100	OK
14 (b)(Marking)	-	100	OK
14 (c)(Marking)	-	100	OK
14 (d)(Marking)	-	100	OK
14 (e)(Marking)	-	100	OK
14 (f)(Marking)	-	100	OK
14 (g)(Marking)	-	100	OK
14.2(Marking)	-	100	OK
7(Dimensions)	-	250	OK
11(Freedom from defects)	-	249.97	OK
9.1(Galvanizing Requirements )	-	750	OK
9.2(Galvanizing Requirements )	-	1000	OK
9.3(Galvanizing Requirements )	-	1000	OK
8.1(Mechanical Properties (as per table 5 of IS 1608))	-	700	OK
8.2(Mechanical Properties (as per IS 1717))	-	600	OK
8.3(Mechanical Properties (as per IS 1755))	-	300	OK
8.4(Mechanical Properties (as per IS 10810(Part- 42)))	-	400	OK
Clause 6.1, Table-1(Sulphur)	-	300	OK
Clause 6.1, Table-1(Phosphorus)	-	300	OK
6.2( Nitrogen%)	-	250	OK
6.2(Phosphorus %)	-	250	OK
6.2(Sulphur %)	-	250	OK

31 Dec, 2026

-
-

IS 14543 (2024)

Packaged Drinking Water Other than Packaged Natural Mineral Water Specification Third Revision

24600 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
Cl-5.1(General Requirements)	-	0	-
5.2.1(Escherichia Coli)	-	300	-
Cl-5.2.1(Escherichia coli or thermotolerant bacteria)	-	600	-
5.2.2(Coliform)	-	300	-
Cl-5.2.2(Coliform)	-	300	-
5.2.3(Faecal Streptococci & Staphylococcus aureus)	-	800	-
Cl-5.2.3(Staphylococcus aureus)	-	400	-
Cl-5.2.3(Faecal streptococci)	-	400	-
5.2.4(Sulphite Reducing Anaerobes)	-	400	-
Cl-5.2.4(Sulphite Reducing Anaerobes)	-	400	-
5.2.5(Pseudomonas aeruginosa)	-	400	-
Cl-5.2.5(Pseudomonas Aeruginosa)	-	400	-
5.2.6(Aerobic Microbial Count @ 22 o C & 37o C)	-	200	-
Cl-5.2.6(Aerobic Microbial Count @ 37 deg C)	-	100	-
5.2.7(Yeast & Mould)	-	600	-
Cl-5.2.7(Yeast and mould)	-	600	-
5.2.8(Salmonella & Shigella)	-	1200	-
Cl-5.2.8(Salmonella)	-	600	-
Cl-5.2.8(shigella)	-	600	-
5.2.9(Vibrio Cholera & Vibrio parahaemolyicus)	-	1200	-
Cl-5.2.9(Vibrio cholera)	-	600	-
Cl-5.2.9(V.parahaemolyticus)	-	600	-
5.3/Table 1/i(Colour)	-	100	-
5.3/Table 1/ii(Odour)	-	50	-
Cl-5.3, Table-1 (ii)(Odour)	-	50	-
Cl-5.3, Table-1 (i)(Colour, true colour units, Max)	-	100	-
5.3/Table 1/iii(Taste)	-	50	-
Cl-5.3, Table-1 (iii)(Taste)	-	50	-
5.3/Table 1/iv(Turbidity)	-	100	-
Cl-5.3, Table-1 (iv)(Turbidity, nephelometric turbidity unit (NTU), Max)	-	100	-
5.3/Table 1/v(Total Dissolved Solids)	-	250	-
Cl-5.3, Table-1 (v)(Total dissolved solids, mg/l, Max)	-	250	-
5.3/Table 1/vi(pH)	-	100	-
Cl-5.3, Table-1 (vi)(pH)	-	100	-
5.3/Table 2/i(Barium)	-	250	-
Cl-5.3, Table-2 (i)(Barium (as Ba))	-	250	-
5.3/Table 2/ii(Copper)	-	250	-
Cl-5.3, Table-2 (ii)(Copper (as Cu))	-	250	-
5.3/Table 2/iii(Iron)	-	250	-
5.3/Table 2/iv(Maganese)	-	250	-
Cl-5.3, Table-2 (iv)(Manganese (as Mn))	-	250	-
5.3/Table 2/v(Nitrate)	-	250	-
Cl-5.3, Table-2 (v)(Nitrate (as NO3 ))	-	250	-
5.3/Table 2/vi(Nitrite)	-	250	-
Cl-5.3, Table-2 (vi)(Nitrite (as NO2 ))	-	250	-
5.3/Table 2/vii(Fluoride)	-	250	-
Cl-5.3, Table-2 (vii)(Fluoride (as F))	-	250	-
5.3/Table 2/viii(Zinc)	-	250	-
Cl-5.3, Table-2 (viii)(Zinc (as Zn))	-	250	-
5.3/Table 2/ix(Silver)	-	250	-
Cl-5.3, Table-2 (ix)(Silver (as Ag))	-	250	-
5.3/Table 2/x(Aluminium)	-	250	-
Cl-5.3, Table-2 (x)(Aluminium (as A1))	-	250	-
5.3/Table 2/xi(Chloride)	-	250	-
Cl-5.3, Table-2 (xi)(Chloride (as Cl))	-	250	-
5.3/Table 2/xii(Selenium)	-	250	-
Cl-5.3, Table-2 (xii)(Selenium (as Se))	-	250	-
5.3/Table 2/xiii(Suphate)	-	250	-
Cl-5.3, Table-2 (xiii)(Sulphate (as SO4 ))	-	250	-
5.3/Table 2/xiv(Alkalinity)	-	250	-
Cl-5.3, Table-2 (xiv)(Alkalinity (as HCO3 ))	-	250	-
5.3/Table 2/xv(Calcium)	-	250	-
Cl-5.3, Table-2 (xv)(Calcium (as Ca))	-	250	-
5.3/Table 2/xvi(Magnesium)	-	250	-
Cl-5.3, Table-2 (xvi)(Magnesium (as Mg))	-	250	-
5.3/Table 2/xvii(Sodium)	-	250	-
Cl-5.3, Table-2 (xvii)(Sodium (as Na))	-	250	-
5.3/Table 2/xviii(Residual Free Chlorine)	-	250	-
Cl-5.3, Table-2 (xviii)(Residual free chlorine)	-	250	-
5.3/Table 2/xix(Phenolic Compounds)	-	250	-
Cl-5.3, Table-2 (xix)(Phenolic compounds (as C6H5OH))	-	250	-
5.3/Table 2/xx(Mineral Oil)	-	250	-
Cl-5.3, Table-2 (xx)(Mineral oil)	-	250	-
5.3/Table 2/xxi(Anionic Surface- Active Agents as MBAS)	-	250	-
Cl-5.3, Table-2 (xxi)(Anionic surface active agents)	-	250	-
5.3/Table 2/xxii(Sulphide)	-	250	-
5.3/Table 2/xxiii(Antinomy)	-	250	-
Cl-5.3, Table-2 (xxiii)(Antimony (as Sb))	-	250	-
5.3/Table 2/xxiv(Borates)	-	250	-
Cl-5.3, Table-2 (xxiv)(Borates (as B))	-	250	-
5.3/Table 2/xxxv(Bromate)	-	250	-
Cl-5.3, Table-2 (xxv)(Bromates (as BrO3 ))	-	250	-
5.3/Table 3/i(Mercury)	-	250	-
Cl-5.3, Table-3 (i)(Mercury (as Hg))	-	250	-
5.3/Table 3/ii(Cadmium)	-	250	-
Cl-5.3, Table-3 (ii)(Cadmium (as Cd))	-	250	-
5.3/Table 3/iii(Arsenic)	-	250	-
Cl-5.3, Table-3 (iii)(Arsenic (as As))	-	250	-
5.3/Table 3/iv(Cyanide)	-	500	-
Cl-5.3, Table-3 (iv)(Cyanide (as CN))	-	500	-
5.3/Table 3/v(Lead)	-	250	-
5.3/Table 3/vi(Chromium)	-	250	-
Cl-5.3, Table-3 (vi)(Chromium (as Cr))	-	250	-
5.3/Table 3/vii(Nickel)	-	250	-
Cl-5.3, Table-3 (vii)(Nickel (as Ni))	-	250	-
5.3/Table 3/viii(Polyclorinated biphenyl (PCB))	-	650	-
Cl-5.3, Table-3 (viii)(Polychlorinated biphenyl (PCB))	-	650	-
5.3/Table 3/ix(Polynuclear Aromatic Hydrocarbons)	-	650	-
Cl-5.3, Table-3 (ix)(Polynuclear aromatic hydrocarbons)	-	650	-
5.3/Table 3/x(Uranium)	-	250	-
Cl-5.3, Table-3 (x)(Uranium)	-	250	-
Cl-5.3, Table-4 (i)(Alpha emitters, Becquerel (Bq/l))	-	2800	-
Cl-5.3, Table-4 (ii)(Beta emitters, Becquerel (Bq/l),)	-	2800	-
5.4/Annex D/i(P,P-DDT)	-	100	-
5.4/Annex D/i(O,P-DDT)	-	100	-
5.4/Annex D/i(O,P-DDD)	-	100	-
5.4/Annex D/i(P,P-DDE)	-	100	-
5.4/Annex D/i(O,P-DDE)	-	100	-
5.4/Annex D/i(P,P-DDD)	-	100	-
5.4/Annex D/ii(Lindane)	-	100	-
5.4/Annex D/iii(a-HCH)	-	100	-
5.4/Annex D/iii(d-HCH)	-	100	-
5.4/Annex D/iii(β- HCH)	-	100	-
5.4/Annex D/iv(b-Endosulfan)	-	100	-
5.4/Annex D/iv(a-Endosulfan)	-	100	-
5.4/Annex D/v(Monochrotophos)	-	100	-
5.4/Annex D/vi(Ethion)	-	100	-
5.4/Annex D/vii(Chlorpyrifos)	-	100	-
5.4/Annex D/viii(Phorate)	-	100	-
5.4/Annex D/viii(Phorate sulphoxide)	-	100	-
5.4/Annex D/viii(Phorate sulfone)	-	100	-
5.4/Annex D/ix(2,4 –D)	-	100	-
5.4/Annex D/x(Butachlor)	-	100	-
5.4/Annex D/xi(Isoproturon)	-	100	-
5.4/Annex D/xii(Alachlor)	-	100	-
5.4/Annex D/xiii(Atrazine)	-	100	-
5.4/Annex D/xiv(Methyl parathion)	-	100	-
5.4/Annex D/xv(Malathion)	-	100	-
5.4/Annex D/xvi(Aldrin)	-	100	-
5.4/Annex D/xvi(Dieldrin)	-	100	-
5.4/Annex D/iv(Endosulfan sulfate)	-	100	-
5.4/Annex D/xxvii(Methyl paraoxon)	-	100	-
5.4/Annex D/xxviii(Malaoxon)	-	100	-
5.4/Annex D/xxxi(Total Pesticide Residue)	-	100	-
Cl-5.3, Table-3 (v)(Lead (as Pb))	-	250	-
5.3(Appearance)	-	50	-
Cl-5.3, Table-2 (iii)(Iron (as Fe))	-	250	-
Cl-5.3, Table-2 (xxii)(Sulphide)	-	250	-
Cl-5.4 (i)(Pesticide residues considered individually)	-	100	-
Cl-5.4 (ii)(Total pesticide residue)	-	100	-
Cl-5.1(General Requirements)	-	0	-
5.2.1(Escherichia Coli)	-	300	-
Cl-5.2.1(Escherichia coli or thermotolerant bacteria)	-	300	-
5.2.2(Coliform)	-	300	-
Cl-5.2.2(Coliform)	-	300	-
5.2.3(Faecal Streptococci & Staphylococcus aureus)	-	800	-
Cl-5.2.3(Staphylococcus aureus)	-	400	-
Cl-5.2.3(Faecal streptococci)	-	400	-
5.2.4(Sulphite Reducing Anaerobes)	-	400	-
Cl-5.2.4(Sulphite Reducing Anaerobes)	-	400	-
5.2.5(Pseudomonas aeruginosa)	-	400	-
Cl-5.2.5(Pseudomonas Aeruginosa)	-	400	-
5.2.6(Aerobic Microbial Count @ 22 o C & 37o C)	-	200	-
Cl-5.2.6(Aerobic Microbial Count @ 37 deg C)	-	100	-
5.2.7(Yeast & Mould)	-	600	-
Cl-5.2.7(Yeast and mould)	-	600	-
5.2.8(Salmonella & Shigella)	-	1200	-
Cl-5.2.8(Salmonella)	-	600	-
Cl-5.2.8(shigella)	-	600	-
5.2.9(Vibrio Cholera & Vibrio parahaemolyicus)	-	1200	-
Cl-5.2.9(Vibrio cholera)	-	600	-
Cl-5.2.9(V.parahaemolyticus)	-	600	-
5.3/Table 1/i(Colour)	-	100	-
5.3/Table 1/ii(Odour)	-	50	-
Cl-5.3, Table-1 (ii)(Odour)	-	50	-
Cl-5.3, Table-1 (i)(Colour, true colour units, Max)	-	100	-
5.3/Table 1/iii(Taste)	-	50	-
Cl-5.3, Table-1 (iii)(Taste)	-	50	-
5.3/Table 1/iv(Turbidity)	-	100	-
Cl-5.3, Table-1 (iv)(Turbidity, nephelometric turbidity unit (NTU), Max)	-	100	-
5.3/Table 1/v(Total Dissolved Solids)	-	250	-
Cl-5.3, Table-1 (v)(Total dissolved solids, mg/l, Max)	-	250	-
5.3/Table 1/vi(pH)	-	100	-
Cl-5.3, Table-1 (vi)(pH)	-	100	-
5.3/Table 2/i(Barium)	-	250	-
Cl-5.3, Table-2 (i)(Barium (as Ba))	-	250	-
5.3/Table 2/ii(Copper)	-	250	-
Cl-5.3, Table-2 (ii)(Copper (as Cu))	-	250	-
5.3/Table 2/iii(Iron)	-	250	-
5.3/Table 2/iv(Maganese)	-	250	-
Cl-5.3, Table-2 (iv)(Manganese (as Mn))	-	250	-
5.3/Table 2/v(Nitrate)	-	250	-
Cl-5.3, Table-2 (v)(Nitrate (as NO3 ))	-	250	-
5.3/Table 2/vi(Nitrite)	-	250	-
Cl-5.3, Table-2 (vi)(Nitrite (as NO2 ))	-	250	-
5.3/Table 2/vii(Fluoride)	-	250	-
Cl-5.3, Table-2 (vii)(Fluoride (as F))	-	250	-
5.3/Table 2/viii(Zinc)	-	250	-
Cl-5.3, Table-2 (viii)(Zinc (as Zn))	-	250	-
5.3/Table 2/ix(Silver)	-	250	-
Cl-5.3, Table-2 (ix)(Silver (as Ag))	-	250	-
5.3/Table 2/x(Aluminium)	-	250	-
Cl-5.3, Table-2 (x)(Aluminium (as A1))	-	250	-
5.3/Table 2/xi(Chloride)	-	250	-
Cl-5.3, Table-2 (xi)(Chloride (as Cl))	-	250	-
5.3/Table 2/xii(Selenium)	-	250	-
Cl-5.3, Table-2 (xii)(Selenium (as Se))	-	250	-
5.3/Table 2/xiii(Suphate)	-	250	-
Cl-5.3, Table-2 (xiii)(Sulphate (as SO4 ))	-	250	-
5.3/Table 2/xiv(Alkalinity)	-	250	-
Cl-5.3, Table-2 (xiv)(Alkalinity (as HCO3 ))	-	250	-
5.3/Table 2/xv(Calcium)	-	250	-
Cl-5.3, Table-2 (xv)(Calcium (as Ca))	-	250	-
5.3/Table 2/xvi(Magnesium)	-	250	-
Cl-5.3, Table-2 (xvi)(Magnesium (as Mg))	-	250	-
5.3/Table 2/xvii(Sodium)	-	250	-
Cl-5.3, Table-2 (xvii)(Sodium (as Na))	-	250	-
5.3/Table 2/xviii(Residual Free Chlorine)	-	250	-
Cl-5.3, Table-2 (xviii)(Residual free chlorine)	-	250	-
5.3/Table 2/xix(Phenolic Compounds)	-	250	-
Cl-5.3, Table-2 (xix)(Phenolic compounds (as C6H5OH))	-	250	-
5.3/Table 2/xx(Mineral Oil)	-	500	-
Cl-5.3, Table-2 (xx)(Mineral oil)	-	500	-
5.3/Table 2/xxi(Anionic Surface- Active Agents as MBAS)	-	250	-
Cl-5.3, Table-2 (xxi)(Anionic surface active agents)	-	250	-
5.3/Table 2/xxii(Sulphide)	-	250	-
5.3/Table 2/xxiii(Antinomy)	-	250	-
Cl-5.3, Table-2 (xxiii)(Antimony (as Sb))	-	250	-
5.3/Table 2/xxiv(Borates)	-	250	-
Cl-5.3, Table-2 (xxiv)(Borates (as B))	-	250	-
5.3/Table 2/xxxv(Bromate)	-	250	-
Cl-5.3, Table-2 (xxv)(Bromates (as BrO3 ))	-	250	-
5.3/Table 3/i(Mercury)	-	250	-
Cl-5.3, Table-3 (i)(Mercury (as Hg))	-	250	-
5.3/Table 3/ii(Cadmium)	-	250	-
Cl-5.3, Table-3 (ii)(Cadmium (as Cd))	-	250	-
5.3/Table 3/iii(Arsenic)	-	250	-
Cl-5.3, Table-3 (iii)(Arsenic (as As))	-	250	-
5.3/Table 3/iv(Cyanide)	-	500	-
Cl-5.3, Table-3 (iv)(Cyanide (as CN))	-	500	-
5.3/Table 3/v(Lead)	-	250	-
5.3/Table 3/vi(Chromium)	-	250	-
Cl-5.3, Table-3 (vi)(Chromium (as Cr))	-	250	-
5.3/Table 3/vii(Nickel)	-	250	-
Cl-5.3, Table-3 (vii)(Nickel (as Ni))	-	250	-
5.3/Table 3/viii(Polyclorinated biphenyl (PCB))	-	650	-
Cl-5.3, Table-3 (viii)(Polychlorinated biphenyl (PCB))	-	650	-
5.3/Table 3/ix(Polynuclear Aromatic Hydrocarbons)	-	650	-
Cl-5.3, Table-3 (ix)(Polynuclear aromatic hydrocarbons)	-	650	-
5.3/Table 3/x(Uranium)	-	250	-
Cl-5.3, Table-3 (x)(Uranium)	-	250	-
Cl-5.3, Table-4 (i)(Alpha emitters, Becquerel (Bq/l))	-	2800	-
Cl-5.3, Table-4 (ii)(Beta emitters, Becquerel (Bq/l),)	-	2800	-
5.4/Annex D/i(P,P-DDT)	-	100	-
5.4/Annex D/i(O,P-DDT)	-	100	-
5.4/Annex D/i(O,P-DDD)	-	100	-
5.4/Annex D/i(P,P-DDE)	-	100	-
5.4/Annex D/i(O,P-DDE)	-	100	-
5.4/Annex D/i(P,P-DDD)	-	100	-
5.4/Annex D/ii(Lindane)	-	100	-
5.4/Annex D/iii(a-HCH)	-	100	-
5.4/Annex D/iii(d-HCH)	-	100	-
5.4/Annex D/iii(β- HCH)	-	100	-
5.4/Annex D/iv(b-Endosulfan)	-	100	-
5.4/Annex D/iv(a-Endosulfan)	-	100	-
5.4/Annex D/v(Monochrotophos)	-	100	-
5.4/Annex D/vi(Ethion)	-	100	-
5.4/Annex D/vii(Chlorpyrifos)	-	100	-
5.4/Annex D/viii(Phorate)	-	100	-
5.4/Annex D/viii(Phorate sulphoxide)	-	100	-
5.4/Annex D/viii(Phorate sulfone)	-	100	-
5.4/Annex D/ix(2,4 –D)	-	100	-
5.4/Annex D/x(Butachlor)	-	100	-
5.4/Annex D/xi(Isoproturon)	-	100	-
5.4/Annex D/xii(Alachlor)	-	100	-
5.4/Annex D/xiii(Atrazine)	-	100	-
5.4/Annex D/xiv(Methyl parathion)	-	100	-
5.4/Annex D/xv(Malathion)	-	100	-
5.4/Annex D/xvi(Aldrin)	-	100	-
5.4/Annex D/xvi(Dieldrin)	-	100	-
5.4/Annex D/iv(Endosulfan sulfate)	-	100	-
5.4/Annex D/xxvii(Methyl paraoxon)	-	100	-
5.4/Annex D/xxviii(Malaoxon)	-	100	-
5.4/Annex D/xxxi(Total Pesticide Residue)	-	100	-
Cl-5.3, Table-3 (v)(Lead (as Pb))	-	100	-
5.3(Appearance)	-	100	-
Cl-5.3, Table-2 (iii)(Iron (as Fe))	-	100	-
Cl-5.3, Table-2 (xxii)(Sulphide)	-	100	-
Cl-5.4 (i)(Pesticide residues considered individually)	-	100	-
Cl-5.4 (ii)(Total pesticide residue)	-	100	-

31 Dec, 2026

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-

IS 17012 (2018)

High ankle tactical boots with pu - Rubber sole - Specification

12900 View breakup
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Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
4.16.2(Breaking Strength of lace )	-	400	-
4.16.1(Length of lace )	-	100	-
4.15(D-ring & Hooks )	-	0	-
6.1(Resistance to Fuel Oil)	-	400	-
4.14.9(Resistance to hot contact )	-	300	-
4.14.8(Flexing resistance )	-	400	-
4.14.7(Ageing test)	-	500	-
4.14.6(Hardness (IRHD))	-	300	-
4.14.5(Abrasion resistance )	-	300	-
4.14.4(Tear Strength)	-	400	-
4.14.3(Sole Density )	-	300	-
4.14.2(Thickness)	-	100	-
4.14.1(Material)	-	0	-
4.13(Breaking Strength of thread )	-	300	-
4.12.2(Tear Strength)	-	400	-
4.12.1(Thickness )	-	100	-
4.11.2(Tear Strength)	-	400	-
4.11.1(Thickness )	-	100	-
4.10.3(Water absorption & desorption percent)	-	500	-
4.10.2(Abrasion resistance )	-	300	-
4.10.1(Material)	-	0	-
4.9.3(Water absorption & desorption percent)	-	500	-
4.9.2(Abrasion resistance )	-	300	-
4.9.1(Thickness)	-	100	-
4.8(Thickness Toe puff & counter stiffener)	-	100	-
4.7.5(Water Vapour permeability & coefficient )	-	700	-
4.7.4(Abrasion resistance )	-	300	-
4.7.3(Tear Strength)	-	400	-
4.7.2(Material Counter & Tongue)	-	0	-
4.7.1(Material vamp & Quarter)	-	0	-
4.6.2(Tear Strength)	-	400	-
4.6.1(Thickness )	-	100	-
4.5.8(Energy absorption of seat region )	-	400	-
4.5.7(Cold Insulation of sole complex)	-	500	-
4.5.6(Heat Insulation of sole Complex)	-	500	-
4.5.5(Antistatic test)	-	500	-
4.5.4(Slip Resitance)	-	500	-
4.5.3.2(Interayer bond strength)	-	400	-
4.5.3.1(Upper/outsole bond strength)	-	400	-
4.5.2(Ergonomic Feature)	-	0	-
4.5.1(Construction)	-	0	-
4.4(Height of upper )	-	100	-
4.3.2(Weight)	-	100	-
4.3.1(Size)	-	0	-
4.2(Design )	-	0	-
Cl. 6, Cl.6.1, 6.1.1 & 6.1.2, 8.6 of IS 15298 part 1,ISO 1817,ISO 4643,(Resistance to fuel oil)	-	0	-
8, 8.1, 8.2, 8.2.1(Marking)	-	0	-
9(Information to be Supplied)	-	0	-
Cl.4.6.4(Water Penetration and Water Absorption)	-	300	-
Cl. 6, Cl.6.1, 6.1.1 & 6.1.2,(Resistance to fuel oil)	-	0	-
4.6.3(Water Penetration and water absorption )	-	700	-
CL.8,8.1, 8.2,8.2.1(Marking)	-	0	-
Cl.9,(Information to be Supplied)	-	0	-
Cl. 6, Cl.6.1, 6.1.1 & 6.1.2, 8.6 of IS 15298 part 1,ISO 1817,ISO 4643,(Resistance to fuel oil)	-	-	-
8, 8.1, 8.2, 8.2.1(Marking)	-	-	-
9(Information to be Supplied)	-	-	-
Cl.4.6.4(Water Penetration and Water Absorption)	-	-	-
Cl. 6, Cl.6.1, 6.1.1 & 6.1.2,(Resistance to fuel oil)	-	-	-
CL.8,8.1, 8.2,8.2.1(Marking)	-	-	-
Cl.9,(Information to be Supplied)	-	-	-

31 Dec, 2026

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Included w.e.f. 20.08.2024 for mechanical tests only.

IS 6721 (2023)

SANDAL AND SLIPPERS SPECIFICATION First revision

8800 View breakup
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Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
Cl. No.4(SHAPE AND DESIGN)	-	0	-
Cl. No.5("SIZE AND FITTINGS ")	-	0	-
Cl. No.6("CONSTRUCTION ")	-	0	-
Cl. No.7(MATERIAL)	-	0	-
Cl. No.8.1, Table no. 1(i),a("Tear strength, (other than moulded upper material) ")	-	300	-
Cl. No.8.1, Table no. 1(i),b("For all moulded upper material ")	-	0	-
Cl. No.8.1, Table no. 1(ii)(Flexing endurance)	-	400	-
Cl. No.8.2,Table no. 2(i)(Tear strength)	-	300	-
Cl. No.8.2,Table no. 2(ii),a("Abrasion resistance- At dry condition")	-	500	-
Cl. No.8.2,Table no. 2(ii),b("Abrasion resistance- At wet condition")	-	0	-
Cl. No.8.3,Table no. 3(i)(Tear strength)	-	300	-
Cl. No.8.3,Table no. 3(ii),a("Abrasion resistance- At dry condition")	-	500	-
Cl. No.8.3,Table no. 3(ii),b("Abrasion resistance- At wet condition")	-	0	-
Cl. No.8.4,Table no. 4(i)(Grain crack index)	-	300	-
Cl. No.8.4,Table no. 4(ii)(Density)	-	200	-
Cl. No.8.4,Table no. 4(iii)(Abrasion resistance)	-	300	-
Cl. No.8.4,Table no. 5(i)(Density)	-	200	-
Cl. No.8.4,Table no. 5(ii)("Abrasion resistance, Volume loss ")	-	300	-
Cl. No.8.4, Table no. 5(iii)("Flexing resistance, At 30 000 flexes")	-	400	-
Cl. No.8.5, Table no. 6(i)("Bond strength, N/mm, Min (Applicable when fore part is fully covered or strap width is more than 25 mm)")	-	300	-
Cl. No.8.5, Table no. 6(ii)("Toe post attachment strength, N, Min (Applicable if toe post is present)")	-	300	-
Cl. No.8.5, Table no. 6(iii)("Toe ring attachment strength, Min (Applicable if toe ring is not integral part of upper")	-	300	-
Cl. No.8.5, Table no. 6(iv)(Strap to outsole strength)	-	300	-
Cl. No.8.5, Table no. 6(v)("Attachment strength of back strap and Buckle/D-ring ")	-	300	-
Cl. No.8.5, Table no. 6(vi)("Attachment strength of elastic, limit of useful extension, percent")	-	300	-
Cl. No.8.5, Table no. 6(vii)("Attachment strength of back strap and velcro, N, Min (If, present)")	-	300	-
Cl. No.8.5, Table no. 6(viii)("Hydrolysis resistance, Cut growth after 150 000 flexes, mm, Max (Applicable for PU sole only)")	-	600	-
Cl. No.8.5, Table no. 6(ix)("Heel pull off strength, N, Min (Applicable for heel height 40 mm and above attached separately to the sandal/slipper)")	-	300	-
Cl. No.8.5, Table no. 6(x)("Inter layer bond strength, N/mm, (Applicable for multi-layer sole)")	-	300	-
Cl. No.8.5, Table no. 6(xi)("Slip Resistance, Coefficient of Friction (COF) (Not applicable for leather sole) (To be carried out on quarry tiles)")	-	900	-
Cl. No.8.6.2(Lead content)	-	200	-
Cl. No.9.(MARKING AND PACKING)	-	0	-
Cl. No.8.6.1,Table 1 of IS 17011(iv)(Chromium (VI))	-	300	-
Cl. No.8.6.1,Table 1 of IS 17011(x)(pH)	-	100	-
Cl-5 ((Amendment No-1)(Category And Type)	-	0	-
Cl.8 Table-1 S.No 1, (i) (Amendment No-1)(Bond strength , N/mm, Min)	-	0	-
Cl.8 Table-1 S.No 1, (ii) (Amendment No-1)(Toe post attachment strength)	-	0	-
Cl.8 Table-1 S.No 1, (iii) (Amendment No-1)(Toe ring attachment strength)	-	0	-
Cl.8 Table-1 S.No 1, (iv) (Amendment No-1)(Strap to outsole strength N, Min)	-	0	-
Cl.8 Table-1 S.No 1, (v) (Amendment No-1)(Attachment strength of back strap and buckle/D-ring N, Min)	-	0	-
Cl.8 Table-1 S.No 1, (vi) (Amendment No-1)(Limit of useful extension, percent, Min)	-	0	-
Cl.8 Table-1 S.No 1, (vii) (Amendment No-1)(Attachment strength of back strap and velcro, N, Mi)	-	0	-
Cl.8 Table-1 S.No 1, (viii) (Amendment No-1)(Hydrolysis resistance)	-	0	-
Cl.8 Table-1 S.No 1, (ix) (Amendment No-1)(Heel pull off strength)	-	0	-
Cl.8 Table-1 S.No 1, (x) (Amendment No-1)(Inter layer bond strength)	-	0	-
Cl.8 Table-1 S.No 1, (xi) (Amendment No-1)(Slip resistance, coefficient of friction (COF)3)	-	0	-
Cl.8 Table-1 S.No 1, (xii) (Amendment No-1)(Abrasion resistance, (volume loss) mm3 , Max)	-	0	-
Cl.8 Table-1 S.No 1, (xiii) (Amendment No-1)("Flexing resistance (Belt method or Bennewart flex method)")	-	0	-
Cl.8 Table-1 S.No 1, (xv) (Amendment No-1)(Lead content (as Pb)7 ppm)	-	0	-
Cl.9 Table-2 S.No 1, (i) a (Amendment No-1)(Tear strength for other than moulded upper material)	-	0	-
Cl.9 Table-2 S.No 1, (i) b (Amendment No-1)(Tear strength For all moulded upper material)	-	0	-
Cl.9 Table-2 S.No 1, (ii) (Amendment No-1)(Flexing endurance)	-	0	-
Cl.9 Table-3 S.No 1, (i) (Amendment No-1)(Tear strength, N, Min)	-	0	-
Cl.9 Table-3 S.No 1, (ii) (Amendment No-1)("Abrasion resistance (a) dry condition (b) wet condition")	-	0	-
Cl.9 Table-4 S.No 1, (i) (Amendment No-1)(Tear strength, N, Min)	-	0	-
Cl.9 Table-4 S.No 1, (ii) (Amendment No-1)("Abrasion resistance (a) dry condition (b) wet condition")	-	0	-
Cl.9 Table-5 S.No 1, (ii) (Amendment No-1)(Density, g/cm3 , Min)	-	0	-
Cl.9 Table-6 S.No 1, (i) (Amendment No-1)("Density, g/cm3 , Min (a)-Cellular, (b) Solid ")	-	0	-
Cl-10 (Amendment No-1)(Marking)	-	0	-
Cl.9 Table-5 S.No 1, (i) (Amendment No-1)(Grain crack index)	-	0	-
Cl.9 Table-5 S.No 1, (iii) (Amendment No-1)(Abrasion resistance, mm/kcs)	-	0	-

31 Dec, 2026

-
Included w.e.f. 02.04.2024 Exclusion: Cl. No.8.6.1,Table 1 of IS 17011(i) (Allergenic and carcinogenic disperse dyes), Cl. No.8.6.1,Table 1 of IS 17011(ii) (Aromatic amines released from Azo dyes (each individual amine)), Cl. No.8.6.1,Table 1 of IS 17011(iii) (Aromatic amines released from Azo dyes (each individual amine)), Cl. No.8.6.1,Table 1 of IS 17011(v) (Dimethyl fumarate (DMFU)), Cl. No.8.6.1,Table 1 of IS 17011(vi) (Formaldehyde (free or released by partial hydrolysis)), Cl. No.8.6.1,Table 1 of IS 17011(vii) (Formaldehyde), Cl. No.8.6.1,Table 1 of IS 17011(viii) (Organotin compounds), Cl. No.8.6.1,Table 1 of IS 17011(ix) (PCP-TeCP-TriCP polychlorophenols), Cl. No.8.6.1,Table 1 of IS 17011(xi) (Phthalates (each individual phthalate)), Cl. No.8.6.1,Table 1 of IS 17011(xii) (Nickel, on skin contact 2-(thiocyanomethylthio) -benzothiazole (TCMTB)) Amendment No.1 Included w.e.f 03.05.2024

IS 17043 : Part 2 (2024)

Shoes: Shoes for General Purpose

14800 View breakup
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Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
Cl-5.1(Shape and Design)	-	0	-
Cl-5.3(Material)	-	0	-
Cl-5.4, Table-1 (i)(Bond strength, N/mm, Min Upper to outsole, N/mm, Min)	-	300	-
Cl-5.4, Table-1 (ii)(Inter layer bond strength,= N/mm, Min Midsole to outsole, N/mm, Min)	-	300	-
Cl-5.4, Table-1 (v)(Slip resistance, Cof(1), Min dry and wet* (quarry tile))	-	600	-
Cl-5.4, Table-1 (vi)(Attachment strength of strap and buckle/D-ring N)	-	300	-
Cl-5.4, Table-1 (vii)(Attachment strength of strap and velcro , N, Min)	-	300	-
Cl-5.4, Table-1 (viii)(Strength of eyelet attachment, N, Min)	-	300	-
Cl-5.4, Table-1 (ix)(Heel pull off strength, N, Min)	-	300	-
Cl-5.4, Table-1 (x)(Top piece attachment strength, N, Min)	-	300	-
Cl-5.4, Table-1 (xi)(Seam strength, N/mm, Min)	-	300	-
Cl-5.4, Table-1 (xii)(Whole shoe topline strength, N, Min)	-	300	-
Cl-5.4, Table-1 (xiii)(Abrasion resistance (volume loss), mm3)	-	300	-
Cl-5.4, Table-1 (xv)(Lead content (as Pb) ppm, Max)	-	200	-
Cl-5.4, Table-1 (xvi)(Hydrolysis resistance,(4) cut growth at 150 000 flexes, mm, Max)	-	300	-
Cl-6.1.1, Table-2 (i)(Tear trength, N)	-	300	-
Cl-6.1.1, Table-2 (ii)(Flexing resistance, flexes)	-	300	-
Cl-6.1.1, Table-2 (iii)(Colour fastness to rubbing (marring/staining))	-	200	-
Cl-6.1.1, Table-2 (iv)(Colour fastness to water (contact method- multi fabrics))	-	200	-
Cl-6.1.1, Table-2 (v)(Water vapour permeability,mg/cm2 /h, Min Water vapour coefficient,mg/cm2 , Min)	-	500	-
Cl-6.1.1, Table-2 (vi)(Stitch tear strength, N/mm, Min)	-	300	-
Cl-6.1.1, Table-2 (vii)(Abrasion resistance)	-	300	-
Cl-6.1.2, Table-3 (i)(Colour fastness to light, Marring, Min)	-	0	-
Cl-6.1.2, Table-3 (ii)(Water resistance)	-	0	-
Cl-6.1.3, Table- 4 (i)(Breaking strength, N/mm, Min Elongation at break, percent, Min)	-	0	-
Cl-6.1.3, Table- 4 (ii)(Tear Strength, N, Min)	-	0	-
Cl-6.1.3, Table- 4 (iii)(Strength at needle perforation, N/mm, Min)	-	0	-
Cl-6.1.3, Table- 4 (iv)(Flexing resistance, Flexes)	-	0	-
Cl-6.1.3, Table- 4 (v)(Water vapour permeability (WVP), mg/cm2 /h, Min)	-	0	-
Cl-6.1.3, Table- 4 (vi)(Hydrolysis resistance)	-	0	-
Cl-6.1.3, Table- 4 (vii)(Abrasion resistance)	-	0	-
Cl-6.1.4, Table-5 (i)(Colour fastness to light, Marring, Min)	-	0	-
Cl-6.2, Table-6 (i)(Tear strength, N, Min)	-	300	-
Cl-6.2, Table-6 (ii)(Abrasion resistance)	-	300	-
Cl-6.2, Table-6 (iii)(Colour fastness rubbing (crocking))	-	200	-
Cl-6.2, Table-6 (iv)(Colour fastness to perspiration)	-	200	-
Cl-6.2, Table-6 (v)(Water vapour permeability, mg/cm2 /h, Min Water vapour coefficient, mg/cm2, Min)	-	500	-
Cl-6.3, Table-7 (i)(Flexing index, Min)	-	200	-
Cl-6.3, Table-7 (ii)(Abrasion resistance at 400 cycles)	-	200	-
Cl-6.3, Table-7 (iii)(Water absorption, mg/cm2 , Min Water desorption, percent, Min)	-	300	-
Cl-6.4, Table-8 (i)(Thickness, mm, Min)	-	100	-
Cl-6.4, Table-8 (ii)(Abrasion resistance)	-	300	-
Cl-6.4, Table-8 (iii)(Water absorption, mg/cm2 , Min Water desorption, percent, Min)	-	300	-
Cl-6.5.1, , Table-9 (i)(Flexing resistance)	-	400	-
Cl-6.5.1, , Table-9 (ii)(Hydrolysis resistance, cut growth at 150 000 flexes, mm, Max)	-	400	-
Cl-6.5.1, , Table-9 (iii)(Compression set, percent, Max)	-	300	-
Cl-6.5.2.2, Table-11 (i)(Water resistance, (dynamic method))	-	0	-
Cl-6.5.2.3, Table-12 (i)(Hardness, Min)	-	0	-
Cl-6.5.2.3, Table-12 (ii)(Density, g/cm3 , Max)	-	0	-
Cl-6.5.2.3, Table-12 (iii)(Abrasion resistance (volume loss), mm3 , Max)	-	0	-
Cl-6.5.2.3, Table-12 (iv)(Bond Strength between Rubber top-lift and adjacent material, N/mm, Min)	-	0	-
Cl-6.6, Table-13 (i)(Heat shrinkage, percent, Max)	-	300	-
Cl-6.6, Table-13 (ii)(Split tear strength, kg/25 mm, Min)	-	200	-
Cl-6.6, Table-13 (iii)(Compression set, percent, Max)	-	200	-
Cl-6.7, Table-14 (i)(Hardness, N)	-	200	-
Cl-6.7, Table-14 (ii)(Resilience, percent)	-	200	-
Cl-6.7, Table-14 (iii)(Moisture resistance, percent)	-	200	-
Cl-6.10, Table-17 (i)(Lace breaking strength, N, Min)	-	200	-
Cl-6.10, Table-17 (ii)(Lace tag strength, N, Min)	-	200	-
Cl-6.10, Table-17 (iii)(Lace to lace abrasion resistance, cycles)	-	200	-
Cl-6.10, Table-17 (iv)(Colour fastness to water for lace contact methodstaining Gray scale rate , Min)	-	200	-
Cl-6.10, Table-17 (v)(Corrosion resistance)	-	200	-
Cl-6.11, Table-18 (i)(Fatigue resistance, cycles, Min)	-	200	-
Cl-6.11, Table-18 (ii)(Security of puller attachment strength, N, Min)	-	200	-
Cl-6.11, Table-18 (iii)(Lateral load, N, Min)	-	200	-
Cl-6.11, Table-18 (iv)(End attachment strength, N, Min)	-	200	-
Cl-8.1(Marking)	-	0	-
Cl-6.7, Table-14 (iv)(Area shape retention, percent (a) Initial, Min b) After 10 collapsing load, Min)	-	200	-
Cl-6.7, Table-14 (v)(Adhesion strength, N/mm)	-	200	-
Cl-6.8, Table-15 (i)(Peel strength, N/mm a) Initial, Min b) After 5 000 wear cycles, Min)	-	300	-
Cl- 6.8, Table-15 (ii)(a) Shear strength, kPa b) Initial, Min)	-	300	-
Cl- 6.9, Table-16 (i)(Limit of useful extension, percent, Min)	-	200	-
Cl-5.1(Shape and Design)	-	0	-
Cl-5.3(Material)	-	0	-
Cl-5.4, Table-1 (i)(Bond strength, N/mm, Min Upper to outsole, N/mm, Min)	-	0	-
Cl-5.4, Table-1 (ii)(Inter layer bond strength,= N/mm, Min Midsole to outsole, N/mm, Min)	-	0	-
Cl-5.4, Table-1 (v)(Slip resistance, Cof(1), Min dry and wet* (quarry tile))	-	0	-
Cl-5.4, Table-1 (vi)(Attachment strength of strap and buckle/D-ring N)	-	0	-
Cl-5.4, Table-1 (vii)(Attachment strength of strap and velcro , N, Min)	-	0	-
Cl-5.4, Table-1 (viii)(Strength of eyelet attachment, N, Min)	-	0	-
Cl-5.4, Table-1 (ix)(Heel pull off strength, N, Min)	-	0	-
Cl-5.4, Table-1 (x)(Top piece attachment strength, N, Min)	-	0	-
Cl-5.4, Table-1 (xi)(Seam strength, N/mm, Min)	-	0	-
Cl-5.4, Table-1 (xii)(Whole shoe topline strength, N, Min)	-	0	-
Cl-5.4, Table-1 (xiii)(Abrasion resistance (volume loss), mm3)	-	0	-
Cl-5.4, Table-1 (xv)(Lead content (as Pb) ppm, Max)	-	0	-
Cl-5.4, Table-1 (xvi)(Hydrolysis resistance,(4) cut growth at 150 000 flexes, mm, Max)	-	0	-
Cl-6.1.1, Table-2 (i)(Tear trength, N)	-	0	-
Cl-6.1.1, Table-2 (ii)(Flexing resistance, flexes)	-	0	-
Cl-6.1.1, Table-2 (iii)(Colour fastness to rubbing (marring/staining))	-	0	-
Cl-6.1.1, Table-2 (iv)(Colour fastness to water (contact method- multi fabrics))	-	0	-
Cl-6.1.1, Table-2 (v)(Water vapour permeability,mg/cm2 /h, Min Water vapour coefficient,mg/cm2 , Min)	-	0	-
Cl-6.1.1, Table-2 (vi)(Stitch tear strength, N/mm, Min)	-	0	-
Cl-6.1.1, Table-2 (vii)(Abrasion resistance)	-	0	-
Cl-6.1.2, Table-3 (i)(Colour fastness to light, Marring, Min)	-	0	-
Cl-6.1.2, Table-3 (ii)(Water resistance)	-	0	-
Cl-6.1.3, Table- 4 (i)(Breaking strength, N/mm, Min Elongation at break, percent, Min)	-	0	-
Cl-6.1.3, Table- 4 (ii)(Tear Strength, N, Min)	-	0	-
Cl-6.1.3, Table- 4 (iii)(Strength at needle perforation, N/mm, Min)	-	0	-
Cl-6.1.3, Table- 4 (iv)(Flexing resistance, Flexes)	-	0	-
Cl-6.1.3, Table- 4 (v)(Water vapour permeability (WVP), mg/cm2 /h, Min)	-	0	-
Cl-6.1.3, Table- 4 (vi)(Hydrolysis resistance)	-	0	-
Cl-6.1.3, Table- 4 (vii)(Abrasion resistance)	-	0	-
Cl-6.1.4, Table-5 (i)(Colour fastness to light, Marring, Min)	-	0	-
Cl-6.2, Table-6 (i)(Tear strength, N, Min)	-	0	-
Cl-6.2, Table-6 (ii)(Abrasion resistance)	-	0	-
Cl-6.2, Table-6 (iii)(Colour fastness rubbing (crocking))	-	0	-
Cl-6.2, Table-6 (iv)(Colour fastness to perspiration)	-	0	-
Cl-6.2, Table-6 (v)(Water vapour permeability, mg/cm2 /h, Min Water vapour coefficient, mg/cm2, Min)	-	0	-
Cl-6.3, Table-7 (i)(Flexing index, Min)	-	0	-
Cl-6.3, Table-7 (ii)(Abrasion resistance at 400 cycles)	-	0	-
Cl-6.3, Table-7 (iii)(Water absorption, mg/cm2 , Min Water desorption, percent, Min)	-	0	-
Cl-6.4, Table-8 (i)(Thickness, mm, Min)	-	0	-
Cl-6.4, Table-8 (ii)(Abrasion resistance)	-	0	-
Cl-6.4, Table-8 (iii)(Water absorption, mg/cm2 , Min Water desorption, percent, Min)	-	0	-
Cl-6.5.1, , Table-9 (i)(Flexing resistance)	-	0	-
Cl-6.5.1, , Table-9 (ii)(Hydrolysis resistance, cut growth at 150 000 flexes, mm, Max)	-	0	-
Cl-6.5.1, , Table-9 (iii)(Compression set, percent, Max)	-	0	-
Cl-6.5.2.2, Table-11 (i)(Water resistance, (dynamic method))	-	0	-
Cl-6.5.2.3, Table-12 (i)(Hardness, Min)	-	0	-
Cl-6.5.2.3, Table-12 (ii)(Density, g/cm3 , Max)	-	0	-
Cl-6.5.2.3, Table-12 (iii)(Abrasion resistance (volume loss), mm3 , Max)	-	0	-
Cl-6.5.2.3, Table-12 (iv)(Bond Strength between Rubber top-lift and adjacent material, N/mm, Min)	-	0	-
Cl-6.6, Table-13 (i)(Heat shrinkage, percent, Max)	-	0	-
Cl-6.6, Table-13 (ii)(Split tear strength, kg/25 mm, Min)	-	0	-
Cl-6.6, Table-13 (iii)(Compression set, percent, Max)	-	0	-
Cl-6.7, Table-14 (i)(Hardness, N)	-	0	-
Cl-6.7, Table-14 (ii)(Resilience, percent)	-	0	-
Cl-6.7, Table-14 (iii)(Moisture resistance, percent)	-	0	-
Cl-6.10, Table-17 (i)(Lace breaking strength, N, Min)	-	0	-
Cl-6.10, Table-17 (ii)(Lace tag strength, N, Min)	-	0	-
Cl-6.10, Table-17 (iii)(Lace to lace abrasion resistance, cycles)	-	0	-
Cl-6.10, Table-17 (iv)(Colour fastness to water for lace contact methodstaining Gray scale rate , Min)	-	0	-
Cl-6.10, Table-17 (v)(Corrosion resistance)	-	0	-
Cl-6.11, Table-18 (i)(Fatigue resistance, cycles, Min)	-	0	-
Cl-6.11, Table-18 (ii)(Security of puller attachment strength, N, Min)	-	0	-
Cl-6.11, Table-18 (iii)(Lateral load, N, Min)	-	0	-
Cl-6.11, Table-18 (iv)(End attachment strength, N, Min)	-	0	-
Cl-8.1(Marking)	-	0	-
Cl-6.7, Table-14 (iv)(Area shape retention, percent (a) Initial, Min b) After 10 collapsing load, Min)	-	0	-
Cl-6.7, Table-14 (v)(Adhesion strength, N/mm)	-	0	-
Cl-6.8, Table-15 (i)(Peel strength, N/mm a) Initial, Min b) After 5 000 wear cycles, Min)	-	0	-
Cl- 6.8, Table-15 (ii)(a) Shear strength, kPa b) Initial, Min)	-	0	-
Cl- 6.9, Table-16 (i)(Limit of useful extension, percent, Min)	-	0	-
Cl- 6.9, Table-16 (ii)(Needle strength, N/mm, Min)	-	0	-

31 Dec, 2026

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Included w.e.f. 28.08.2024 Exclusion: Cl-5.4, S.No (1), iii, iv, xiv, Cl-6.1.4, S.No (1), ii, Cl-6.1.3, S.No (1), iv, Cl-6.5.2.1, S.No (1) i, ii, iii, Cl-6.1.2, S.No (1), iii

IS 17043 : Part 1 (2024)

Shoes - Specification Part 1 Shoes for Services

13000 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
Cl-4.2(Design)	-	0	-
Cl-4.3.1(Size)	-	100	-
Cl-4.3.2(Weight)	-	100	-
Cl-4.4(Height of Upper)	-	100	-
Cl-4.5, S.Cl-4.5.2(Ergonomic Feature)	-	100	-
Cl-4.5, S.Cl-4.5.3(Bond Strength)	-	0	-
Cl-4.5, S.Cl-4.5.4(Slip Resistance)	-	700	-
Cl-4.5.5.1(Electrical Properties-Antistatic footwear)	-	500	-
Cl-4.5, S.Cl-4.5.6(Heat Insulation of Sole Complex)	-	500	-
Cl-4.5, S.Cl-4.5.7(Cold Insulation of Sole Complex)	-	500	-
Cl-4.6.1(Material)	-	100	-
Cl-4.6.2(Tear Strength)	-	400	-
Cl-4.6.3(Water Vapour Permeability and Coefficient)	-	700	-
Cl-4.6.4(Water Penetration and Water Absorption)	-	300	-
Cl-4.7.1(Material)	-	100	-
Cl-4.7.2(Tear Strength)	-	400	-
Cl-4.7.3(Abrasion Resistance)	-	400	-
Cl-4.7.4(Water Vapour Permeability and Coefficient)	-	700	-
Cl. 4.8.1(Material)	-	100	-
Cl-4.8.2(Abrasion Resistance)	-	300	-
Cl-4.8.3(Water Absorption and Desorption)	-	500	-
Cl-4.9.3(Abrasion Resistance)	-	300	-
Cl-4.10(Toe Puff and Counter Stiffener)	-	100	-
Cl-4.11.1(Material)	-	100	-
Cl-4.11.2(Tear Strength)	-	400	-
Cl-4.12(Closing Thread)	-	400	-
Cl-4.13.2(Thickness)	-	100	-
Cl-4.13.3(Moulded Density)	-	300	-
Cl-4.13.4(Hardness)	-	300	-
Cl-4.13.5(Ageing Test)	-	500	-
Cl-4.13.6(Tear Strength)	-	400	-
Cl-4.13.7(Abrasion Resistance)	-	400	-
Cl-4.13.8(Flexing Resistance)	-	400	-
Cl-4.14(Eyelet)	-	600	-
Cl-4.15.2(Breaking Load and Tag Retention)	-	600	-
Cl-5(Chemical Requirements)	-	0	-
Cl-7(Marking)	-	0	-
Cl.4.5.8(Energy Absorption of Seat Region)	-	400	-
Cl- 4.5.3.1(Upper-outsole bond strength)	-	400	-
Cl.4.5.3.2(Interlayer bond strength)	-	400	-
Cl-4.2(Design)	-	-	-
Cl-4.3.1(Size)	-	-	-
Cl-4.3.2(Weight)	-	-	-
Cl-4.4(Height of Upper)	-	-	-
Cl-4.5, S.Cl-4.5.2(Ergonomic Feature)	-	-	-
Cl-4.5, S.Cl-4.5.3(Bond Strength)	-	-	-
Cl-4.5, S.Cl-4.5.4(Slip Resistance)	-	-	-
Cl-4.5.5.1(Electrical Properties-Antistatic footwear)	-	-	-
Cl-4.5, S.Cl-4.5.6(Heat Insulation of Sole Complex)	-	-	-
Cl-4.5, S.Cl-4.5.7(Cold Insulation of Sole Complex)	-	-	-
Cl-4.6.1(Material)	-	-	-
Cl-4.6.2(Tear Strength)	-	-	-
Cl-4.6.3(Water Vapour Permeability and Coefficient)	-	-	-
Cl-4.6.4(Water Penetration and Water Absorption)	-	-	-
Cl-4.7.1(Material)	-	-	-
Cl-4.7.2(Tear Strength)	-	-	-
Cl-4.7.3(Abrasion Resistance)	-	-	-
Cl-4.7.4(Water Vapour Permeability and Coefficient)	-	-	-
Cl. 4.8.1(Material)	-	-	-
Cl-4.8.2(Abrasion Resistance)	-	-	-
Cl-4.8.3(Water Absorption and Desorption)	-	-	-
Cl-4.9.3(Abrasion Resistance)	-	-	-
Cl-4.10(Toe Puff and Counter Stiffener)	-	-	-
Cl-4.11.1(Material)	-	-	-
Cl-4.11.2(Tear Strength)	-	-	-
Cl-4.12(Closing Thread)	-	-	-
Cl-4.13.2(Thickness)	-	-	-
Cl-4.13.3(Moulded Density)	-	-	-
Cl-4.13.4(Hardness)	-	-	-
Cl-4.13.5(Ageing Test)	-	-	-
Cl-4.13.6(Tear Strength)	-	-	-
Cl-4.13.7(Abrasion Resistance)	-	-	-
Cl-4.13.8(Flexing Resistance)	-	-	-
Cl-4.14(Eyelet)	-	-	-
Cl-4.15.2(Breaking Load and Tag Retention)	-	-	-
Cl-7(Marking)	-	-	-
Cl.4.5.8(Energy Absorption of Seat Region)	-	-	-
Cl- 4.5.3.1(Upper-outsole bond strength)	-	-	-
Cl.4.5.3.2(Interlayer bond strength)	-	-	-

31 Dec, 2026

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Included w.e.f. 20.08.2024 for mechanical tests only.

IS 398 : Part 4 (1994)

Aluminium conductors for overhead transmission purposes: Part 4 aluminium alloy stranded conductors (Aluminium - Magnesium - Silicon Type) - Specification (Third Revision)

3150 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
7.1 Table-1(Dimensional measurement of wires)	-	630	for 7 stands
12.2 Table 1(Breaking Load Test- Before Stranding)	-	1080	for 7 stands
12.2 Table 1(Breaking Load Test- After Stranding)	-	1080	for 7 stands
12.3 Table 1(Elongation Test- After Stranding)	-	450	for 7 stands
12.3 Table 1(Elongation Test- Before Stranding)	-	450	for 7 stands
12.4 Table 1(Resistance of Aluminium wire)	-	630	for 7 stands
9.2 Table 3(Lay Ratio of stranded conductors)	-	360	for 7 stands

31 Dec, 2026

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-

Bureau of Indian Standards

The National Standards Body of India

MSME TESTING CENTRE, CHENNAI

65/1, GST Road, Guindy, Chennai, Chennai, Tamil Nadu, 600032

9445662299 dctc-sr@dcmsme.gov.in

Scope List