1 |
IS 15844 : Part 1 (2023) |
SPORTS FOOTWEAR PART -1 GENERAL PURPOSEFirst Revision |
-
|
63000 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
Cl No.4.1(Sampling and Conditioning) |
- |
180 |
|
- |
Cl No.4.2(Construction) |
- |
100 |
|
- |
Cl No.4.3(Whole Footwear) |
- |
100 |
|
- |
4.3.1(Insole) |
- |
100 |
|
- |
4.3.2(Toe spring height) |
- |
180 |
|
- |
4.3.3(Upper to Mid Sole/Out Sole Bond Performance) |
- |
1080 |
|
- |
4.3.4("Upper to Composite Sole Bond Performance
(Applicable Only When the Sole is Composite)") |
- |
1080 |
|
- |
4.3.5(Out Sole to Mid Sole (Multilayer) Bond Performance) |
- |
1080 |
|
- |
4.3.6(Energy Absorption at Seat Region) |
- |
630 |
|
- |
4.3.7(Complete Shoe Flexing) |
- |
1500 |
|
- |
4.3.8(Washability) |
- |
1000 |
|
- |
4.3.9(Slip Resistance) |
- |
2500 |
|
- |
Cl No.4.4 , Table No. 2 , i) , a)(Flexing resistance, Dry condition) |
- |
1500 |
|
- |
Cl No.4.4 , Table No. 2 , i) , b)(Flexing resistance, Wet condition) |
- |
1500 |
|
- |
Cl No.4.4 , Table No. 2 , ii)(Tear strength (average force), Min, N) |
- |
500 |
|
- |
Cl No.4.4 , Table No. 2 , iii) , a)("Colour fastness rubbing (To and fro) Grey scale rate, Min ,
Dry: (rubbing) Rating: (Marring and staining) ") |
- |
500 |
|
- |
Cl No.4.4 , Table No. 2 , iii) , b)("Colour fastness rubbing (To and fro) Grey scale rate, Min ,
Wet: (rubbing) Rating: (Marring and staining)") |
- |
500 |
|
- |
Cl No.4.4 , Table No. 2 , iv) , a)(Water vapour permeability, mg/cm2h, Min) |
- |
700 |
|
- |
Cl No.4.4 , Table No. 2 , iv) , b)(Water vapour coefficient, mg/cm2 , Min) |
- |
700 |
|
- |
Cl No.4.4 , Table No. 2 , v)(Stitch tear strength (double hole), N/mm, Min) |
- |
500 |
|
- |
Cl No.4.4 , Table No. 2 , vi)("Colour fastness to light (Optional) Grey scale rate,
Min Rating: (Marring)") |
- |
1000 |
|
- |
Cl No.4.4 , Table No. 2 , i)(Breaking strength, N/mm, Min) |
- |
500 |
|
- |
Cl No.4.4 , Table No. 2 , ii)(Elongation at break, percent Min) |
- |
500 |
|
- |
Cl No.4.4 , Table No. 2 , iii)(Tear strength, N, Min For Fabric: For all other materials) |
- |
500 |
|
- |
Cl No.4.4 , Table No. 2 , iv) , a)(Flexing resistance, Dry condition) |
- |
1500 |
|
- |
Cl No.4.4 , Table No. 2 , iv) , b)(Flexing resistance, ,Wet condition) |
- |
1500 |
|
- |
Cl No.4.4 , Table No. 2 , v) , a)(Water vapour permeability, mg/cm2h, Min) |
- |
700 |
|
- |
Cl No.4.4 , Table No. 2 , v) , b)("Water vapour coefficient, mg/cm2 , Min
") |
- |
700 |
|
- |
Cl No.4.6 , Table No. 4 , i)(Thickness, mm, Min) |
- |
180 |
|
- |
Cl No.4.6 , Table No. 4 , ii)(Flexing index, Min) |
- |
500 |
|
- |
Cl No.4.6 , Table No. 4 , iii)(Abrasion resistance, at 400 cycles) |
- |
1350 |
|
- |
Cl No.4.6 , Table No. 4 , iv) , a)(Water Absorption, mg/cm2 , Min) |
- |
700 |
|
- |
Cl No.4.6 , Table No. 4 , iv) , b)(Water Desorption, percent, Min) |
- |
700 |
|
- |
Cl No.4.7, Table No. 5 , i)(Thickness, mm, Min) |
- |
180 |
|
- |
Cl No.4.7, Table No. 5 , ii)(Abrasion resistance, cycles) |
- |
1080 |
|
- |
Cl No.4.7, Table No. 5 , iii) , a)(Water Absorption, mg/cm2 , Min) |
- |
700 |
|
- |
Cl No.4.7, Table No. 5 , iii) , b)(Water Desorption, percent, Min) |
- |
700 |
|
- |
Cl No.4.8 , Table No. 6 , i)(Abrasion resistance (Volume loss), mm3 , Max) |
- |
1080 |
|
- |
Cl No.4.8 , Table No. 6 , ii)("Flexing resistance Belt Method at 90 diameter Mandrel
or
Bennewart method, cut growth, Max") |
- |
1080 |
|
- |
Cl No.4.8 , Table No. 6 , iii)("Hydrolysis resistance, cut growth after 150 000
flexes, in mm, Max") |
- |
2700 |
|
- |
Cl No.4.9 , Table No. 7 , i)(Compression set, percent, Max) |
- |
1000 |
|
- |
Cl No.4.9 , Table No. 7 , ii)(Split tear strength, kg/25 mm, Min) |
- |
500 |
|
- |
Cl No.4.9 , Table No. 7 , iii)(Heat shrinkage, percent, Max) |
- |
1000 |
|
- |
Cl No.4.10 , Table No. 8 , i)(First dry collapsing load, hardness, N, Min) |
- |
800 |
|
- |
Cl No.4.10 , Table No. 8 , ii)(Resilience, percent, Min) |
- |
800 |
|
- |
Cl No.4.10 , Table No. 8 , iii)(Moisture resistance, percent, Min) |
- |
800 |
|
- |
Cl No.4.10 , Table No. 8 , iv) , a)(Initial dry area shape retention, percent, Min) |
- |
800 |
|
- |
Cl No.4.11 , Table No. 9 , i)(Peel strength, N/mm, Min) |
- |
1500 |
|
- |
Cl No.4.11 , Table No. 9 , ii)(Shear strength, kPa , Min) |
- |
1500 |
|
- |
Cl No.4.12 , Table No. 10 , i)(Limit of useful extension, percent, Min) |
- |
1000 |
|
- |
Cl No.4.13 , Table No. 11 , i)(Breaking strength of lace, N, Min) |
- |
800 |
|
- |
Cl No.4.13 , Table No. 11 , ii)(Lace tag strength, N, Min) |
- |
800 |
|
- |
Cl No.4.13 , Table No. 11 , iii)(Lace to lace abrasion,) |
- |
1000 |
|
- |
Cl No.4.13 , Table No. 11 , iv)("Colour fastness to water
Gray Scale Rate, Min Rating") |
- |
500 |
|
- |
Cl No.4.13 , Table No. 11 , v)(Strength of Buckle/Ski hook, N, Min) |
- |
800 |
|
- |
Cl No.4.13 , Table No. 11 , vi)(Corrosion resistance) |
- |
900 |
|
- |
Cl No . 4.14("Chemical Requirement on Complete Product
for all Types of Sports Shoe") |
- |
35000 |
|
with chemical test 63000; without 28000 per sample
10% discount to BIS |
Cl No . 5(MARKING AND PACKING) |
- |
180 |
|
- |
Cl No . 4.14, Table no. 1 of IS 17011(i)(Allergenic and carcinogenic disperse dyes) |
- |
4500 |
|
- |
Cl No . 4.14, Table no. 1 of IS 17011(ii)(Aromatic amines released from Azo dyes (each individual amine)) |
- |
3700 |
|
- |
Cl No . 4.14, Table no. 1 of IS 17011(iv)(Chromium (VI)) |
- |
2100 |
|
- |
Cl No . 4.14, Table no. 1 of IS 17011(v)(Dimethyl fumarate (DMFU)) |
- |
5000 |
|
- |
Cl No . 4.14, Table no. 1 of IS 17011(vi)(Formaldehyde (free or released by partial hydrolysis)) |
- |
2500 |
|
- |
Cl No . 4.14, Table no. 1 of IS 17011(vii)(Formaldehyde) |
- |
2500 |
|
- |
Cl No . 4.14, Table no. 1 of IS 17011(viii)(Organotin compounds) |
- |
7000 |
|
- |
Cl No . 4.14, Table no. 1 of IS 17011(ix)(PCP-TeCP-TriCP polychlorophenols) |
- |
4500 |
|
- |
Cl No . 4.14, Table no. 1 of IS 17011(x)(pH) |
- |
500 |
|
- |
Cl No . 4.14, Table no. 1 of IS 17011(xi)(Phthalates (each individual phthalate)) |
- |
6000 |
|
- |
Cl No . 4.14, Table no. 1 of IS 17011(xii)(Nickel, on skin contact 2-(thiocyanomethylthio) -benzothiazole (TCMTB)) |
- |
3500 |
|
- |
Cl-5, Table -1 S. No-(i) (Amendment No-1)(Insole) |
- |
100 |
|
- |
Cl-5, Table -1 S. No- (ii) (Amendment No-1)(Toe spring height) |
- |
180 |
|
- |
Cl-5, Table -1 S. No- (iii) (Amendment No-1)("Bond performance
(a) Upper to sole/mid sole/composite sole
(b) Interlayer bond strength") |
- |
2160 |
|
- |
Cl-5, Table -1 S. No- (iv) (Amendment No-1)(Energy absorption at seat region) |
- |
630 |
|
- |
Cl-5, Table -1 S. No- (v) (Amendment No-1)(Complete shoe flexing) |
- |
1500 |
|
- |
Cl-5, Table -1 S. No-(vi) (Amendment No-1)(Washability) |
- |
1000 |
|
- |
Cl-5, Table -1 S. No- (vii) (Amendment No-1)(Slip resistance, coefficient of friction (COF),) |
- |
2500 |
|
- |
Cl-5, Table -1 S. No- (viii) (Amendment No-1)("Abrasion resistance
a-Cellular sole
b-Solid sole") |
- |
1500 |
|
- |
Cl-5, Table -1 S. No- (x) (Amendment No-1)(Chemical requirements) |
- |
35000 |
|
- |
Cl-5, Table -1 S. No- (xi) (Amendment No-1)(Hydrolysis resistance) |
- |
2700 |
|
- |
Cl-5, Table -1 S. No- (xii) (Amendment No-1)(Lead content) |
- |
650 |
|
- |
Cl-6, Table -2 S. No- (i) (Amendment No-1)(Tear strength) |
- |
500 |
|
- |
Cl-6, Table -2 S. No- (ii) (Amendment No-1)("Colour fastness rubbing
a-Dry: (rubbing)
b-Wet: (rubbing)") |
- |
500 |
|
- |
Cl-6, Table -4 S. No- (iii),(Amendment No-1)(Colour fastness to rubbing , grey scale rate with 10 rubs on dry or wet, Min) |
- |
500 |
|
- |
Cl-6, Table -2 S. No- (iii), b) (Amendment No-1)(Water vapour coefficient) |
- |
630 |
|
- |
Cl-6, Table -2 S. No- (iv),(Amendment No-1)(Stitch tear strength) |
- |
500 |
|
- |
Cl-6, Table -2 S. No- (v),(Amendment No-1)(Colour fastness to light grey scale rate,) |
- |
1000 |
|
- |
Cl-6, Table -3 S. No- (i),(Amendment No-1)(Breaking strength, N/mm, Min) |
- |
500 |
|
- |
Cl-6, Table -3 S. No- (ii),(Amendment No-1)("Elongation at break
a-Tighter direction
b-Stretch direction") |
- |
500 |
|
- |
Cl-6, Table -5 S. No-(iii), (Amendment No-1)(Abrasion resistance,) |
- |
1350 |
|
- |
Cl-6, Table -5 S. No- (iv), a (Amendment No-1)(Water absorption) |
- |
630 |
|
- |
Cl-6, Table -6 S. No- (i), (Amendment No-1)(Thickness, mm, Min) |
- |
100 |
|
- |
Cl-6, Table -6 S. No- (ii), (Amendment No-1)("Abrasion resistance, cycles
a- Dry condition
b-Wet condition") |
- |
1080 |
|
- |
Cl-6, Table -6 S. No- (iii),a (Amendment No-1)(Water absorption) |
- |
350 |
|
- |
Cl-6, Table -6 S. No- (iv), b (Amendment No-1)(Water desorption, percent) |
- |
350 |
|
- |
Cl-6, Table -7 S. No- (i), (Amendment No-1)(Flexing resistance (Belt method or Bennewart method)) |
- |
1080 |
|
- |
Cl-6, Table -7 S. No- (ii), (Amendment No-1)(Hydrolysis resistance, cut growth after flexes) |
- |
2700 |
|
- |
Cl-6, Table -8 S. No- (i), (Amendment No-1)("Compression set, percent, Max
a) For EVA
b) For all other materials") |
- |
1000 |
|
- |
Cl-6, Table -8 S. No- (ii), (Amendment No-1)(Split tear strength) |
- |
500 |
|
- |
Cl-6, Table -8 S. No- (iii), (Amendment No-1)(Heat shrinkage) |
- |
1000 |
|
- |
Cl-6, Table -9 S. No- (i), (Amendment No-1)(First dry collapsing load, hardness) |
- |
800 |
|
- |
Cl-6, Table -9 S. No- (ii), (Amendment No-1)(Resilience, percent) |
- |
800 |
|
- |
Cl-6, Table -9 S. No- (iii), (Amendment No-1)(Moisture resistance) |
- |
800 |
|
- |
Cl-6, Table -9 S. No- (iv), a (Amendment No-1)(Initial dry area shape retention) |
- |
800 |
|
- |
Cl-6, Table -10 S. No- (i), (Amendment No-1)("Peel strength
a) Initial
b) After 5 000 wear cycles") |
- |
1500 |
|
- |
Cl-6, Table -10 S. No- (ii), (Amendment No-1)("Shear strength
a) Initial
b) After 5 000 wear cycles") |
- |
1500 |
|
- |
Cl-6, Table -11 S. No- (i), (Amendment No-1)(Limit of useful extension) |
- |
1000 |
|
- |
Cl-6, Table -12 S. No- (i), (Amendment No-1)(Breaking strength of lace) |
- |
500 |
|
- |
Cl-6, Table -12 S. No- (ii), (Amendment No-1)(Lace tag strength) |
- |
500 |
|
- |
Cl-6, Table -12 S. No- (iii), (Amendment No-1)(Lace to lace abrasion) |
- |
800 |
|
- |
Cl-6, Table -12 S. No- (iv), (Amendment No-1)(Colour fastness to water (for lace) (contact method)) |
- |
500 |
|
- |
Cl-6, Table -12 S. No (v), (Amendment No-1)(Strength of buckle/ski hook) |
- |
800 |
|
- |
Cl-6, Table -12 S. No- (vi), (Amendment No-1)(Corrosion resistance) |
- |
900 |
|
- |
|
Complete
|
|
19 Jul, 2024 |
Exclusion: Table 1 (vi) Colour fastness to light
Amendment No.1 included w.e.f. 26.02.2024 Exclusion: Cl.6 Table-2 Sl No.(v) Colour Fastness to light |
2 |
IS 6721 (2023) |
SANDAL AND SLIPPERS SPECIFICATION First revision |
-
|
47000 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
Cl. No.4(SHAPE AND DESIGN) |
- |
100 |
|
- |
Cl. No.5("SIZE AND FITTINGS
") |
- |
100 |
|
- |
Cl. No.6("CONSTRUCTION
") |
- |
100 |
|
- |
Cl. No.7(MATERIAL) |
- |
100 |
|
- |
Cl. No.8.1, Table no. 1(i),a("Tear strength, (other
than moulded upper material)
") |
- |
500 |
|
- |
Cl. No.8.1, Table no. 1(i),b("For all moulded upper material
") |
- |
1500 |
|
- |
Cl. No.8.1, Table no. 1(ii)(Flexing endurance) |
- |
1500 |
|
- |
Cl. No.8.2,Table no. 2(i)(Tear strength) |
- |
500 |
|
- |
Cl. No.8.2,Table no. 2(ii),a("Abrasion resistance-
At dry condition") |
- |
1350 |
|
- |
Cl. No.8.2,Table no. 2(ii),b("Abrasion resistance-
At wet condition") |
- |
1350 |
|
- |
Cl. No.8.3,Table no. 3(i)(Tear strength) |
- |
500 |
|
- |
Cl. No.8.3,Table no. 3(ii),a("Abrasion resistance-
At dry condition") |
- |
1350 |
|
- |
Cl. No.8.3,Table no. 3(ii),b("Abrasion resistance-
At wet condition") |
- |
1350 |
|
- |
Cl. No.8.4,Table no. 4(i)(Grain crack index) |
- |
900 |
|
- |
Cl. No.8.4,Table no. 4(ii)(Density) |
- |
300 |
|
- |
Cl. No.8.4,Table no. 4(iii)(Abrasion resistance) |
- |
1350 |
|
- |
Cl. No.8.4,Table no. 5(i)(Density) |
- |
300 |
|
- |
Cl. No.8.4,Table no. 5(ii)("Abrasion resistance, Volume
loss ") |
- |
1080 |
|
- |
Cl. No.8.4, Table no. 5(iii)("Flexing resistance, At 30 000
flexes") |
- |
1350 |
|
- |
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)") |
- |
1080 |
|
- |
Cl. No.8.5, Table no. 6(ii)("Toe post attachment strength, N, Min
(Applicable if toe post is present)") |
- |
800 |
|
- |
Cl. No.8.5, Table no. 6(iii)("Toe ring attachment strength, Min
(Applicable if toe ring is not integral part of upper") |
- |
800 |
|
- |
Cl. No.8.5, Table no. 6(iv)(Strap to outsole strength) |
- |
800 |
|
- |
Cl. No.8.5, Table no. 6(v)("Attachment strength of back strap and
Buckle/D-ring ") |
- |
800 |
|
- |
Cl. No.8.5, Table no. 6(vi)("Attachment strength of elastic, limit of useful
extension, percent") |
- |
800 |
|
- |
Cl. No.8.5, Table no. 6(vii)("Attachment strength of back strap and velcro, N,
Min (If, present)") |
- |
800 |
|
- |
Cl. No.8.5, Table no. 6(viii)("Hydrolysis resistance,
Cut growth after 150 000 flexes, mm, Max
(Applicable for PU sole only)") |
- |
2700 |
|
- |
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)") |
- |
1200 |
|
- |
Cl. No.8.5, Table no. 6(x)("Inter layer bond strength, N/mm,
(Applicable for multi-layer sole)") |
- |
1080 |
|
- |
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)") |
- |
2500 |
|
- |
Cl. No.8.("Requirement of Complete Sandal and Slipper
(Chemical Requirements) ") |
- |
35000 |
|
WITH CHEMICAL TEST 47000, WITHOUT 12000
10% DISCOUNT TO BIS |
Cl. No.9.(MARKING AND PACKING) |
- |
180 |
|
- |
Cl. No.8.6.1,Table 1 of IS 17011(i)(Allergenic and carcinogenic disperse dyes) |
- |
4500 |
|
- |
Cl. No.8.6.1,Table 1 of IS 17011(ii)(Aromatic amines released from Azo dyes (each individual amine)) |
- |
3700 |
|
- |
Cl. No.8.6.1,Table 1 of IS 17011(iv)(Chromium (VI)) |
- |
2100 |
|
- |
Cl. No.8.6.1,Table 1 of IS 17011(v)(Dimethyl fumarate (DMFU)) |
- |
5000 |
|
- |
Cl. No.8.6.1,Table 1 of IS 17011(vi)(Formaldehyde (free or released by partial hydrolysis)) |
- |
2500 |
|
- |
Cl. No.8.6.1,Table 1 of IS 17011(vii)(Formaldehyde) |
- |
2500 |
|
- |
Cl. No.8.6.1,Table 1 of IS 17011(viii)(Organotin compounds) |
- |
7000 |
|
- |
Cl. No.8.6.1,Table 1 of IS 17011(ix)(PCP-TeCP-TriCP polychlorophenols) |
- |
4500 |
|
- |
Cl. No.8.6.1,Table 1 of IS 17011(x)(pH) |
- |
500 |
|
- |
Cl. No.8.6.1,Table 1 of IS 17011(xi)(Phthalates (each individual phthalate)) |
- |
6000 |
|
- |
Cl. No.8.6.1,Table 1 of IS 17011(xii)(Nickel, on skin contact 2-(thiocyanomethylthio) -benzothiazole (TCMTB)) |
- |
3500 |
|
- |
Cl. No.8.6.2(Lead content) |
- |
2000 |
|
- |
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) |
- |
1080 |
|
- |
Cl.8 Table-1 S.No 1, (ii) (Amendment No-1)(Toe post attachment strength) |
- |
800 |
|
- |
Cl.8 Table-1 S.No 1, (iii) (Amendment No-1)(Toe ring attachment strength) |
- |
800 |
|
- |
Cl.8 Table-1 S.No 1, (iv) (Amendment No-1)(Strap to outsole strength N, Min) |
- |
800 |
|
- |
Cl.8 Table-1 S.No 1, (v) (Amendment No-1)(Attachment strength of back strap and buckle/D-ring N, Min) |
- |
800 |
|
- |
Cl.8 Table-1 S.No 1, (vi) (Amendment No-1)(Limit of useful extension, percent, Min) |
- |
1000 |
|
- |
Cl.8 Table-1 S.No 1, (vii) (Amendment No-1)(Attachment strength of back strap and velcro, N, Mi) |
- |
800 |
|
- |
Cl.8 Table-1 S.No 1, (viii) (Amendment No-1)(Hydrolysis resistance) |
- |
2700 |
|
- |
Cl.8 Table-1 S.No 1, (ix) (Amendment No-1)(Heel pull off strength) |
- |
1200 |
|
- |
Cl.8 Table-1 S.No 1, (x) (Amendment No-1)(Inter layer bond strength) |
- |
1080 |
|
- |
Cl.8 Table-1 S.No 1, (xi) (Amendment No-1)(Slip resistance, coefficient of friction (COF)3) |
- |
2500 |
|
- |
Cl.8 Table-1 S.No 1, (xii) (Amendment No-1)(Abrasion resistance, (volume loss) mm3 , Max) |
- |
1080 |
|
- |
Cl.8 Table-1 S.No 1, (xiii) (Amendment No-1)("Flexing resistance (Belt method or
Bennewart flex method)") |
- |
1080 |
|
- |
Cl.8 Table-1 S.No 1, (xiv) (Amendment No-1)(Chemical Requirements) |
- |
30000 |
|
- |
Cl.8 Table-1 S.No 1, (xv) (Amendment No-1)(Lead content (as Pb)7 ppm) |
- |
650 |
|
- |
Cl.9 Table-2 S.No 1, (i) a (Amendment No-1)(Tear strength for other than moulded upper material) |
- |
500 |
|
- |
Cl.9 Table-2 S.No 1, (ii) (Amendment No-1)(Flexing endurance) |
- |
1500 |
|
- |
Cl.9 Table-3 S.No 1, (i) (Amendment No-1)(Tear strength, N, Min) |
- |
500 |
|
- |
Cl.9 Table-3 S.No 1, (ii) (Amendment No-1)("Abrasion resistance
(a) dry condition
(b) wet condition") |
- |
1080 |
|
- |
Cl.9 Table-4 S.No 1, (i) (Amendment No-1)(Tear strength, N, Min) |
- |
500 |
|
- |
Cl.9 Table-4 S.No 1, (ii) (Amendment No-1)("Abrasion resistance
(a) dry condition
(b) wet condition") |
- |
1080 |
|
- |
Cl.9 Table-5 S.No 1, (i) (Amendment No-1)(Grain crack index) |
- |
900 |
|
- |
Cl.9 Table-5 S.No 1, (ii) (Amendment No-1)(Density, g/cm3 , Min) |
- |
300 |
|
- |
Cl.9 Table-5 S.No 1, (iii) (Amendment No-1)(Abrasion resistance, mm/kcs) |
- |
1350 |
|
- |
Cl.9 Table-6 S.No 1, (i) (Amendment No-1)("Density, g/cm3 , Min
(a)-Cellular, (b) Solid
") |
- |
300 |
|
- |
Cl-10 (Amendment No-1)(Marking) |
- |
150 |
|
- |
|
Complete
|
|
19 Jul, 2024 |
- |
3 |
IS 10702 (2023) |
Hawai Chappal-Specification |
-
|
42000 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
4.1(Material) |
- |
180 |
|
- |
4.2(Length) |
- |
180 |
|
- |
4.3(Thickness) |
- |
180 |
|
- |
4.4 , Table No. 1 , i)(Density) |
- |
300 |
|
- |
4.4 , Table No. 1 , ii)(2Compression set at constant stress) |
- |
1000 |
|
- |
4.4 , Table No. 1 , iii)(3Split tear strength) |
- |
500 |
|
- |
4.4 , Table No. 1 , iv)("Shrinkage at 50 ºC ± 1 ºC for 24 h for polymeric material,
Shrinkage at 100 ºC ± 1 ºC for 1 h for rubber") |
- |
2000 |
|
- |
4.4 , Table No. 1 , v)(5Abrasion resistance at applied force) |
- |
1080 |
|
- |
4.4 , Table No. 1 , vi)(Flexing resistance: Maximum cut growth at 50 000 flexes) |
- |
1500 |
|
- |
4.4 , Table No. 1 , vii)(7 Hydrolysis resistance, Maximum cut growth at 50 000 flexes) |
- |
2700 |
|
- |
4.4 , Table No . 2 , i)(Density , Solid strap, Cellular strap) |
- |
300 |
|
- |
4.4 , Table No . 2 , ii)("Breaking strength , Strap to strap and
Toe portion to strap , Elongation at break") |
- |
500 |
|
- |
4.4 , Table No . 2 , iii)(Minimum cross section of the stud) |
- |
180 |
|
- |
4.4 , Table No . 2 , iv)(Stud bolt) |
- |
180 |
|
- |
4.4 , Table No . 3 , i)(Toe post attachment strength) |
- |
800 |
|
- |
4.4 , Table No . 3 , ii)(Attachment strength of rear strap) |
- |
800 |
|
- |
4.4 , Table No . 3 , iii)(Inter layer bond strength) |
- |
1080 |
|
- |
5(CHEMICAL REQUIREMENT FOR HAWAI CHAPPAL) |
- |
35000 |
|
WITHOUT CHEMICAL 7000
10% DISCOUNT TO BIS |
6(MARKING AND PACKING) |
- |
150 |
|
- |
Cl-4 ((Amendment No-1)(Category And Type) |
- |
0 |
|
- |
Cl-4.4, Table -1 S. No-1 (i) (Amendment No-1)(Compression set at constant stress) |
- |
1000 |
|
- |
Cl-4.4, Table -1 S. No-1 (ii) (Amendment No-1)(Split tear strength) |
- |
500 |
|
- |
Cl-4.4, Table -1 S. No-1 (iii) (a)(Amendment No-1)("Shrinkage at Shrinkage at 50 °C ± 1 °C for 2 h for polymeric material, percent, Max
") |
- |
2000 |
|
- |
Cl-4.4, Table -1 S. No-1 (iii)(b) (Amendment No-1)(Shrinkage at 100 °C ± 1 °C for 1 h for rubber, percent, Max) |
- |
1000 |
|
- |
Cl-4.4, Table -1 S. No-1 (iv) (Amendment No-1)(Abrasion resistance at applied force) |
- |
1080 |
|
- |
Cl-4.4, Table -1 S. No-1 (v) (Amendment No-1)(Flexing resistance: Maximum cut growth,) |
- |
1500 |
|
- |
Cl-4.4, Table -1 S. No-1 (vi) (Amendment No-1)(Hydrolysis resistance:Maximum cut growth) |
- |
2700 |
|
- |
Cl-4.4, Table -1 S. No-1 (vii) (Amendment No-1)(Chemical requirements) |
- |
30000 |
|
- |
Cl-4.4, Table -1 S. No-1 (viii) (Amendment No-1)("Lead content (as Pb),
ppm, Max") |
- |
650 |
|
- |
Cl-4.4, Table -2 S. No-1 (i), a (Amendment No-1)("Breaking strength for Strap to strap
1-Solid strap
2-Cellular strap") |
- |
250 |
|
- |
Cl-4.4, Table -2 S. No-1 (i), b (Amendment No-1)("Breaking strength for Toe portion to strap
1-Solid strap
2-Cellular strap") |
- |
250 |
|
- |
Cl-4.4, Table -2 S. No-1 (i), c (Amendment No-1)("Elongation at break , percent, Min
1-Solid strap
2-Cellular strap") |
- |
250 |
|
- |
Cl-4.4, Table -2 S. No-1 (ii), (Amendment No-1)(Chemical requirements) |
- |
30000 |
|
- |
Cl-4.4, Table -2 S. No-1 (iii), (Amendment No-1)(Lead content (as Pb), in ppm, Max) |
- |
650 |
|
- |
Cl-4.4, Table -3 S. No-1 (i), (Amendment No-1)(Toe post attachment strength) |
- |
800 |
|
- |
Cl-4.4, Table -3 S. No-1 (ii), (Amendment No-1)(Attachment strength of rear strap) |
- |
800 |
|
- |
Cl-4.4, Table -3 S. No-1 (iii), (Amendment No-1)(Inter layer bond strength) |
- |
1080 |
|
- |
|
Complete
|
|
19 Jul, 2024 |
- |
4 |
IS 13893 (1994) |
Polyurethane soles semirigid - specification |
-
|
6000 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
4.3.2(Ageing test) |
- |
2700 |
|
- |
4.3(Ross Flex test) |
- |
2000 |
|
- |
4.3(Flexural strength ) |
- |
2000 |
|
- |
4.3(Abrasion Resistance) |
- |
1080 |
|
- |
4.3(Elongation at break) |
- |
500 |
|
- |
4.3(Tensile Strength ) |
- |
500 |
|
- |
4.3(Hardness Shore(A)) |
- |
300 |
|
- |
4.3(Relative density ) |
- |
300 |
|
- |
4.2(Thickness ) |
- |
180 |
|
- |
4.1(Design) |
- |
150 |
|
- |
Cl.5, 5.1, 5.2(Packing And Marking) |
- |
180 |
|
- |
4.2 (Amendment 2)(Thickness) |
- |
100 |
|
- |
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) |
- |
1080 |
|
- |
4.3.1 Table 1 iv) (Amendment 2)(Flexing Resistance, Bennewart method) |
- |
1080 |
|
- |
4.3.1 Table 1 v) (Amendment 2)(Hydrolysis Resistance, cut growth after 150000 flexes) |
- |
2700 |
|
- |
4.3.1 Table 1 vi) (Amendment 2)(Tensile Strength) |
- |
250 |
|
- |
4.3.1 Table 1 vii) (Amendment 2)(Elongation at break) |
- |
250 |
|
- |
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) |
- |
600 |
|
- |
|
Complete
|
|
19 Jul, 2024 |
- |
5 |
IS 5676 (1995) |
Moulded solid rubber soles and heels - SpecificatlOn (Second Revision) |
-
|
5000 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
5/5.1(REQUIREMENTS-General) |
- |
100 |
|
- |
5/5.5- Table1(REQUIREMENTS-Thickness) |
- |
180 |
|
- |
6(Marking and packing) |
- |
180 |
|
- |
5/5.7- Table2(REQUIREMENTS- Physical Requirements-
as per IS 3400 (Part 1, Part 2, Part 4, Part 9, Part 10, Part 16)) |
- |
4000 |
|
- |
Cl.6.1,6.2,6.3(Marking and packing) |
- |
180 |
|
- |
5/5.2- Fig. 1 to 5(REQUIREMENTS-Design) |
- |
100 |
|
- |
5/5.3/5.3.1(REQUIREMENTS- Construction) |
- |
150 |
|
- |
5/5.6/5.6.1(REQUIREMENTS-Channel) |
- |
100 |
|
- |
8.3(Measurement of thickness) |
- |
180 |
|
- |
5.5 (Amendment 1)(Thickness) |
- |
180 |
|
- |
5.7 Table 2 i) (Amendment 1)(Relative Density) |
- |
300 |
|
- |
5.7, Table 2 ii) (Amendment 1)(Hardness, degree, Shore A) |
- |
600 |
|
- |
5.7, Table 2 iv) (Amendment 1)(Abrasion Resistance at applied force of 10 N) |
- |
1080 |
|
- |
5.7, Table 2 v) (Amendment 1)(Tensile strength) |
- |
250 |
|
- |
5.7, Table 2 vi) (Amendment 1)(Elongation at break) |
- |
250 |
|
- |
5.7, Table 2 vii) (Amendment 1)(Tear strength (average force)) |
- |
500 |
|
- |
5.7, Table 2 iii) (Amendment 1)(Flexing resistance) |
- |
1080 |
|
- |
|
Complete
|
|
19 Jul, 2024 |
- |
6 |
IS 374 (2019) |
Specification for electric ceiling type fans and regulators (Third Revision) |
-
|
26250 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
7(Classification (as per Cl.6 of IS 302-2-80 :2017)) |
- |
500 |
|
10% discount on BIS samples |
8.1(Marking (as per Cl. 7 of IS 302-2-80:2017)) |
- |
500 |
|
10% discount on BIS samples |
8.1,a(Marking ) |
- |
500 |
|
10% discount on BIS samples |
8.1,b(Marking ) |
- |
500 |
|
10% discount on BIS samples |
8.1,c(Marking ) |
- |
500 |
|
10% discount on BIS samples |
8.1,d(Marking ) |
- |
500 |
|
10% discount on BIS samples |
8.1,e(Marking ) |
- |
500 |
|
10% discount on BIS samples |
8.1,f(Marking ) |
- |
500 |
|
10% discount on BIS samples |
8.1,g(Marking ) |
- |
500 |
|
10% discount on BIS samples |
8.2(Marking ) |
- |
500 |
|
10% discount on BIS samples |
8.3,a(Marking ) |
- |
500 |
|
10% discount on BIS samples |
8.3,b(Marking ) |
- |
500 |
|
10% discount on BIS samples |
8.3,c(Marking ) |
- |
500 |
|
10% discount on BIS samples |
8.3,d(Marking ) |
- |
500 |
|
10% discount on BIS samples |
8.3,e(Marking ) |
- |
500 |
|
10% discount on BIS samples |
8.4(Marking ) |
- |
500 |
|
10% discount on BIS samples |
8(Marking (as per Cl. 7.1 of IS 302-2-80:2017)) |
- |
500 |
|
10% discount on BIS samples |
8(Marking (as per Cl. 7 of IS 302-2-80:2017, Cl.7.1 (f) of IS 302-1:2008)) |
- |
500 |
|
10% discount on BIS samples |
8(Marking (as per Cl. 7 of IS 302-2-80:2017, Cl.7.1(g) of IS 302-1:2008)) |
- |
500 |
|
10% discount on BIS samples |
8(Marking (as per Cl.7.12.1(a) of IS 302-2-80:2017)) |
- |
500 |
|
10% discount on BIS samples |
6.2(Rating) |
- |
500 |
|
10% discount on BIS samples |
9(Protection against access to live parts (as per Cl.8 of IS 302-2-80 :2017)) |
- |
2000 |
|
10% discount on BIS samples |
9(Power Input & current (as per Cl.10 of IS 302-2-80 :2017)) |
- |
2000 |
|
10% discount on BIS samples |
9( Heating (as per Cl.11 of IS 302-2-80 :2017)) |
- |
2000 |
|
10% discount on BIS samples |
9(Leakage current and Electric strength at operating temperature (as per Cl.13 of IS 302-2-80 :2017)) |
- |
2000 |
|
10% discount on BIS samples |
9(Transient over Voltage (as per Cl.14 of IS 302-2-80 :2017)) |
- |
5000 |
|
10% discount on BIS samples |
9(Moisture Resistance (After Humidity test) (as per Cl.15 & Cl.16 of IS 302-2-80 :2017) ) |
- |
5000 |
|
10% discount on BIS samples |
9(Overload protection of transformers and associated circuits (as per Cl.17 of IS 302-2-80 :2017)) |
- |
2000 |
|
10% discount on BIS samples |
9( Abnormal Operation (as per Cl.19 of IS 302-2-80 :2017)) |
- |
2000 |
|
10% discount on BIS samples |
9(Staibilty and mechanical hazards (as per Cl.20.102, Table 101 of IS 302-2-80 :2017)) |
- |
2000 |
|
10% discount on BIS samples |
9(Mechanical strength (as per Cl.21 of IS 302-2-80 :2017 and Cl.21.1 of IS 302-2:2008)) |
- |
2000 |
|
10% discount on BIS samples |
9(Mechanical strength (as per Cl.21 of IS 302-2-80 :2017)) |
- |
2000 |
|
10% discount on BIS samples |
9(Mechanical strength (as per Cl.21.102 of IS 302-2-80 :2017)) |
- |
2000 |
|
10% discount on BIS samples |
9(Construction (as per Cl.22.101 of IS 302-2-80 :2017)) |
- |
2000 |
|
10% discount on BIS samples |
9(Internal wiring (as per Cl.23 of IS 302-2-80 :2017 and Cl.23 of IS 302-1:2008)) |
- |
2000 |
|
10% discount on BIS samples |
9(Components (as per Cl.24.103 of IS 302-2-80 :2017)) |
- |
2000 |
|
10% discount on BIS samples |
9(Components (as per Cl.24.104 of IS 302-2-80 :2017)) |
- |
2000 |
|
10% discount on BIS samples |
9(Supply Connection and External Flexible cords (as per Cl.25 of IS 302-2-80 :2017)) |
- |
2000 |
|
10% discount on BIS samples |
9(Terminals for External conductors (as per Cl.26 of IS 302-2-80 :2017)) |
- |
2000 |
|
10% discount on BIS samples |
9(Provision for earthing (as per Cl.27 of IS 302-2-80 :2017)) |
- |
2000 |
|
10% discount on BIS samples |
9(Screw and connections (as per Cl.28 of IS 302-2-80 :2017)) |
- |
1000 |
|
10% discount on BIS samples |
9(Clearances, creepage distances and solid insulation (as per Cl.29 of IS 302-2-80 :2017)) |
- |
1000 |
|
10% discount on BIS samples |
9(Resistance to fire (Glow wire Test) (as per Cl.30 of IS 302-2-80 :2017)) |
- |
2000 |
|
10% discount on BIS samples |
9(Resistance to rusting (as per Cl.31 of IS 302-2-80 :2017)) |
- |
2000 |
|
10% discount on BIS samples |
10.1(Speed Regulators) |
- |
2000 |
|
10% discount on BIS samples |
10.2(Speed Regulators) |
- |
2000 |
|
10% discount on BIS samples |
10.3(Speed Regulators) |
- |
2000 |
|
10% discount on BIS samples |
10.4(Speed Regulators) |
- |
2000 |
|
10% discount on BIS samples |
10.5(Speed Regulators) |
- |
2000 |
|
10% discount on BIS samples |
10.6(Speed Regulators) |
- |
2000 |
|
10% discount on BIS samples |
10.7(Speed Regulators) |
- |
2000 |
|
10% discount on BIS samples |
10.8(Speed Regulators) |
- |
2000 |
|
10% discount on BIS samples |
11.1(Starting) |
- |
2000 |
|
10% discount on BIS samples |
11.2(Starting) |
- |
2000 |
|
10% discount on BIS samples |
12(Interchangeability) |
- |
2000 |
|
10% discount on BIS samples |
13(Silent Operation) |
- |
5000 |
|
10% discount on BIS samples |
14.3 & Table 1(Test for Air Performance) |
- |
5000 |
|
10% discount on BIS samples |
14.4(Measurement of Speed of the Fan ) |
- |
4000 |
|
10% discount on BIS samples |
14.5(Measurement of Power factor and Power Input) |
- |
4000 |
|
10% discount on BIS samples |
16(Endurance Test) |
- |
5000 |
|
10% discount on BIS samples |
17(Test for Harmonic Distortion) |
- |
4000 |
|
10% discount on BIS samples |
4(GENERAL REQUIREMENTS) |
- |
1000 |
|
- |
5(GENERAL NOTES ON TESTS) |
- |
1000 |
|
- |
15.1, 15.2(Air delivery and service value) |
- |
12000 |
|
- |
|
Complete
|
|
19 Jul, 2024 |
- |
7 |
IS 17043 (2018) |
Derby shoes - Specification |
-
|
54000 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
5.0(Innocuosness test IS 17011) |
- |
35000 |
|
Innocuosness test price: 35000;
without Innocuosness 19000 per sample
10% discount to BIS |
4.15.2(Breaking load & tag retention) |
- |
500 |
|
- |
4.15.1(Length of laces ) |
- |
100 |
|
- |
4.14(Eyelet pull out test) |
- |
100 |
|
- |
4.13.8(Flex resistance ) |
- |
1080 |
|
- |
4.13.7(Abrasion resistance ) |
- |
1080 |
|
- |
4.13.6(Tear Strength) |
- |
800 |
|
- |
4.13.5(Ageing test) |
- |
500 |
|
- |
4.13.4(Hardness (IRHD)) |
- |
2000 |
|
- |
4.13.3(Density ) |
- |
300 |
|
- |
4.13.2(Thickness ) |
- |
180 |
|
- |
4.13.1(Meterial) |
- |
180 |
|
- |
4.12(Breaking Strength of thread) |
- |
800 |
|
- |
4.11.2(Tear Strength) |
- |
500 |
|
- |
4.11.1(Thickness ) |
- |
180 |
|
- |
4.10(Toe Puff & counter stiffener thickness ) |
- |
180 |
|
- |
4.9.3(Abrasion resistance ) |
- |
800 |
|
- |
4.9.2(Water absorption & desorption ) |
- |
630 |
|
- |
4.9.1(Thickness ) |
- |
180 |
|
- |
4.8.3(Water absorption & desorption ) |
- |
630 |
|
- |
4.8.2(Abrasion ) |
- |
800 |
|
- |
4.8.1(Thickness ) |
- |
180 |
|
- |
4.7.4(Water vapour permeability & coefficent ) |
- |
630 |
|
- |
4.7.3(Abrasion resistance ) |
- |
800 |
|
- |
4.7.2(Tear Strength) |
- |
500 |
|
- |
4.7.1(Thickness ) |
- |
180 |
|
- |
4.6.4(Water penetration and water absorption) |
- |
630 |
|
- |
4.6.3(Water vapour permeability & coefficent ) |
- |
630 |
|
- |
4.6.2(Tear Strength) |
- |
500 |
|
- |
4.6.1(Thickness ) |
- |
180 |
|
- |
4.5.8(Energy absorption of seat region ) |
- |
630 |
|
- |
4.5.7(Cold insulation tester ) |
- |
900 |
|
- |
4.5.6(Heat insulation of sole complex) |
- |
900 |
|
- |
4.5.5.1(Electrical Properties Antistatic ) |
- |
3000 |
|
- |
4.5.4(Slip Resitance) |
- |
2500 |
|
- |
4.5.3.2(Interayer bond strength) |
- |
1080 |
|
- |
4.5.3.1(Upper/outsole bond strength) |
- |
1080 |
|
- |
4.5.2(Ergonomic Feature) |
- |
300 |
|
- |
4.5.1(Contruction) |
- |
100 |
|
- |
4.4(Height of upper ) |
- |
180 |
|
- |
4.3.2(Weight) |
- |
180 |
|
- |
4.3.1(Size) |
- |
180 |
|
- |
4.2(Design ) |
- |
180 |
|
- |
4.1(General) |
- |
180 |
|
- |
7(Marking) |
- |
150 |
|
- |
|
Complete
|
|
19 Jul, 2024 |
- |
8 |
IS 15844 : Part 2 (2023) |
SPORTS FOOTWEAR PART -2 PERFORMANCE SPORTS FOOTWEAR |
-
|
68000 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
7.12, Table no. 1 of IS 17011,(xii)(Nickel, on skin contact 2-(thiocyanomethylthio) -benzothiazole (TCMTB)) |
- |
3500 |
|
- |
7.12, Table no. 1 of IS 17011,(xi)(Phthalates (each individual phthalate)) |
- |
6000 |
|
- |
7.12, Table no. 1 of IS 17011,(x)(pH) |
- |
500 |
|
- |
7.12, Table no. 1 of IS 17011,(ix)(PCP-TeCP-TriCP polychlorophenols) |
- |
4500 |
|
- |
7.12, Table no. 1 of IS 17011,(viii)(Organotin compounds) |
- |
7000 |
|
- |
7.12, Table no. 1 of IS 17011,(vii)(Formaldehyde) |
- |
2500 |
|
- |
7.12, Table no. 1 of IS 17011,(v)(Dimethyl fumarate (DMFU)) |
- |
5000 |
|
- |
7.12, Table no. 1 of IS 17011,(iv)(Chromium (VI)) |
- |
2100 |
|
- |
7.12, Table no. 1 of IS 17011,(iii)(Aromatic amines released from Azo dyes (each individual amine)) |
- |
3700 |
|
- |
7.12, Table no. 1 of IS 17011,(i)(Allergenic and carcinogenic disperse dyes) |
- |
4500 |
|
- |
8(MARKING AND PACKING) |
- |
180 |
|
- |
4(SAMPLING AND CONDITIONING) |
- |
180 |
|
- |
5(DESIGN) |
- |
180 |
|
- |
6(SIZE AND FITTINGS) |
- |
180 |
|
- |
7.1.1(Whole Footwear) |
- |
180 |
|
- |
7.1.2(Upper to Mid Sole/Out Sole Bond Performance) |
- |
1080 |
|
- |
7.1.3("Upper to Composite Sole Bond Performance
(Applicable Only When the Sole is Composite)") |
- |
1080 |
|
- |
7.1.4(Out Sole to Mid Sole (Multilayer) Bond Performance) |
- |
1080 |
|
- |
7.1.5(Energy Absorption at Seat Region) |
- |
700 |
|
- |
7.1.6(Complete Shoe Flexing) |
- |
1500 |
|
- |
7.1.7(Washability) |
- |
1000 |
|
- |
7.1.8(Slip Resistance) |
- |
2500 |
|
- |
7.1.9(Heel Drop) |
- |
180 |
|
- |
7.2 , Table No. 2 , i)(Flexing resistance) |
- |
1500 |
|
- |
7.2 , Table No. 2 , ii)(Tear strength (average force)) |
- |
500 |
|
- |
7.2 , Table No. 2 , iii)("Colour fastness rubbing (To and fro) Grey scale rate
Dry: (rubbing) Rating: (Marring and staining) ") |
- |
500 |
|
- |
7.2 , Table No. 2 , iv) ,a)(Water vapour permeability) |
- |
700 |
|
- |
7.2 , Table No. 2 , vii)(Tensile strength) |
- |
500 |
|
- |
7.2 , Table No. 2 , viii)(Elongation at break,) |
- |
500 |
|
- |
7.2 , Table No. 2 , ix)("Water penetration and water absorption after 60 Minutes
Water absorption %, Max Water penetration Gms, Max") |
- |
700 |
|
- |
7.2 , Table No. 2 , x)(Abrasion test (for unlined upper)) |
- |
1350 |
|
- |
7.2 , Table No. 3 , i)(Breaking strength
"As per Method 1 of IS 7016 (Part 2)/
ISO 1421 : 2016 or ISO 17706") |
- |
500 |
|
- |
7.2 , Table No. 3 , ii)(Elongation at break) |
- |
500 |
|
- |
7.2 , Table No. 3 , iii)(Tear strength, N, Min For Fabric: For all other materials) |
- |
500 |
|
- |
7.2 , Table No. 3 , iv)(Strength at needle perforation) |
- |
600 |
|
- |
7.2 , Table No. 3 , v)("Flexing resistance, no crack/damage to coating/ lamination
/ upper material till prescribed cycles") |
- |
1500 |
|
- |
7.2 , Table No. 3 , vi) , a)(Water vapour permeability,) |
- |
700 |
|
- |
7.2 , Table No. 3 , vi) , b)("Water vapour coefficient,
") |
- |
700 |
|
- |
7.2 , Table No. 3 , vi)(Hydrolysis resistance) |
- |
2700 |
|
- |
7.2 , Table No. 3 , vii)(Colour fastness to light grey scale rate) |
- |
300 |
|
- |
7.2 , Table No. 3 , viii)(Bursting Strength,) |
- |
1000 |
|
- |
7.3 , Table No. 4 , ii)(Abrasion resistance, cycles) |
- |
500 |
|
- |
7.3 , Table No. 4 , i)(Tear strength,) |
- |
500 |
|
- |
7.3 , Table No. 4 , iii)("Colour fastness to rubbing (crocking), Grey scale
rate with 10 rubs on dry or wet, ") |
- |
500 |
|
- |
7.3 , Table No. 4 , iv)("Colour fastness to perspiration (contact method)
Grey scale rate, ") |
- |
300 |
|
- |
7.3 , Table No. 4 , v) , b)("Water vapour coefficient,
"
As per IS 15298 (Part 1)) |
- |
700 |
|
- |
7.4 , Table No. 5 , i)(Thickness) |
- |
180 |
|
- |
7.4 , Table No. 5 , ii)(Flexing index) |
- |
800 |
|
- |
7.4 , Table No. 5 , iii)(Abrasion resistance, at 400 cycles) |
- |
1350 |
|
- |
7.4 , Table No. 5 , iv) , a)(Water Absorption,) |
- |
700 |
|
- |
7.4 , Table No. 5 , iv) , b)(Water Desorption) |
- |
700 |
|
- |
7.5 , Table No. 6 , i)(Thickness) |
- |
180 |
|
- |
7.5 , Table No. 6 , ii)(Abrasion resistance, cycles
As per IS 15298 (Part 1)) |
- |
1350 |
|
- |
7.5 , Table No. 6 , iii) , a)(Water Absorption) |
- |
700 |
|
- |
7.5 , Table No. 6 , iv)(Heat resistance shrinkage linear) |
- |
1000 |
|
- |
7.6 , Table No. 7 , i)(Abrasion resistance (volume loss)) |
- |
1350 |
|
- |
7.6 , Table No. 7 , ii)(Flexing resistance) |
- |
1080 |
|
- |
7.6 , Table No. 7 , iii)(Hydrolysis resistance, cut growth after 1 50 000 flexes) |
- |
2700 |
|
- |
7.6 , Table No. 7 , iv)(Tear strength) |
- |
500 |
|
- |
7.6 , Table No. 7 , v)(Tensile strength) |
- |
500 |
|
- |
7.8 , Table No. 9 , i)(First dry collapsing load, hardness) |
- |
800 |
|
- |
7.6 , Table No. 7 , vii)(Compression set) |
- |
800 |
|
- |
7.7 , Table No. 8 , i)(Compression set) |
- |
800 |
|
- |
7.7 , Table No. 8 , ii)(Split tear strength,) |
- |
500 |
|
- |
7.7 , Table No. 8 , iii)(Heat shrinkage,) |
- |
1000 |
|
- |
7.8 , Table No. 9 , ii)(Resilience) |
- |
800 |
|
- |
7.8 , Table No. 9 , iii)(Moisture resistance) |
- |
800 |
|
- |
7.8 , Table No. 9 , iv) , a)(Initial dry area shape retention) |
- |
800 |
|
- |
7.8 , Table No. 9 , iv) , b)(Area shape retention after 10th collapse, dry) |
- |
800 |
|
- |
7.8 , Table No. 9 , v)(Peel strength) |
- |
1500 |
|
- |
7.9 , Table No. 10 , i)(Peel strength) |
- |
1500 |
|
- |
7.9 , Table No. 10 , ii)(Shear strength) |
- |
1500 |
|
- |
7.10 , Table No. 11 , i)(Limit of useful extension,) |
- |
1000 |
|
- |
7.10 , Table No. 11 , ii)(Needle strength,) |
- |
600 |
|
- |
7.11 , Table No. 12 , i)(Breaking strength of lace,) |
- |
500 |
|
- |
7.11 , Table No. 12 , ii)(Lace tag strength,) |
- |
500 |
|
- |
7.11 , Table No. 12 , iii)(Lace to lace abrasion,) |
- |
800 |
|
- |
7.11 , Table No. 12 , iv)("Colour fastness to water
Gray Scale Rate") |
- |
500 |
|
- |
7.11 , Table No. 12 , v)(Strength of Buckle/Ski hook) |
- |
800 |
|
- |
7.11 , Table No. 12 , vi)(Corrosion resistance) |
- |
900 |
|
- |
7.12("Chemical Requirement on Complete Product
for All Types of Sports Shoe") |
- |
35000 |
|
TOTAL PRICE WITH CHEMICAL TEST 68000; WITHOUT CHEMICAL TEST 33000
10% DISCOUNT TO BIS |
|
Complete
|
|
19 Jul, 2024 |
Exclusion: Table- 2 (vi) Colour Fastness to Light & Table- 3 (viii) Colour Fastness to Light |
9 |
IS 16994 (2018) |
Footwear for Men and Women for Municipal Scavenging Work |
-
|
9000 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
8.6(Phthalates contect ) |
- |
6000 |
|
- |
8.6(Carcinogenic Disperse Dyes) |
- |
4500 |
|
- |
8.6(Allergenic Disperse Dyes) |
- |
4500 |
|
- |
8.6(Leak Proof test) |
- |
900 |
|
- |
8.4(Volatility & lead content ) |
- |
800 |
|
- |
8.3(Compression Resistance) |
- |
630 |
|
- |
8.3(Impact resistance ) |
- |
630 |
|
- |
8.2(Internal Toe cap length) |
- |
180 |
|
- |
8.1(Height of upper ) |
- |
1080 |
|
- |
8.0(Construction) |
- |
180 |
|
- |
7.10(Ageing test) |
- |
2000 |
|
- |
7.9(Hydrolysis) |
- |
2700 |
|
- |
7.8(Insocks Material ) |
- |
100 |
|
- |
7.7.5(Upper / Outsole bond strength) |
- |
1080 |
|
- |
7.7.4(Interlayer Bond Strength ) |
- |
1080 |
|
- |
7.7.3(Flexing Resistance ) |
- |
1080 |
|
- |
7.7.2(Abrasion Resistance) |
- |
1080 |
|
- |
7.7.1(Tear Strength ) |
- |
500 |
|
- |
7.7(Hardness (IRHD)) |
- |
300 |
|
- |
7.7(Thickness) |
- |
180 |
|
- |
7.7(Density ) |
- |
300 |
|
- |
7.6(Peel Strength ) |
- |
1080 |
|
- |
7.6(Shape retention) |
- |
800 |
|
- |
7.6(Moisture ) |
- |
800 |
|
- |
7.6(Resilience test ) |
- |
800 |
|
- |
7.6(Hardness) |
- |
800 |
|
- |
7.6(Dry collapsing) |
- |
800 |
|
- |
7.5(Insocks ) |
- |
800 |
|
- |
7.5(Insoles ) |
- |
1350 |
|
- |
7.5(Water abrasion & desorption) |
- |
630 |
|
- |
7.5(Thickness ) |
- |
180 |
|
- |
7.4(Tensile Strength ) |
- |
500 |
|
- |
7.4(Abrasion Resistance) |
- |
1350 |
|
- |
7.4(Tear Strength ) |
- |
500 |
|
- |
7.3(Flexing Resistance ) |
- |
1500 |
|
- |
7.3(Tensile Strength ) |
- |
500 |
|
- |
7.3(Thickness ) |
- |
180 |
|
- |
7.3(Water Vapour permeability & coefficient ) |
- |
700 |
|
- |
7.3(Tear Strength ) |
- |
1080 |
|
- |
7.1(Compression Tester) |
- |
630 |
|
- |
7.1(Impact resistance ) |
- |
630 |
|
- |
|
Complete
|
|
19 Jul, 2024 |
- |
10 |
IS 5557 : Part 2 (2018) |
All rubber gum boots and ankle boots: Part 2 occupational purposes |
-
|
19000 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
3.1(VISUAL) |
- |
100 |
|
- |
3.2(specificgravity) |
- |
200 |
|
- |
3.3(specificgravity) |
- |
200 |
|
- |
3.4(specificgravity) |
- |
200 |
|
- |
3.5(visual) |
- |
200 |
|
- |
3.6(VISUAL) |
- |
200 |
|
- |
3.7(VISUAL) |
- |
200 |
|
- |
4(visual) |
- |
200 |
|
- |
5(visual) |
- |
200 |
|
- |
6(visual) |
- |
200 |
|
- |
7.1(visual) |
- |
200 |
|
- |
7.1.1(Tear strength) |
- |
500 |
|
- |
7.1.2(Abrasion resistance) |
- |
1350 |
|
- |
7.2(all test of table 1) |
- |
1000 |
|
- |
7.3(all test of table 2) |
- |
1000 |
|
- |
7.3(sulphur test) |
- |
800 |
|
- |
7.4(Visual) |
- |
200 |
|
- |
7.4.1(all test of table 3) |
- |
3000 |
|
- |
7.5(Visual) |
- |
200 |
|
- |
7.5.1(Tensile) |
- |
500 |
|
- |
7.5.2(Thickness) |
- |
180 |
|
- |
7.5.3(Upper flexing) |
- |
1500 |
|
- |
7.6(VISUAL) |
- |
100 |
|
- |
7.6.1(Out sole thickness) |
- |
180 |
|
- |
7.6.2(out sole tear strength) |
- |
500 |
|
- |
7.6.3(out sole abrasion) |
- |
1080 |
|
- |
7.6.4(out sole flexing) |
- |
1080 |
|
- |
7.6.5(Interlayer bond strength) |
- |
1080 |
|
- |
7.7(INSOCK Visual) |
- |
180 |
|
- |
7.7.1(Insock thickness) |
- |
180 |
|
- |
7.7.2(Insock abrasion) |
- |
1350 |
|
- |
8(CONSTRUCTION) |
- |
180 |
|
- |
8.1(Hot contact) |
- |
900 |
|
- |
8.2(Leak proofness) |
- |
900 |
|
- |
8.3(Height of upper) |
- |
180 |
|
- |
8.4(Adhesion test) |
- |
1080 |
|
- |
8.5(Resistance to acid & alkaline) |
- |
1080 |
|
- |
8.6(Resistance to fule oil) |
- |
900 |
|
- |
8.7.1(Antistatic) |
- |
3100 |
|
- |
8.7.2(CONDUCTIVE FOOTWEAR) |
- |
3100 |
|
- |
8.7.3(Elecrically nsulating footwear) |
- |
3000 |
|
- |
8.7.4(Resistance to cold) |
- |
900 |
|
- |
9.1(ALLERIGIC DISPERSE DYES) |
- |
4500 |
|
- |
9.2(Carcinogenic Disperse dyes) |
- |
4500 |
|
- |
9.3(Phthalate) |
- |
6000 |
|
- |
10(Visual OBSERVATION) |
- |
200 |
|
- |
11.1(Visual OBSERVATION) |
- |
200 |
|
- |
11.2(Visual OBSERVATION) |
- |
200 |
|
- |
11.3(Visual OBSERVATION) |
- |
200 |
|
- |
|
Complete
|
|
19 Jul, 2024 |
- |
11 |
IS 17037 (2018) |
Anti riot shoes - Specification |
-
|
60000 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
5.0(Innocuosness test IS 17011) |
- |
35000 |
|
WITHOUT INNOCOUSNESS 25000
10% DISCOUNT TO BIS |
4.16.2(Breaking load & lag retention) |
- |
1080 |
|
- |
4.16.1(Length of laces ) |
- |
180 |
|
- |
4.15(D-ring and Hooks ) |
- |
180 |
|
- |
4.15.10(Resistance to fuel oil ) |
- |
900 |
|
- |
4.15.9(Resistance to hot contact ) |
- |
800 |
|
- |
4.15.8(Flex resistance ) |
- |
2000 |
|
- |
4.15.7(Abrasion resistance ) |
- |
1080 |
|
- |
4.15.6(Tear Strength) |
- |
500 |
|
- |
4.14.5(Ageing test) |
- |
2000 |
|
- |
4.14.4(Hardness (IRHD)) |
- |
1500 |
|
- |
4.14.3(Density ) |
- |
180 |
|
- |
4.14.2(Thickness ) |
- |
180 |
|
- |
4.14.1(Meterial) |
- |
180 |
|
- |
4.13(Breaking Strength of thread) |
- |
180 |
|
- |
4.12.2(Tear Strength) |
- |
500 |
|
- |
4.12.1(Thickness ) |
- |
180 |
|
- |
4.11.2(Tear Strength) |
- |
500 |
|
- |
4.11.1(Thickness) |
- |
180 |
|
- |
4.10(Counter stiffener thickness) |
- |
100 |
|
- |
4.9.3(Water absorption & desorption ) |
- |
630 |
|
- |
4.9.2(Abrasion resistance ) |
- |
800 |
|
- |
|
Complete
|
|
19 Jul, 2024 |
- |
12 |
IS 17012 (2018) |
High ankle tactical boots with pu - Rubber sole - Specification |
-
|
60000 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
5.0(Innocuousness Test IS 17011) |
- |
35000 |
|
WITH INNCOUSNESS TEST 60000, WITHOUT 25000 PER SAMPLE
10% DISCOUNT TO BIS |
4.16.2(Breaking Strength of lace ) |
- |
430 |
|
- |
4.16.1(Length of lace ) |
- |
180 |
|
- |
4.15(D-ring & Hooks ) |
- |
180 |
|
- |
6.1(Resistance to Fuel Oil) |
- |
1500 |
|
- |
4.14.9(Resistance to hot contact ) |
- |
1500 |
|
- |
4.14.8(Flexing resistance ) |
- |
900 |
|
- |
4.14.7(Ageing test) |
- |
2500 |
|
- |
4.14.6(Hardness (IRHD)) |
- |
1080 |
|
- |
4.14.5(Abrasion resistance ) |
- |
900 |
|
- |
4.14.4(Tear Strength) |
- |
630 |
|
- |
4.14.3(Sole Density ) |
- |
180 |
|
- |
4.14.2(Thickness) |
- |
180 |
|
- |
4.14.1(Meterial) |
- |
180 |
|
- |
4.13(Breaking Strength of thread ) |
- |
180 |
|
- |
4.12.2(Tear Strength) |
- |
630 |
|
- |
4.12.1(Thickness ) |
- |
180 |
|
- |
4.11.2(Tear Strength) |
- |
630 |
|
- |
4.11.1(Thickness ) |
- |
180 |
|
- |
4.10.3(Water absorption & desorption percent) |
- |
2500 |
|
- |
4.10.2(Abrasion resistance ) |
- |
630 |
|
- |
4.10.1(Meterial ) |
- |
180 |
|
- |
4.9.3(Water absorption & desorption percent) |
- |
2500 |
|
- |
4.9.2(Abrasion resistance ) |
- |
630 |
|
- |
4.9.1(Thickness) |
- |
180 |
|
- |
4.8(Thickness Toe puff & counter stiffener) |
- |
180 |
|
- |
4.7.5(Water Vapour permeability & coefficient ) |
- |
1080 |
|
- |
4.7.4(Abrasion resistance ) |
- |
630 |
|
- |
4.7.3(Tear Strength) |
- |
900 |
|
- |
4.7.2(Meterial Counter & Toungue) |
- |
180 |
|
- |
4.7.1(Meterial vamp & Quarter) |
- |
180 |
|
- |
4.6.3(Water Penetration and water absorption ) |
- |
1080 |
|
- |
4.6.2(Tear Strength) |
- |
630 |
|
- |
4.6.1(Thickness ) |
- |
180 |
|
- |
4.5.8(Energy absorption of seat region ) |
- |
630 |
|
- |
4.5.7(Cold Insulation of sole complex) |
- |
900 |
|
- |
4.5.6(Heat Insulation of sole Complex) |
- |
900 |
|
- |
4.5.5(Antistatic test) |
- |
3000 |
|
- |
4.5.4(Slip Resitance) |
- |
2500 |
|
- |
4.5.3.2(Interayer bond strength) |
- |
1080 |
|
- |
4.5.3.1(Upper/outsole bond strength) |
- |
1080 |
|
- |
4.5.2(Ergonomic Feature) |
- |
300 |
|
- |
4.5.1(Contruction) |
- |
180 |
|
- |
4.4(Height of upper ) |
- |
180 |
|
- |
4.3.2(Weight) |
- |
180 |
|
- |
4.3.1(Size) |
- |
180 |
|
- |
4.2(Design ) |
- |
180 |
|
- |
|
Complete
|
|
19 Jul, 2024 |
- |
13 |
IS 15298 : part 4 (2017) |
Personal protective equipment: Part 4 occupational footwear (Second Revision) |
-
|
60000 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
Table 1(CLASS I) |
- |
180 |
|
- |
Table 1(CLASS II) |
- |
180 |
|
- |
5.2.2.1(General) |
- |
180 |
|
- |
5.2.2.2(Height of upper) |
- |
180 |
|
- |
5.2.2.3(Seat region) |
- |
180 |
|
- |
5.3.2.1(Construction) |
- |
180 |
|
- |
5.3.1.2(Upper/outsole bond strength) |
- |
1080 |
|
- |
5.3.2.2(Leakproofness) |
- |
900 |
|
- |
5.3.2.3(Specific ergonomic features ) |
- |
300 |
|
- |
5.3.4.1(Slip resistance) |
- |
2500 |
|
- |
5.3.4.2(Slip resistance on ceramic tile floor with sodium lauryl sulphate (SLS) solution) |
- |
2500 |
|
- |
5.3.4.3(Slip resistance on steel floor with glycerine ) |
- |
2500 |
|
- |
5.3.4.4(Slip resistance on ceramic tile floor with SLS and on steel floor with glycerine ) |
- |
2500 |
|
- |
5.3.2.5(Innocuousness ) |
- |
35000 |
|
WITH INNCOUUSNESS TOTAL TESTING CHARGE= 60,000 OTHERWISE 25,000 PER SAMPLE
10% Discount for BIS |
5.4.2.1(Upper) |
- |
180 |
|
- |
5.4.2.2(Thickness ) |
- |
180 |
|
- |
5.4.2.3(Tear strenth) |
- |
180 |
|
- |
5.4.2.4(Tensile properties) |
- |
500 |
|
- |
5.4.2.5(Flexing resistance ) |
- |
1500 |
|
- |
5.4.2.6(Water vapour permeability and coefficient ) |
- |
630 |
|
- |
5.4.2.7(pH value ) |
- |
300 |
|
- |
5.4.2.8(Hydrolysis) |
- |
2700 |
|
- |
5.4.2.9(Chromium VI content ) |
- |
1350 |
|
- |
5.5.2.1(Tear strength ) |
- |
500 |
|
- |
5.5.2.2(Abrasion resistance ) |
- |
1350 |
|
- |
5.5.2.3(Water vapour permeability and coefficient ) |
- |
630 |
|
- |
5.5.2.4(pH value ) |
- |
300 |
|
- |
5.5.2.5(Chromium VI content ) |
- |
1350 |
|
- |
5.6(Tongue ) |
- |
2000 |
|
- |
5.6.2.1(Tear strength ) |
- |
500 |
|
- |
5.6.2.2(pH value ) |
- |
300 |
|
- |
5.6.2.3(Chromium VI content ) |
- |
1350 |
|
- |
5.7.2.1(Insole and insock ) |
- |
500 |
|
- |
5.7.2.2(Insole and insock ) |
- |
500 |
|
- |
5.7.2.3(Water absorption and desorption ) |
- |
630 |
|
- |
5.7.4.1(Abrasion resistance ) |
- |
800 |
|
- |
5.7.4.2(Abrasion resistance ) |
- |
1350 |
|
- |
5.7.2.5(Chromium VI content ) |
- |
1350 |
|
- |
5.8.2.1(Outsole) |
- |
1000 |
|
- |
5.8.1.1(Thickness ) |
- |
180 |
|
- |
5.8.1.2(Cleated area ) |
- |
180 |
|
- |
5.8.1.3(Cleat height) |
- |
180 |
|
- |
5.8.2.2(Tear strength ) |
- |
500 |
|
- |
5.8.2.3(Abrasion resistance ) |
- |
1080 |
|
- |
5.8.2.4(Flexing resistance ) |
- |
1080 |
|
- |
5.8.2.5(Hydrolysis ) |
- |
2700 |
|
- |
5.8.2.6(Interlayer bond strength ) |
- |
1080 |
|
- |
6.2.1.1(Metallic anti-penetration insert ) |
- |
630 |
|
- |
6.2.1.1.2(Non-metallic anti-penetration insert used as an insole) |
- |
630 |
|
- |
6.2.1.2(Construction) |
- |
180 |
|
- |
6.2.1.3(Dimensions ) |
- |
450 |
|
- |
6.2.1.4(Flex resistance of penetration-resistant inserts ) |
- |
2000 |
|
- |
6.2.1.5.1(Corrosion resistance of penetration-resistant metallic inserts) |
- |
900 |
|
- |
6.2.1.5.2(Penetration-resistant non-metallic inserts) |
- |
6000 |
|
- |
6.2.2.1(Conductive footwear) |
- |
3000 |
|
- |
6.2.2.3(Electrically insulating footwear ) |
- |
3000 |
|
- |
6.2.2.2(Antistatic footwear) |
- |
3000 |
|
- |
6.2.3.1(Heat insulation of sole complex ) |
- |
900 |
|
- |
6.2.3.2(Cold insulation of sole complex) |
- |
900 |
|
- |
6.2.2.4(Energy absorption of seat region ) |
- |
630 |
|
- |
6.2.2.5(Water resistance ) |
- |
1500 |
|
- |
6.2.2.6(Ankle protection) |
- |
1000 |
|
- |
6.2.7.1(Cut resistance foot wear) |
- |
3300 |
|
- |
6.2.7.4(Pentration resistance) |
- |
630 |
|
- |
6.3.2.2(Upper- water penetration) |
- |
630 |
|
- |
6.4.2.1(Resistance to hot contact) |
- |
800 |
|
- |
6.4.2.2(Resistance to fuel oil) |
- |
900 |
|
- |
7(a)(Marking) |
- |
180 |
|
- |
|
Complete
|
|
19 Jul, 2024 |
- |
14 |
IS 15298 : Part 3 (2019) |
Personal protective equipment: Part 3 protective footwear (Second Revision) |
-
|
60000 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
5.2.2 Table-2(Height of upper) |
- |
180 |
|
- |
5.2.3 Table-2(Seat Region) |
- |
180 |
|
- |
5.3.1.1 Table-2(Construction) |
- |
180 |
|
- |
5.3.1.2 Table-2(Upper/Outsole Bond) |
- |
1080 |
|
- |
5.3.2.1 Table-2(General) |
- |
180 |
|
- |
5.3.2.2 Table-2(Internal Length of toe cap) |
- |
180 |
|
- |
5.3.2.3 Table-2(Impact Resistance -T- ) |
- |
630 |
|
- |
5.3.2.4 Table-2(Compression) |
- |
630 |
|
- |
5.3.2.5 Table-2(Behaviour of toe cap) |
- |
180 |
|
- |
5.3.3 Table-2(Leak Proofness) |
- |
900 |
|
- |
5.3.4 Table-2(Specific Ergonomic) |
- |
300 |
|
- |
5.3.5.2 Table-2(Slip Resistance SRA) |
- |
2500 |
|
- |
5.3.5.3 Table-2(Slip Resistance SRB) |
- |
2500 |
|
- |
5.3.5.4 Table-2(Slip Resistance SRC) |
- |
2500 |
|
- |
5.4.2 Table-2(Thickness) |
- |
180 |
|
- |
5 4 3 Table-2(Tear Strength) |
- |
500 |
|
- |
5.4.4 Table-2(Tensile Properties) |
- |
500 |
|
- |
5.4.5 Table-2(Flexing Resistance) |
- |
1500 |
|
- |
5.4.6 Table-2(Water Vapour Permeability & Coefficient) |
- |
630 |
|
- |
5 4.7 Table-2( ) |
- |
300 |
|
- |
5 4.8 Table-2(Hydrolysis) |
- |
2700 |
|
- |
5.4 9 Table-2(Chrome VI) |
- |
1350 |
|
- |
5.5.1 Table-2(Tear Strength) |
- |
500 |
|
- |
5.5.2 Table-2(Abrasion Resistance) |
- |
1350 |
|
- |
5.5.3 Table-2(Water Vapour Permeability & Coefficient) |
- |
630 |
|
- |
5.5.4 Table-2(pH Value) |
- |
300 |
|
- |
5.5.5 Table-2(Chrome VI) |
- |
1350 |
|
- |
5.6.1 Table-2(Tear Strength) |
- |
500 |
|
- |
5.6.2 Table-2(pH Value) |
- |
300 |
|
- |
5.6.3 Table-2(Chromium VI) |
- |
1350 |
|
- |
5.7.1 Table-3(Thickness) |
- |
180 |
|
- |
5.7.2 Table-3(pH Value) |
- |
300 |
|
- |
5.7.3 Table-3(Water Absorption &) |
- |
630 |
|
- |
5.7.4.1 Table-3(Insole Abrasion) |
- |
800 |
|
- |
5.7.4.2 Table-3(Abrasion) |
- |
1350 |
|
- |
5.7.5 Table-3(Chromium VI) |
- |
1350 |
|
- |
5.8.1 Table-2(Design) |
- |
180 |
|
- |
5.8.2 Table-2(Tear Strength) |
- |
500 |
|
- |
5.8.3 Table-3(Abrasion Resistance) |
- |
1080 |
|
- |
5.8.4 Table-3(Flexing Resistance) |
- |
1080 |
|
- |
5.8.5 Table-3(Hydrolysis) |
- |
2700 |
|
- |
5.8.6 Table-2(Interlayer BondStrength) |
- |
1080 |
|
- |
6.2.1 Table-I8(Penetration Resistance) |
- |
630 |
|
- |
6.2.2.1 Table-18(Electrical Properties) |
- |
3000 |
|
- |
Table-18(Conductive Footwear) |
- |
3000 |
|
- |
6.2.2.2 Table-18(Antistatic Footwear) |
- |
3000 |
|
- |
6.2.2.3 Table-18(Electrically Insulated) |
- |
3000 |
|
- |
6.2.3.1 Table-18(Heat Insulated Comp) |
- |
900 |
|
- |
6.2.3.2 Table-18(Cold Insulated) |
- |
900 |
|
- |
6.2.4 Table-18(Energy Absorption of seat region) |
- |
630 |
|
- |
6.2.5 Table-18(Water Resistance) |
- |
1000 |
|
- |
6.2.7 Table-18(Cut Resistance) |
- |
3300 |
|
- |
6.3 Table-18(Water Penetration & Absorption) |
- |
630 |
|
- |
6.4.1 Table-18(Resistance to Hot Contact) |
- |
800 |
|
- |
6.4.2 Table-18(Resistance to Fuel oil) |
- |
900 |
|
- |
Cl.4, Table1, Annex A ISO 20344 :2011(Classification and designs) |
- |
180 |
|
- |
Cl. 5,Cl.5.1Table 2, Table 3(General) |
- |
180 |
|
- |
Cl.5.3.5.1, Cl.5.3.5.2,Cl.5.3.5.3 or 5.3.5.4 IS 15298 (Part1):2015,ISO 20344:2011,5.11(General) |
- |
180 |
|
- |
Cl.7, table 2,table 18,table 20, table21, EN 13832-1,EN 13832-3: 2006,6.2.2.3(Electrically insulating footwear) |
- |
180 |
|
- |
Cl.8.1 IS 15298 Part 3:2018, ISO 20346 :2014(General) |
- |
180 |
|
- |
8(Information to be supplied) |
- |
180 |
|
- |
Cl.5.8.1.3(Cleat Height) |
- |
180 |
|
- |
Cl.5.8.1.2(Cleated area) |
- |
180 |
|
- |
Cl.5.8.1.1(Table 17 Thickness) |
- |
180 |
|
- |
Cl.4, Table1, Annex A ISO 20344 :2011(Classification and designs) |
- |
180 |
|
- |
Cl. 5,Cl.5.1Table 2, Table 3(General) |
- |
180 |
|
- |
Cl.5.3.5.1, Cl.5.3.5.2,Cl.5.3.5.3 or 5.3.5.4 IS 15298 (Part1):2015,ISO 20344:2011,5.11(General) |
- |
500 |
|
- |
Cl.7, table 2,table 18,table 20, table21, EN 13832-1,EN 13832-3: 2006,6.2.2.3(Electrically insulating footwear) |
- |
2500 |
|
- |
Cl.8.1 IS 15298 Part 3:2018, ISO 20346 :2014(General) |
- |
180 |
|
- |
8(Information to be supplied) |
- |
180 |
|
- |
Cl.5.8.1.3(Cleat Height) |
- |
180 |
|
- |
Cl.5.8.1.2(Cleated area) |
- |
180 |
|
- |
Cl.5.8.1.1(Table 17 Thickness) |
- |
180 |
|
- |
|
Complete
|
|
19 Jul, 2024 |
- |
15 |
IS 15298 : Part 2 (2016) |
Personal protective equipment: Part 2 safety footwear (Second Revision) |
-
|
600000 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
4,Table 1(Class I, IS 15298) |
- |
180 |
|
- |
4,Table 1(Class II, IS 15298) |
- |
180 |
|
- |
5.2,5.2.1, Fig 3(Design,General, IS 15298) |
- |
180 |
|
- |
4,Table 1(Class I, IS 15298) |
- |
180 |
|
- |
4,Table 1(Class II, IS 15298) |
- |
180 |
|
- |
5.2,5.2.1, Fig 3(Design,General, IS 15298) |
- |
180 |
|
- |
5.2.2, Fig 4(Height of Upper, ISO 20344 , 6.2) |
- |
180 |
|
- |
5.2.3, Table 10 ,Design A(Seat Region) |
- |
180 |
|
- |
5.3.1.1(Construction) |
- |
180 |
|
- |
5.3.1.2(Upper/outer sole bond strength , ISO 20344 , 5.2) |
- |
1080 |
|
- |
5.3.2.1(General, EN 12568 OF 4.2.2.2) |
- |
180 |
|
- |
5.3.2.2,Table 5(Internal length of toecaps , ISO 20344 , 5.3) |
- |
180 |
|
- |
5.3.2.3,Table 6(Impact resistance of safety footwear,ISO 20344 , 5.4) |
- |
630 |
|
- |
5.3.2.4 ,Table 6(Compression Resistance of safety footwear ,ISO20344 , 5.5) |
- |
630 |
|
- |
5.3.2.5.1(Corrosion resistance of metallic toecaps ,ISO20344 , 5.6.2) |
- |
900 |
|
- |
5.3.2.5.2(Non metallic toe caps ,EN 12568) |
- |
6000 |
|
- |
5.3.3(Leak proofness ,ISO 20344 , 5.7) |
- |
900 |
|
- |
5.3.4(Specific ergonomic feature ,ISO 20344 , 5.1) |
- |
300 |
|
- |
5.3.5.2,Table 7(Slip resistance on ceramic tile floor with sodium lauryl sulphate (NaLS) solution) |
- |
630 |
|
- |
5.3.5.3,Table 8(Slip resistance on steel floor with glycerin) |
- |
630 |
|
- |
5.3.5.4(Slip resistance on ceramic tile floor with NaLS and on steel floor with glycerin) |
- |
630 |
|
- |
5.4.1,Table 10(General) |
- |
180 |
|
- |
5.4.2, Table 11(Thickness , ISO 20344 , 6.1 ) |
- |
180 |
|
- |
5.4.3, Table 12(Tear Strength, ISO 20344 , 6.3 ) |
- |
500 |
|
- |
5.4.4, Table 13(Tensile properties ,ISO 20344 , 6.4.1 ) |
- |
500 |
|
- |
5.4.5, Table 14(Flexing resistance ,ISO 20344,6.5) |
- |
1500 |
|
- |
5.4.6(Water vapour permeability and coefficient,ISO 20344,6.6 & 6.8) |
- |
630 |
|
- |
5.4.7(Ph Value ; ISO 20344,6.9) |
- |
630 |
|
- |
5.4.8(Hydrolysis ; ISO 20344,6.10) |
- |
2700 |
|
- |
5.4.9(Chromium VI content; ISO 17075) |
- |
1350 |
|
- |
5.5.1,Table 15(Tear Strength, ISO 20344 , 6.3) |
- |
500 |
|
- |
5.5.2(Abrasion Resistance ;ISO 20344 , 6.12) |
- |
1350 |
|
- |
5.5.3(Water vapour permeability and coefficient,ISO 20344,6.6 & 6.8) |
- |
630 |
|
- |
5.5.4(Ph Value ; ISO 20344,6.9) |
- |
300 |
|
- |
5.5.5(Chromium VI content; ISO 17075) |
- |
1350 |
|
- |
4,Table 1(Class I, IS 15298) |
- |
180 |
|
- |
4,Table 1(Class II, IS 15298) |
- |
180 |
|
- |
5.2,5.2.1, Fig 3(Design,General, IS 15298) |
- |
180 |
|
- |
5.2.2, Fig 4(Height of Upper, ISO 20344 , 6.2) |
- |
180 |
|
- |
5.2.3, Table 10 ,Design A(Seat Region) |
- |
180 |
|
- |
5.3.1.1(Construction) |
- |
180 |
|
- |
5.3.1.2(Upper/outer sole bond strength , ISO 20344 , 5.2) |
- |
1080 |
|
- |
5.3.2.1(General, EN 12568 OF 4.2.2.2) |
- |
180 |
|
- |
5.3.2.2,Table 5(Internal length of toecaps , ISO 20344 , 5.3) |
- |
180 |
|
- |
5.3.2.3,Table 6(Impact resistance of safety footwear,ISO 20344 , 5.4) |
- |
630 |
|
- |
5.3.2.4 ,Table 6(Compression Resistance of safety footwear ,ISO20344 , 5.5) |
- |
630 |
|
- |
5.3.2.5.1(Corrosion resistance of metallic toecaps ,ISO20344 , 5.6.2) |
- |
900 |
|
- |
5.3.2.5.2(Non metallic toe caps ,EN 12568) |
- |
6000 |
|
- |
5.3.3(Leak proofness ,ISO 20344 , 5.7) |
- |
900 |
|
- |
5.3.4(Specific ergonomic feature ,ISO 20344 , 5.1) |
- |
300 |
|
- |
5.3.5.2,Table 7(Slip resistance on ceramic tile floor with sodium lauryl sulphate (NaLS) solution) |
- |
2500 |
|
- |
5.3.5.3,Table 8(Slip resistance on steel floor with glycerin) |
- |
2500 |
|
- |
5.3.5.4(Slip resistance on ceramic tile floor with NaLS and on steel floor with glycerin) |
- |
2500 |
|
- |
5.4.1,Table 10(General) |
- |
180 |
|
- |
5.4.2, Table 11(Thickness , ISO 20344 , 6.1 ) |
- |
180 |
|
- |
5.4.3, Table 12(Tear Strength, ISO 20344 , 6.3 ) |
- |
500 |
|
- |
5.4.4, Table 13(Tensile properties ,ISO 20344 , 6.4.1 ) |
- |
500 |
|
- |
5.4.5, Table 14(Flexing resistance ,ISO 20344,6.5) |
- |
1500 |
|
- |
5.4.6(Water vapour permeability and coefficient,ISO 20344,6.6 & 6.8) |
- |
630 |
|
- |
5.4.7(Ph Value ; ISO 20344,6.9) |
- |
300 |
|
- |
5.4.8(Hydrolysis ; ISO 20344,6.10) |
- |
2700 |
|
- |
5.4.9(Chromium VI content; ISO 17075) |
- |
1350 |
|
- |
5.5.1,Table 15(Tear Strength, ISO 20344 , 6.3) |
- |
500 |
|
- |
5.5.2(Abrasion Resistance ;ISO 20344 , 6.12) |
- |
1350 |
|
- |
5.5.3(Water vapour permeability and coefficient,ISO 20344,6.6 & 6.8) |
- |
630 |
|
- |
5.5.4(Ph Value ; ISO 20344,6.9) |
- |
300 |
|
- |
5.5.5(Chromium VI content; ISO 17075) |
- |
1350 |
|
- |
5.6(Tongue - IS 15298 Part 2 ) |
- |
500 |
|
- |
5.6.1,Table 16(Tear Strength, ISO 20344 , 6.3) |
- |
500 |
|
- |
5.6.2(Ph Value ; ISO 20344,6.9) |
- |
300 |
|
- |
5.6.3(Chromium VI content; ISO 17075) |
- |
1350 |
|
- |
5.7.1;Table 3(Thickness ; ISO 20344,7.1) |
- |
180 |
|
- |
5.7.2(Ph Value ; ISO 20344,6.9) |
- |
300 |
|
- |
5.7.3(Water Absorption and desorption ISO 20344,7.2 ) |
- |
630 |
|
- |
5.7.4.1(Insole ; ISO 20344,7.3 ) |
- |
800 |
|
- |
5.7.4.2(Insocks ; ISO 20344, 6.12) |
- |
1350 |
|
- |
5.7.5(Chromium VI content; ISO 17075) |
- |
1350 |
|
- |
5.8.1(Design, IS 15298 Part 2 ) |
- |
180 |
|
- |
5.8.1.1, Table 17(Thickness ; ISO 20344, 8.1.2) |
- |
180 |
|
- |
5.8.1.2(Cleated area ; ISO 20344 , Fig 38) |
- |
180 |
|
- |
5.8.1.3, Table 17(Cleat height; ISO 20344, 8.1) |
- |
180 |
|
- |
5.8.2(Tear Strength, ISO 20344 , 8.2) |
- |
500 |
|
- |
5.8.3(Abrasion Resistance ;ISO 20344 , 8.3) |
- |
1080 |
|
- |
5.8.4(Flexing resistance ,ISO 20344,8.4) |
- |
1080 |
|
- |
5.8.5(Hydrolysis ; ISO 20344,8.5) |
- |
2700 |
|
- |
5.8.6(Interlayer bond strength; ISO 20344, 5.2) |
- |
1080 |
|
- |
6.2.1.1.1(Metallic anti-penetration insert; ISO 20344, 5.8.2) |
- |
630 |
|
- |
6.2.1.1.2(Non-metallic anti-penetration insert; ISO 20344, 5.8.3) |
- |
630 |
|
- |
6.2.1.2(Consruction) |
- |
180 |
|
- |
6.2.1.3(Dimension ; ISO 20344, 5.8.1) |
- |
450 |
|
- |
6.2.1.5.1(Corrosion resistance of penetration -resistant metallic insert - ISO 20344, 5.6.3 &5.6.1) |
- |
900 |
|
- |
6.2.1.5.2(Penetration -resistant non-metallic insert ; EN 12568,6.4&7.4) |
- |
6000 |
|
- |
6.2.2.1 (Conductive footwear ; ISO 20344,5.10 & 5.10.3.3) |
- |
3000 |
|
- |
6.2.2.2(Antistatic footwear ; ISO 20344,5.10) |
- |
3000 |
|
- |
6.2.2.3(Electrically insulating footwear; EN 50321) |
- |
2500 |
|
- |
6.2.3.1(Hear insulation of sole complex; ISO 20344,5.12 ;Annex B) |
- |
900 |
|
- |
6.2.3.2(Cold insulation of sole complex; ISO 20344,5.13) |
- |
900 |
|
- |
6.2.4(Energy absorption of seat region; ISO 20344,5.14) |
- |
630 |
|
- |
6.2.5(Water resistance ; 5.15.1 & 5.15.2) |
- |
1000 |
|
- |
6.2.6.1(Construction) |
- |
180 |
|
- |
6.2.6.2 , Table 19(Impact resistance of metatarsal protective device,ISO 20344 , 5.16) |
- |
1500 |
|
- |
6.2.7 (Ankle protection ; ISO 20344 , 5.17) |
- |
1000 |
|
- |
6.2.8.1(Design) |
- |
180 |
|
- |
6.2.8.2(Construction) |
- |
180 |
|
- |
6.2.8.3,EN 388(Resistance to cutting ,EN 388) |
- |
3300 |
|
- |
6.2.8.4(Penetration Resistance) |
- |
3300 |
|
- |
6.3(Upper--Water penetration and absorption ; ISO 20344 , 5.13) |
- |
630 |
|
- |
6.4.1(Resistance to hot contact ; ISO 20344 , 8.7) |
- |
800 |
|
- |
6.4.2(Resistance to fuel oil ; ISO 20344 , 8.6.1& 8.6.2 ; ) |
- |
900 |
|
- |
Cl.5.3.5.1, Cl.5.3.5.2,Cl.5.3.5.3 or 5.3.5.4 IS 15298 (Part1):2015,ISO 20344:2011,5.11(General) |
- |
180 |
|
- |
Cl.7, table 2,table 18,table 20, table21, EN 13832-1,EN 13832-3: 2006,6.2.2.3(Marking) |
- |
180 |
|
- |
Cl.8.1 IS 15298 Part 2:2016 + A1:2019 + A2:2019, ISO 20345 :2011(General) |
- |
180 |
|
- |
4,Table 1(Class I, IS 15298) |
- |
180 |
|
- |
4,Table 1(Class II, IS 15298) |
- |
180 |
|
- |
5.2,5.2.1, Fig 3(Design,General, IS 15298) |
- |
180 |
|
- |
5.2.2, Fig 4(Height of Upper, ISO 20344 , 6.2) |
- |
180 |
|
- |
5.2.3, Table 10 ,Design A(Seat Region) |
- |
180 |
|
- |
5.3.1.1(Construction) |
- |
180 |
|
- |
5.3.1.2(Upper/outer sole bond strength , ISO 20344 , 5.2) |
- |
1080 |
|
- |
5.3.2.1(General, EN 12568 OF 4.2.2.2) |
- |
180 |
|
- |
5.3.2.2,Table 5(Internal length of toecaps , ISO 20344 , 5.3) |
- |
180 |
|
- |
5.3.2.3,Table 6(Impact resistance of safety footwear,ISO 20344 , 5.4) |
- |
630 |
|
- |
5.3.2.4 ,Table 6(Compression Resistance of safety footwear ,ISO20344 , 5.5) |
- |
630 |
|
- |
5.3.2.5.1(Corrosion resistance of metallic toecaps ,ISO20344 , 5.6.2) |
- |
900 |
|
- |
5.3.2.5.2(Non metallic toe caps ,EN 12568) |
- |
6000 |
|
- |
5.3.3(Leak proofness ,ISO 20344 , 5.7) |
- |
900 |
|
- |
5.3.4(Specific ergonomic feature ,ISO 20344 , 5.1) |
- |
300 |
|
- |
5.3.5.2,Table 7(Slip resistance on ceramic tile floor with sodium lauryl sulphate (NaLS) solution) |
- |
2500 |
|
- |
5.3.5.3,Table 8(Slip resistance on steel floor with glycerin) |
- |
2500 |
|
- |
5.3.5.4(Slip resistance on ceramic tile floor with NaLS and on steel floor with glycerin) |
- |
2500 |
|
- |
5.4.1,Table 10(General) |
- |
180 |
|
- |
5.4.2, Table 11(Thickness , ISO 20344 , 6.1 ) |
- |
180 |
|
- |
5.4.3, Table 12(Tear Strength, ISO 20344 , 6.3 ) |
- |
180 |
|
- |
5.4.4, Table 13(Tensile properties ,ISO 20344 , 6.4.1 ) |
- |
500 |
|
- |
5.4.5, Table 14(Flexing resistance ,ISO 20344,6.5) |
- |
1500 |
|
- |
5.4.6(Water vapour permeability and coefficient,ISO 20344,6.6 & 6.8) |
- |
630 |
|
- |
5.4.7(Ph Value ; ISO 20344,6.9) |
- |
300 |
|
- |
5.4.8(Hydrolysis ; ISO 20344,6.10) |
- |
2700 |
|
- |
5.4.9(Chromium VI content; ISO 17075) |
- |
1350 |
|
- |
5.5.1,Table 15(Tear Strength, ISO 20344 , 6.3) |
- |
500 |
|
- |
5.5.2(Abrasion Resistance ;ISO 20344 , 6.12) |
- |
1350 |
|
- |
5.5.3(Water vapour permeability and coefficient,ISO 20344,6.6 & 6.8) |
- |
630 |
|
- |
5.5.4(Ph Value ; ISO 20344,6.9) |
- |
300 |
|
- |
5.5.5(Chromium VI content; ISO 17075) |
- |
1350 |
|
- |
5.6(Tongue - IS 15298 Part 2 ) |
- |
180 |
|
- |
5.6.1,Table 16(Tear Strength, ISO 20344 , 6.3) |
- |
500 |
|
- |
5.6.2(Ph Value ; ISO 20344,6.9) |
- |
300 |
|
- |
5.6.3(Chromium VI content; ISO 17075) |
- |
1350 |
|
- |
5.7.1;Table 3(Thickness ; ISO 20344,7.1) |
- |
180 |
|
- |
5.7.2(Ph Value ; ISO 20344,6.9) |
- |
300 |
|
- |
5.7.3(Water Absorption and desorption ISO 20344,7.2 ) |
- |
630 |
|
- |
5.7.4.1(Insole ; ISO 20344,7.3 ) |
- |
800 |
|
- |
5.7.4.2(Insocks ; ISO 20344, 6.12) |
- |
1350 |
|
- |
5.7.5(Chromium VI content; ISO 17075) |
- |
1350 |
|
- |
5.8.1(Design, IS 15298 Part 2 ) |
- |
180 |
|
- |
5.8.1.1, Table 17(Thickness ; ISO 20344, 8.1.2) |
- |
180 |
|
- |
5.8.1.2(Cleated area ; ISO 20344 , Fig 38) |
- |
180 |
|
- |
5.8.1.3, Table 17(Cleat height; ISO 20344, 8.1) |
- |
180 |
|
- |
5.8.2(Tear Strength, ISO 20344 , 8.2) |
- |
500 |
|
- |
5.8.3(Abrasion Resistance ;ISO 20344 , 8.3) |
- |
1080 |
|
- |
5.8.4(Flexing resistance ,ISO 20344,8.4) |
- |
1080 |
|
- |
5.8.5(Hydrolysis ; ISO 20344,8.5) |
- |
2700 |
|
- |
5.8.6(Interlayer bond strength; ISO 20344, 5.2) |
- |
1080 |
|
- |
6.2.1.1.1(Metallic anti-penetration insert; ISO 20344, 5.8.2) |
- |
900 |
|
- |
6.2.1.1.2(Non-metallic anti-penetration insert; ISO 20344, 5.8.3) |
- |
6000 |
|
- |
6.2.1.2(Consruction) |
- |
180 |
|
- |
6.2.1.3(Dimension ; ISO 20344, 5.8.1) |
- |
180 |
|
- |
6.2.1.5.1(Corrosion resistance of penetration -resistant metallic insert - ISO 20344, 5.6.3 &5.6.1) |
- |
900 |
|
- |
6.2.1.5.2(Penetration -resistant non-metallic insert ; EN 12568,6.4&7.4) |
- |
6000 |
|
- |
6.2.2.1 (Conductive footwear ; ISO 20344,5.10 & 5.10.3.3) |
- |
3000 |
|
- |
6.2.2.2(Antistatic footwear ; ISO 20344,5.10) |
- |
3000 |
|
- |
6.2.2.3(Electrically insulating footwear; EN 50321) |
- |
2500 |
|
- |
6.2.3.1(Hear insulation of sole complex; ISO 20344,5.12 ;Annex B) |
- |
900 |
|
- |
6.2.3.2(Cold insulation of sole complex; ISO 20344,5.13) |
- |
900 |
|
- |
6.2.4(Energy absorption of seat region; ISO 20344,5.14) |
- |
630 |
|
- |
6.2.5(Water resistance ; 5.15.1 & 5.15.2) |
- |
1000 |
|
- |
6.2.6.1(Construction) |
- |
180 |
|
- |
6.2.6.2 , Table 19(Impact resistance of metatarsal protective device,ISO 20344 , 5.16) |
- |
1080 |
|
- |
6.2.7 (Ankle protection ; ISO 20344 , 5.17) |
- |
1000 |
|
- |
6.2.8.1(Design) |
- |
180 |
|
- |
6.2.8.2(Construction) |
- |
180 |
|
- |
6.2.8.3,EN 388(Resistance to cutting ,EN 388) |
- |
3300 |
|
- |
6.2.8.4(Penetration Resistance) |
- |
630 |
|
- |
6.3(Upper--Water penetration and absorption ; ISO 20344 , 5.13) |
- |
900 |
|
- |
6.4.1(Resistance to hot contact ; ISO 20344 , 8.7) |
- |
800 |
|
- |
6.4.2(Resistance to fuel oil ; ISO 20344 , 8.6.1& 8.6.2 ; ) |
- |
900 |
|
- |
Cl.5.3.5.1, Cl.5.3.5.2,Cl.5.3.5.3 or 5.3.5.4 IS 15298 (Part1):2015,ISO 20344:2011,5.11(General) |
- |
500 |
|
- |
Cl.7, table 2,table 18,table 20, table21, EN 13832-1,EN 13832-3: 2006,6.2.2.3(Marking) |
- |
500 |
|
- |
Cl.8.1 IS 15298 Part 2:2016 + A1:2019 + A2:2019, ISO 20345 :2011(General) |
- |
180 |
|
- |
5.3.6(Innocuousness) |
- |
35000 |
|
WITHOUT(Innocuousness) 25000
10% DISCOUNT TO BIS |
4,Table 1(Class I, IS 15298) |
- |
0 |
|
- |
4,Table 1(Class II, IS 15298) |
- |
0 |
|
- |
5.2,5.2.1, Fig 3(Design,General, IS 15298) |
- |
0 |
|
- |
5.2.2, Fig 4(Height of Upper, ISO 20344 , 6.2) |
- |
0 |
|
- |
5.2.3, Table 10 ,Design A(Seat Region) |
- |
0 |
|
- |
5.3.1.1(Construction) |
- |
0 |
|
- |
5.3.1.2(Upper/outer sole bond strength , ISO 20344 , 5.2) |
- |
0 |
|
- |
5.3.2.1(General, EN 12568 OF 4.2.2.2) |
- |
0 |
|
- |
5.3.2.2,Table 5(Internal length of toecaps , ISO 20344 , 5.3) |
- |
0 |
|
- |
5.3.2.3,Table 6(Impact resistance of safety footwear,ISO 20344 , 5.4) |
- |
0 |
|
- |
5.3.2.4 ,Table 6(Compression Resistance of safety footwear ,ISO20344 , 5.5) |
- |
0 |
|
- |
5.3.2.5.1(Corrosion resistance of metallic toecaps ,ISO20344 , 5.6.2) |
- |
0 |
|
- |
5.3.2.5.2(Non metallic toe caps ,EN 12568) |
- |
0 |
|
- |
5.3.3(Leak proofness ,ISO 20344 , 5.7) |
- |
0 |
|
- |
5.3.4(Specific ergonomic feature ,ISO 20344 , 5.1) |
- |
0 |
|
- |
5.3.5.2,Table 7(Slip resistance on ceramic tile floor with sodium lauryl sulphate (NaLS) solution) |
- |
0 |
|
- |
5.3.5.3,Table 8(Slip resistance on steel floor with glycerin) |
- |
0 |
|
- |
5.3.5.4(Slip resistance on ceramic tile floor with NaLS and on steel floor with glycerin) |
- |
0 |
|
- |
5.4.1,Table 10(General) |
- |
0 |
|
- |
5.4.2, Table 11(Thickness , ISO 20344 , 6.1 ) |
- |
0 |
|
- |
5.4.3, Table 12(Tear Strength, ISO 20344 , 6.3 ) |
- |
0 |
|
- |
5.4.4, Table 13(Tensile properties ,ISO 20344 , 6.4.1 ) |
- |
0 |
|
- |
5.4.5, Table 14(Flexing resistance ,ISO 20344,6.5) |
- |
0 |
|
- |
5.4.6(Water vapour permeability and coefficient,ISO 20344,6.6 & 6.8) |
- |
0 |
|
- |
5.4.7(Ph Value ; ISO 20344,6.9) |
- |
0 |
|
- |
5.4.8(Hydrolysis ; ISO 20344,6.10) |
- |
0 |
|
- |
5.4.9(Chromium VI content; ISO 17075) |
- |
0 |
|
- |
5.5.1,Table 15(Tear Strength, ISO 20344 , 6.3) |
- |
0 |
|
- |
5.5.2(Abrasion Resistance ;ISO 20344 , 6.12) |
- |
0 |
|
- |
5.5.3(Water vapour permeability and coefficient,ISO 20344,6.6 & 6.8) |
- |
0 |
|
- |
5.5.4(Ph Value ; ISO 20344,6.9) |
- |
0 |
|
- |
5.5.5(Chromium VI content; ISO 17075) |
- |
0 |
|
- |
5.6(Tongue - IS 15298 Part 2 ) |
- |
0 |
|
- |
5.6.1,Table 16(Tear Strength, ISO 20344 , 6.3) |
- |
0 |
|
- |
5.6.2(Ph Value ; ISO 20344,6.9) |
- |
0 |
|
- |
5.6.3(Chromium VI content; ISO 17075) |
- |
0 |
|
- |
5.7.1;Table 3(Thickness ; ISO 20344,7.1) |
- |
0 |
|
- |
5.7.2(Ph Value ; ISO 20344,6.9) |
- |
0 |
|
- |
5.7.3(Water Absorption and desorption ISO 20344,7.2 ) |
- |
0 |
|
- |
5.7.4.1(Insole ; ISO 20344,7.3 ) |
- |
0 |
|
- |
5.7.4.2(Insocks ; ISO 20344, 6.12) |
- |
0 |
|
- |
5.7.5(Chromium VI content; ISO 17075) |
- |
0 |
|
- |
5.8.1(Design, IS 15298 Part 2 ) |
- |
0 |
|
- |
5.8.1.1, Table 17(Thickness ; ISO 20344, 8.1.2) |
- |
0 |
|
- |
5.8.1.2(Cleated area ; ISO 20344 , Fig 38) |
- |
0 |
|
- |
5.8.1.3, Table 17(Cleat height; ISO 20344, 8.1) |
- |
0 |
|
- |
5.8.2(Tear Strength, ISO 20344 , 8.2) |
- |
0 |
|
- |
5.8.3(Abrasion Resistance ;ISO 20344 , 8.3) |
- |
0 |
|
- |
5.8.4(Flexing resistance ,ISO 20344,8.4) |
- |
0 |
|
- |
5.8.5(Hydrolysis ; ISO 20344,8.5) |
- |
0 |
|
- |
5.8.6(Interlayer bond strength; ISO 20344, 5.2) |
- |
0 |
|
- |
6.2.1.1.1(Metallic anti-penetration insert; ISO 20344, 5.8.2) |
- |
0 |
|
- |
6.2.1.1.2(Non-metallic anti-penetration insert; ISO 20344, 5.8.3) |
- |
0 |
|
- |
6.2.1.2(Consruction) |
- |
0 |
|
- |
6.2.1.3(Dimension ; ISO 20344, 5.8.1) |
- |
0 |
|
- |
6.2.1.5.1(Corrosion resistance of penetration -resistant metallic insert - ISO 20344, 5.6.3 &5.6.1) |
- |
0 |
|
- |
6.2.1.5.2(Penetration -resistant non-metallic insert ; EN 12568,6.4&7.4) |
- |
0 |
|
- |
6.2.2.1 (Conductive footwear ; ISO 20344,5.10 & 5.10.3.3) |
- |
0 |
|
- |
6.2.2.2(Antistatic footwear ; ISO 20344,5.10) |
- |
0 |
|
- |
6.2.2.3(Electrically insulating footwear; EN 50321) |
- |
0 |
|
- |
6.2.3.1(Hear insulation of sole complex; ISO 20344,5.12 ;Annex B) |
- |
0 |
|
- |
6.2.3.2(Cold insulation of sole complex; ISO 20344,5.13) |
- |
0 |
|
- |
6.2.4(Energy absorption of seat region; ISO 20344,5.14) |
- |
0 |
|
- |
6.2.5(Water resistance ; 5.15.1 & 5.15.2) |
- |
0 |
|
- |
6.2.6.1(Construction) |
- |
0 |
|
- |
6.2.6.2 , Table 19(Impact resistance of metatarsal protective device,ISO 20344 , 5.16) |
- |
0 |
|
- |
6.2.7 (Ankle protection ; ISO 20344 , 5.17) |
- |
0 |
|
- |
6.2.8.1(Design) |
- |
0 |
|
- |
6.2.8.2(Construction) |
- |
0 |
|
- |
6.2.8.3,EN 388(Resistance to cutting ,EN 388) |
- |
0 |
|
- |
6.2.8.4(Penetration Resistance) |
- |
0 |
|
- |
6.3(Upper--Water penetration and absorption ; ISO 20344 , 5.13) |
- |
0 |
|
- |
6.4.1(Resistance to hot contact ; ISO 20344 , 8.7) |
- |
0 |
|
- |
6.4.2(Resistance to fuel oil ; ISO 20344 , 8.6.1& 8.6.2 ; ) |
- |
0 |
|
- |
Cl.5.3.5.1, Cl.5.3.5.2,Cl.5.3.5.3 or 5.3.5.4 IS 15298 (Part1):2015,ISO 20344:2011,5.11(General) |
- |
0 |
|
- |
Cl.7, table 2,table 18,table 20, table21, EN 13832-1,EN 13832-3: 2006,6.2.2.3(Marking) |
- |
0 |
|
- |
Cl.8.1 IS 15298 Part 2:2016 + A1:2019 + A2:2019, ISO 20345 :2011(General) |
- |
0 |
|
- |
5.3.6(Innocuousness) |
- |
0 |
|
- |
|
Complete
|
|
19 Jul, 2024 |
- |
16 |
IS 15644 (2006) |
Safety of electric toys |
-
|
14500 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
7.0(Marking and instructions) |
- |
1000 |
|
- |
8.0(Power Input) |
- |
3000 |
|
- |
9.0(Heating and abnormal operation) |
- |
3000 |
|
- |
10.0(Electrical strength at operating temperature) |
- |
2000 |
|
- |
11.1(Moisture resistance) |
- |
2500 |
|
- |
11.2(Resistant to humidity) |
- |
2500 |
|
- |
12.0(Electric strength at room temperature) |
- |
2000 |
|
- |
13.0(Mechanical strength) |
- |
1000 |
|
- |
14.1(Construction) |
- |
500 |
|
- |
14.2(Construction) |
- |
500 |
|
- |
14.3(Construction) |
- |
500 |
|
- |
14.4(Construction) |
- |
500 |
|
- |
14.5(Construction) |
- |
500 |
|
- |
14.6(Construction) |
- |
500 |
|
- |
14.7(Construction) |
- |
500 |
|
- |
14.8(Construction) |
- |
500 |
|
- |
14.9(Construction) |
- |
500 |
|
- |
14.1(Construction) |
- |
500 |
|
- |
14.11(Construction) |
- |
500 |
|
- |
14.12(Construction) |
- |
500 |
|
- |
14.13(Construction) |
- |
500 |
|
- |
14.14(Construction) |
- |
500 |
|
- |
15.1(Protection of cords and wires) |
- |
500 |
|
- |
15.2(Protection of cords and wires) |
- |
500 |
|
- |
16.0(Components) |
- |
2000 |
|
- |
17 Table-1(Screws and connections) |
- |
1000 |
|
- |
17 Table-1(Nominal daimeter of screws made of insulating material) |
- |
1000 |
|
- |
18.0(Clearance and creepage distance) |
- |
1000 |
|
- |
19.1(Ball pressure test IEC 60695-10-2) |
- |
500 |
|
- |
19.2.1(Glow wire test IEC 60695-2-11) |
- |
500 |
|
- |
19.2.2(Needle flame test) |
- |
1000 |
|
- |
20.0(Radiation, toxicity and similar hazards) |
- |
2000 |
|
- |
14.15(Construction) |
- |
500 |
|
- |
14.16(Construction) |
- |
500 |
|
- |
9873 (Part-9) 3(Vinyl in any part of the toy or childcare article that can be placed in mouth of a child under 4 years of age - a) Di-iso-Nonyl Phthalate (DINP), b) Di-iso-Decyl Phthalate (DIDP), c) Di-n-Octyl Phthalate (DNOP) - IS 9873 Part 6) |
- |
5000 |
|
- |
9873 (Part-9) 3(Vinyl in toys or childcare articles - a) Bis-(2-ethlyhexyl) Phthalates (DEHP), b) Di-Butyl phthalate (DBP), c) Benzyl butyl Phthalate (BBP) - IS 9873 Part 6) |
- |
5000 |
|
- |
9873 (Part-9) 3(Vinyl in any part of the toy or childcare article that can be placed in mouth of a child under 4 years of age - a) Di-iso-Nonyl Phthalate (DINP), b) Di-iso-Decyl Phthalate (DIDP), c) Di-n-Octyl Phthalate (DNOP) - IS 9873 Part 6) |
- |
5000 |
|
- |
9873 (Part-9) 3(Vinyl in toys or childcare articles - a) Bis-(2-ethlyhexyl) Phthalates (DEHP), b) Di-Butyl phthalate (DBP), c) Benzyl butyl Phthalate (BBP) - IS 9873 Part 6) |
- |
5000 |
|
- |
9873 (Part-3) 4.1 - Table 1(Selenium (Se) - Cl 7,8,9 ) |
- |
3000 |
|
- |
9873 (Part-3) 4.1 - Table 1(Mercury (Hg) - Cl 7,8,9 ) |
- |
3000 |
|
- |
9873 (Part-3) 4.1 - Table 1(Lead (Pb) - Cl 7,8,9 ) |
- |
3000 |
|
- |
9873 (Part-3) 4.1 - Table 1(Chromium (Cr) - Cl 7,8,9 ) |
- |
3000 |
|
- |
9873 (Part-3) 4.1 - Table 1(Cadmium (Cd) - Cl 7,8,9) |
- |
3000 |
|
- |
9873 (Part-3) 4.1 - Table 1(Barium (Ba) - Cl 7,8,9 ) |
- |
3000 |
|
- |
9873 (Part-3) 4.1 - Table 1(Arsenic (As) - Cl 7,8,9 ) |
- |
3000 |
|
- |
9873 (Part-3) 4.1 - Table 1(Antimony (Sb) - Cl 7,8,9) |
- |
3000 |
|
- |
|
Complete
|
|
19 Jul, 2024 |
- |
17 |
IS 5557 (2004) |
Industrial and protective rubber knee and ankle boots - Specification (Fourth Revision) |
-
|
9550 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
5/5.1.7/5.1.7.8(REQUIREMENTS- Physical Requirements-Resistance to oil) |
- |
900 |
|
- |
5/5.1.1-Fig. 1, Fig. 2 and Fig. 3(REQUIREMENTS-Design) |
- |
100 |
|
- |
5/5.1.2 -IS 1638(REQUIREMENTS-Size) |
- |
100 |
|
- |
5/5.1.3-Table1(REQUIREMENTS-Thickness) |
- |
100 |
|
- |
5/5.1.4/5.1.4.1-Table2(REQUIREMENTS-Materials-Rubber components) |
- |
100 |
|
- |
5/5.1.4/5.1.4.2(REQUIREMENTS-Materials-Fabric-
accordance with IS 1969) |
- |
100 |
|
- |
5/5.1.4/5.1.4.3(REQUIREMENTS-Materials-Protective Steel Toe Cap-
an per IS 5852) |
- |
100 |
|
- |
5/5.1.6/5.1.6.1-Fig. 1,
Fig. 2, Fig. 3, .Fig. 4, Fig. 5 and Table 3.(REQUIREMENTS- Construction) |
- |
180 |
|
- |
5/5.1.6/5.1.6.2(REQUIREMENTS- Construction) |
- |
180 |
|
- |
5/5.1.7/5.1.7.1(REQUIREMENTS- Physical Requirements-Heat treatment-
as per IS 3400 (Part 4)) |
- |
2000 |
|
- |
5/5.1.7/5.1.7.2(REQUIREMENTS- Physical Requirements-Composite strength) |
- |
500 |
|
- |
5/5.1.7/5.1.7.3-Table 4(REQUIREMENTS- Physical Requirements-Flexing endurance-
as per Annex B.) |
- |
1500 |
|
- |
5/5.1.7/5.1.7.4(REQUIREMENTS- Physical Requirements- Leakage resistance test) |
- |
900 |
|
- |
5/5.1.7/5.1.7.5(REQUIREMENTS- Physical Requirements- Consolidation test-
as per IS IS 3400 (Part 5)) |
- |
800 |
|
- |
5/5.1.7/5.1.7.6(REQUIREMENTS- Physical Requirements- Performance test-
as per Annex C) |
- |
630 |
|
- |
5/5.1.7/5.1.7.7(REQUIREMENTS- Physical Requirements-Height of the boots) |
- |
180 |
|
- |
5/5.1.7/5.1.7.8(REQUIREMENTS- Physical Requirements-Resistance to oil) |
- |
900 |
|
- |
5/5.1.1-Fig. 1, Fig. 2 and Fig. 3(REQUIREMENTS-Design) |
- |
100 |
|
- |
5/5.1.2 -IS 1638(REQUIREMENTS-Size) |
- |
100 |
|
- |
5/5.1.3-Table1(REQUIREMENTS-Thickness) |
- |
180 |
|
- |
5/5.1.4/5.1.4.1-Table2(REQUIREMENTS-Materials-Rubber components) |
- |
100 |
|
- |
5/5.1.4/5.1.4.2(REQUIREMENTS-Materials-Fabric-
accordance with IS 1969) |
- |
100 |
|
- |
5/5.1.4/5.1.4.3(REQUIREMENTS-Materials-Protective Steel Toe Cap-
an per IS 5852) |
- |
500 |
|
- |
5/5.1.6/5.1.6.1-Fig. 1,
Fig. 2, Fig. 3, .Fig. 4, Fig. 5 and Table 3.(REQUIREMENTS- Construction) |
- |
100 |
|
- |
5/5.1.7/5.1.7.1(REQUIREMENTS- Physical Requirements-Heat treatment-
as per IS 3400 (Part 4)) |
- |
2000 |
|
- |
5/5.1.7/5.1.7.2(REQUIREMENTS- Physical Requirements-Composite strength) |
- |
500 |
|
- |
5/5.1.7/5.1.7.3-Table 4(REQUIREMENTS- Physical Requirements-Flexing endurance-
as per Annex B.) |
- |
1500 |
|
- |
5, 5.1(Requirement) |
- |
100 |
|
- |
6.1(Marking) |
- |
180 |
|
- |
6, 6.1(Packing) |
- |
180 |
|
- |
6.2(Packing) |
- |
180 |
|
- |
|
Complete
|
|
19 Jul, 2024 |
- |
18 |
IS 14544 (1998) |
Leather safety foot wear with direct moulded polyvinyl chloride (PVC) sole - Specification |
-
|
17078 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
4(Types) |
- |
100 |
|
- |
5, 5.1(Requirements ) |
- |
100 |
|
- |
5.2, 5.2.1, 5.2.1.1(Materials - Upper Leather
) |
- |
100 |
|
- |
5.2.2(Materials - Insole Material
) |
- |
100 |
|
- |
5.2.3(Materials - Stiffener
) |
- |
100 |
|
- |
5.2.4(Materials - Lining Material
) |
- |
100 |
|
- |
5.2.5(Materials - Threads
) |
- |
100 |
|
- |
5.2.6, 5.2.6.1(Materials - Grinderies - Lasting tacks ) |
- |
100 |
|
- |
5.2.6, 5.2.6.2(Materials - Grinderies - Shanks) |
- |
100 |
|
- |
5.2.6, 5.2.6.3(Materials - Grinderies - Eyelets) |
- |
100 |
|
- |
5.2.7(Materials - Cotton NEWAR) |
- |
100 |
|
- |
5.2.8(Materials - Toe-Compound) |
- |
100 |
|
- |
5.2.9(Materials - Laces) |
- |
100 |
|
- |
5.2.10(Materials - Steel Toe Cap) |
- |
100 |
|
- |
5.2.11.1 (Table 1)(Sole and Heel ) |
- |
100 |
|
- |
5.2.11.2(Sole and Heel ) |
- |
100 |
|
- |
5.2.11.3 (Table 2)(Sole and Heel ) |
- |
100 |
|
- |
5.2.11.4(Sole and Heel ) |
- |
100 |
|
- |
5.3 (Table 3)(Components) |
- |
180 |
|
- |
5.4.8(Workmanship and Finish) |
- |
180 |
|
- |
5.5, 5.5.1(Mass) |
- |
150 |
|
- |
5.5, 5.5.2(Mass) |
- |
150 |
|
- |
5.5, 5.5.3(Mass) |
- |
150 |
|
- |
5.6(Performance Test) |
- |
630 |
|
- |
5.7, 5.7.1(Adhesion Test on Moulded Bottoms) |
- |
1000 |
|
- |
5.7, 5.7.2(Adhesion Test on Moulded Bottoms) |
- |
1000 |
|
- |
7, 7.1(Marking) |
- |
180 |
|
- |
7.1.1, 7.1.2(Marking) |
- |
180 |
|
- |
5.7(Adhesion Test ) |
- |
1000 |
|
- |
5.6(Impact resistance ) |
- |
630 |
|
- |
5.5(Mass per pairs) |
- |
150 |
|
- |
5.4(Construction) |
- |
180 |
|
- |
5.3(Thickness of components ) |
- |
180 |
|
- |
5.2.11.4(Ageing Test) |
- |
2700 |
|
- |
5.2.11.2(Mass after resistance to chemical effect) |
- |
150 |
|
- |
5.2.11(Flexing Resistance ) |
- |
2000 |
|
- |
5.2.11(Tensile Strength ) |
- |
500 |
|
- |
5.2.11(Elongation at break) |
- |
500 |
|
- |
5.2.11(Hardness (IRHD)) |
- |
600 |
|
- |
5.2.11(Material Sole & heel ) |
- |
100 |
|
- |
5.2.9(Length ) |
- |
100 |
|
- |
5.2.8(Toe-compound ) |
- |
100 |
|
- |
5.2.7(Width of fabric) |
- |
100 |
|
- |
5.2.6.3(Eyelets diameter) |
- |
100 |
|
- |
5.2.6.2(Corrosion Shanks ) |
- |
100 |
|
- |
5.2.6.1(Corrosion test Lasting tacks) |
- |
100 |
|
- |
5.2.5(Breaking Strength ) |
- |
500 |
|
- |
5.2.5(Twist) |
- |
100 |
|
- |
5.2.5(Count) |
- |
100 |
|
- |
5.2.5(Composition ) |
- |
100 |
|
- |
5.2.4(Lining Material ) |
- |
100 |
|
- |
5.2.3(Peel Strength ) |
- |
100 |
|
- |
5.2.3(Moisture) |
- |
100 |
|
- |
5.2.3(Resilience Test) |
- |
100 |
|
- |
5.2.3(Shape Retention) |
- |
100 |
|
- |
5.2.3(Hardness ) |
- |
600 |
|
- |
5.2.3(Dry collapsing) |
- |
100 |
|
- |
5.2.2(Insole Material ) |
- |
100 |
|
- |
5.2(Material ) |
- |
100 |
|
- |
|
Complete
|
|
19 Jul, 2024 |
- |
19 |
IS 16645 (2018) |
Moulded Plastics Footwear ” Lined or Unlined Polyurethane Boots for General Industrial use ” Specification |
-
|
8000 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
5.8.2& 5.8.3(Hydrolysis ) |
- |
1000 |
|
- |
5.8.1(Tensile strength after Hydrolysis) |
- |
500 |
|
- |
5.7(Split tear strength ) |
- |
500 |
|
- |
5.6(Resistance to soling to cut growth) |
- |
1000 |
|
- |
5.5(Cold flex temp of upper) |
- |
1000 |
|
- |
5.4(Hardness (IRHD)) |
- |
600 |
|
- |
5.3(Tesile Strength ) |
- |
500 |
|
- |
5.2(Resistance to flexing of boot upper) |
- |
1000 |
|
- |
5.1(General ) |
- |
100 |
|
- |
4.3(Thickness of components ) |
- |
180 |
|
- |
4.2(Thickness ) |
- |
180 |
|
- |
4.1(Soling Pattern ) |
- |
100 |
|
- |
|
Complete
|
|
19 Jul, 2024 |
- |
20 |
IS 13995 (1995) |
Unlined moulded rubber boots - Specification |
-
|
5000 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
5.1.7(Size) |
- |
100 |
|
- |
5.1.6(Design) |
- |
100 |
|
- |
5.1.5(Flexing resistance of upper) |
- |
1500 |
|
- |
5.1.4(Resistance to dry heat ageing ) |
- |
2000 |
|
- |
5.1.3(Tear Strength) |
- |
500 |
|
- |
5.1.2(Tensile Strength (after ageing)) |
- |
2700 |
|
- |
5.1.1(Tensile Strength (before ageing)) |
- |
500 |
|
- |
4.1(Thickness ) |
- |
180 |
|
- |
6, 6.1(Marking) |
- |
180 |
|
- |
Cl.6, 6.1(Marking) |
- |
180 |
|
- |
|
Complete
|
|
19 Jul, 2024 |
- |
21 |
IS 12254 (1993) |
Polyvinyl chloride (PVC) Industrial boots - Specification (First Revision) |
-
|
10000 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
4.2.3(Sulphur content ) |
- |
800 |
|
- |
5.5(Relative Density) |
- |
300 |
|
- |
5.6(Volatility
) |
- |
800 |
|
- |
5.7(Lead Content ) |
- |
990 |
|
- |
5.1.1(Shape and Dimension) |
- |
100 |
|
- |
5.2(Shape and Dimension) |
- |
100 |
|
- |
5.3.1(Thickness) |
- |
180 |
|
- |
5.3.2 Table 1(Thickness, Boot Upper, IS 12240 (Part 1)) |
- |
180 |
|
- |
5.3.2 Table 1(Thickness, Foxing strip, At the Heel, IS 12240 (Part 1)) |
- |
180 |
|
- |
5.3.2 Table 1(Thickness, Foxing strip , Elsewhere, IS 12240 (Part 1)) |
- |
180 |
|
- |
5.3.2 Table 1(Boot Bottom, Full Thickness, IS 12240 (Part 1)) |
- |
180 |
|
- |
5.3.2 Table 1(Boot Bottom, Outsole only, IS 12240 (Part 1)) |
- |
180 |
|
- |
5.3.2 Table 1(Heel , Full Thickness, IS 12240 (Part 1)) |
- |
180 |
|
- |
5.3.2 Table 1(Heel, Wearing surface to filler Block,IS 12240 (Part 1)) |
- |
180 |
|
- |
5.4 Table 2(Hardness, IS 12240 (Part 2)) |
- |
300 |
|
- |
5.5(Relative Density, IS 12240 (Part 3)) |
- |
300 |
|
- |
5.6(Volatility, IS 12240
( Part 2) ) |
- |
800 |
|
- |
5.8 Table 3(Tensile Requirements, Upper, IS 12240
( Part 6) ) |
- |
500 |
|
- |
5.8 Table 3(Tensile Requirements, Sole, IS 12240 (part 6)) |
- |
500 |
|
- |
5.9(Resistance to Cut Growth (Flexing test) for Sole, IS 12240 (Part 7)) |
- |
2000 |
|
- |
5.11(Leg Height, IS 12240 (part 9)) |
- |
180 |
|
- |
5.12(Leakage Resistance) |
- |
900 |
|
- |
5.13(Cold Flex Temperature) |
- |
1000 |
|
- |
5.14(Finish) |
- |
100 |
|
- |
5.15(Performance) |
- |
630 |
|
- |
5.15(Toe Impact test ) |
- |
630 |
|
- |
5.10(resistance to flexing for upper ) |
- |
1500 |
|
- |
5.8(Tensile Strength ) |
- |
500 |
|
- |
5.7(Lead contect ) |
- |
990 |
|
- |
5.6(Volatility ) |
- |
800 |
|
- |
5.5(Relative density ) |
- |
300 |
|
- |
5.4(Hardness (IRHD)) |
- |
300 |
|
- |
5.3(Thickness ) |
- |
180 |
|
- |
5.2(Soling pattern ) |
- |
100 |
|
- |
5.1(Shape & Design) |
- |
100 |
|
- |
Cl.4.1 , IS 1969:2009(Fabric ( for Lined Boots )) |
- |
500 |
|
- |
Cl.4.2, Cl.4.2.1,Table 1, IS 5041:1978(Eyelets) |
- |
100 |
|
- |
, Cl.4.2, Cl.4.2.2,IS 4778: 1982,(Laces, Length & Breaking load) |
- |
100 |
|
- |
Cl.4.3, Type 2 of IS5852:2004,(Steel toe caps) |
- |
100 |
|
- |
Cl.6,Cl.6.1,(Marking) |
- |
180 |
|
- |
Cl.6,Cl.6.2(Packing) |
- |
180 |
|
- |
|
Complete
|
|
19 Jul, 2024 |
- |
22 |
IS 11544 (1986) |
Specification for slipper, rubber |
-
|
4500 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
3.2.6(Thickness of components) |
- |
180 |
|
- |
3.2.5(Type of Thread) |
- |
180 |
|
- |
3.2(Flexural endurance) |
- |
1500 |
|
- |
3.2(Hardness after ageing) |
- |
600 |
|
- |
3.2(Hardness (IRHD)) |
- |
600 |
|
- |
3.2(Relative density ) |
- |
300 |
|
- |
3.1(Shape & Design) |
- |
100 |
|
- |
3.2.4(Colour fasntess to washing) |
- |
100 |
|
- |
3.2.4(Picks per cm) |
- |
100 |
|
- |
3.2.4(End per cm) |
- |
100 |
|
- |
3.2.4(Mass per unit area) |
- |
100 |
|
- |
3.2.2(Bottom Filling Material) |
- |
100 |
|
- |
3.2.4.1(Weave of fabrics) |
- |
100 |
|
- |
3.2.7(vulcanized process) |
- |
100 |
|
- |
3.2.8(Workmanship and Finish -) |
- |
100 |
|
- |
3.2.9(Preservation -) |
- |
100 |
|
- |
Cl. 4, Cl. 4.1, Cl 4.2, Cl. 4.3(Marking and packing) |
- |
180 |
|
- |
Cl. 4, Cl. 4.1,Cl 4.2(Marking and packing) |
- |
180 |
|
- |
|
Complete
|
|
19 Jul, 2024 |
- |
23 |
IS 11226 (1993) |
Leather safety footwear having direct moulded rubber sole specification (First Revision) |
-
|
20000 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
5.2(Materials) |
- |
100 |
|
- |
5.2.1(Materials) |
- |
100 |
|
- |
5.2.1.1(Materials) |
- |
100 |
|
- |
5.2.2(Materials) |
- |
100 |
|
- |
5.2.3(Materials) |
- |
100 |
|
- |
5.2.4(Materials) |
- |
100 |
|
- |
5.2.5(Materials) |
- |
100 |
|
- |
5.2.6(Materials) |
- |
100 |
|
- |
5.2.6.1(Materials) |
- |
100 |
|
- |
5.2.6.2(Materials) |
- |
100 |
|
- |
5.2.6.3(Materials) |
- |
100 |
|
- |
5.2.7(Materials) |
- |
100 |
|
- |
5.2.8(Materials) |
- |
100 |
|
- |
5.2.9(Materials) |
- |
100 |
|
- |
5.2.10(Materials) |
- |
100 |
|
- |
5.2.11(Materials) |
- |
100 |
|
- |
5.2.11.1(Materials) |
- |
100 |
|
- |
5.2.11.2(Materials) |
- |
100 |
|
- |
5.2.11.3(Materials) |
- |
100 |
|
- |
5.3(Components) |
- |
180 |
|
- |
5.4( Manufacture ) |
- |
100 |
|
- |
5.4.1( Manufacture ) |
- |
100 |
|
- |
5.5(Mass) |
- |
150 |
|
- |
5.6(Performance Test) |
- |
630 |
|
- |
5.7(Adhesion Test on Moulded Bottoms) |
- |
1000 |
|
- |
7(MARKING) |
- |
180 |
|
- |
5.7(Toe adhesion ) |
- |
1000 |
|
- |
5.6.(Toe Impact test) |
- |
1000 |
|
- |
5.4(Dimension ) |
- |
100 |
|
- |
5.3 & 5.4.2(Thickness of components ) |
- |
100 |
|
- |
5.2.11.2(Flexing resistance) |
- |
1200 |
|
- |
5.2.11.2(Elongation at break) |
- |
500 |
|
- |
5.2.11.2(Tensile Strength) |
- |
500 |
|
- |
5.2.11.2(Hardness (Shore A)) |
- |
300 |
|
- |
5.2.11(Hardness (IRHD)-after ageing) |
- |
300 |
|
- |
5.2.11(Flexing resistance) |
- |
2000 |
|
- |
5.2.11(Elongation at break) |
- |
500 |
|
- |
5.2.11(Tensile Strength) |
- |
509 |
|
- |
5.2.11(Relative density ) |
- |
300 |
|
- |
5.2.11(Hardness (IRHD)) |
- |
500 |
|
- |
5.2(Materials) |
- |
100 |
|
- |
5.2.1(Materials) |
- |
100 |
|
- |
5.2.1.1(Materials) |
- |
100 |
|
- |
5.2.2(Materials) |
- |
100 |
|
- |
5.2.3(Materials) |
- |
100 |
|
- |
5.2.4(Materials) |
- |
100 |
|
- |
5.2.5(Materials) |
- |
100 |
|
- |
5.2.6(Materials) |
- |
100 |
|
- |
5.2.6.1(Materials) |
- |
100 |
|
- |
5.2.6.2(Materials) |
- |
100 |
|
- |
5.2.6.3(Materials) |
- |
100 |
|
- |
5.2.7(Materials) |
- |
100 |
|
- |
5.2.8(Materials) |
- |
100 |
|
- |
5.2.9(Materials) |
- |
100 |
|
- |
5.2.10(Materials) |
- |
100 |
|
- |
5.2.11(Materials) |
- |
100 |
|
- |
5.2.11.1(Materials) |
- |
100 |
|
- |
5.2.11.2(Materials) |
- |
100 |
|
- |
5.2.11.3(Materials) |
- |
100 |
|
- |
5.3(Components) |
- |
100 |
|
- |
5.4( Manufacture ) |
- |
100 |
|
- |
5.4.1( Manufacture ) |
- |
100 |
|
- |
5.5(Mass) |
- |
500 |
|
- |
5.6(Performance Test) |
- |
630 |
|
- |
5.7(Adhesion Test on Moulded Bottoms) |
- |
1000 |
|
- |
7(MARKING) |
- |
180 |
|
- |
5.7(Toe adhesion ) |
- |
1000 |
|
- |
5.6.(Toe Impact test) |
- |
630 |
|
- |
5.4(Dimension ) |
- |
100 |
|
- |
5.3 & 5.4.2(Thickness of components ) |
- |
180 |
|
- |
5.2.11.2(Flexing resistance) |
- |
1200 |
|
- |
5.2.11.2(Elongation at break) |
- |
500 |
|
- |
5.2.11.2(Tensile Strength) |
- |
500 |
|
- |
5.2.11.2(Hardness (Shore A)) |
- |
300 |
|
- |
5.2.11(Hardness (IRHD)-after ageing) |
- |
300 |
|
- |
5.2.11(Flexing resistance) |
- |
2000 |
|
- |
5.2.11(Elongation at break) |
- |
500 |
|
- |
5.2.11(Tensile Strength) |
- |
500 |
|
- |
5.2.11(Relative density ) |
- |
300 |
|
- |
5.2.11(Hardness (IRHD)) |
- |
300 |
|
- |
5.1(REQUIREMENTS) |
- |
100 |
|
- |
5.2.11.2(Resistance to Fuel Oil) |
- |
300 |
|
- |
5.4.8(Workmanship and Finish) |
- |
100 |
|
- |
|
Complete
|
|
19 Jul, 2024 |
- |
24 |
IS 10702 (1992) |
Rubber hawal chappal - Specification (Second Revision) |
-
|
6000 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
5.4(Stud bolt) |
- |
180 |
|
- |
5.4(Stud bolt) |
- |
180 |
|
- |
5.4(Stud diameter) |
- |
180 |
|
- |
5.4(Tear strength ) |
- |
500 |
|
- |
5.4(Hardness (shore A)- after ageing) |
- |
2300 |
|
- |
5.4(Hardness (Shore A)) |
- |
300 |
|
- |
5.4(Breaking strength ) |
- |
800 |
|
- |
5.4(Elongation at break ) |
- |
500 |
|
- |
5.4(Tensile Strength ) |
- |
500 |
|
- |
5.4(Relative density ) |
- |
300 |
|
- |
5.4(Shrinkage test (at 100 C temp)) |
- |
1000 |
|
- |
5.4(Shrinkage test (at room temp)) |
- |
1000 |
|
- |
5.4(Split tear strength ) |
- |
500 |
|
- |
5.4(Compression set) |
- |
700 |
|
- |
5.4(Hardness (Shore A)) |
- |
300 |
|
- |
5.3(Thickness ) |
- |
180 |
|
- |
5.1(Shape & Design) |
- |
180 |
|
- |
6, 6.1, 6.2(Marking and packing) |
- |
180 |
|
- |
|
Complete
|
|
19 Jul, 2024 |
- |
25 |
IS 6721 (1972) |
Specification for PVC sandal |
-
|
3500 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
4.4(Dimension) |
- |
180 |
|
- |
4.0(Lead Content ) |
- |
990 |
|
- |
4.0(Volatility % by mass) |
- |
800 |
|
- |
4.0(Tear strength ) |
- |
500 |
|
- |
4.2(Design) |
- |
100 |
|
- |
6(Marking) |
- |
180 |
|
- |
4.4(Dimension) |
- |
180 |
|
- |
4.0(Lead Content ) |
- |
990 |
|
- |
4.0(Volatility % by mass) |
- |
800 |
|
- |
4.0(Tear strength ) |
- |
500 |
|
- |
4.2(Design) |
- |
100 |
|
- |
6(Marking) |
- |
180 |
|
- |
4.0(Elongation at break ) |
- |
500 |
|
- |
4.0(Tensile Strength ) |
- |
500 |
|
- |
4.0(Hardness (IRHD)) |
- |
600 |
|
- |
4.0(Density ) |
- |
300 |
|
- |
|
Complete
|
|
19 Jul, 2024 |
- |
26 |
IS 6719 (1972) |
Solid Pvc Soles And Heels |
-
|
3500 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
3.6.1(Hardness ) |
- |
600 |
|
- |
3.6 (vi)(Lead (as Pb) ppm) |
- |
990 |
|
- |
3.6 (v)(Volatility, percent by means ) |
- |
800 |
|
- |
3.6 (iv)(Tear Strength a) Force Part b) Back Part ) |
- |
500 |
|
- |
3.6 (iii)(Elongation at break, percent ) |
- |
500 |
|
- |
3.6 (ii)(Tensile Strength ) |
- |
500 |
|
- |
3.6 (i)(Relative density ) |
- |
300 |
|
- |
Cl. 3.1,3.2,3.3,3.4,3.5(Material) |
- |
150 |
|
- |
Cl. 6.4(Measurement of thickness) |
- |
500 |
|
- |
|
Complete
|
|
19 Jul, 2024 |
- |
27 |
IS 6664 (1992) |
Rubber microcellular sheets for soles and heels - Specification (First Revision) |
-
|
6500 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
4.2(Size & Thickness ) |
- |
180 |
|
- |
4, Cl.4.1,4.1.1,4.1.2(Requirements) |
- |
150 |
|
- |
Cl.4 Cl.4.1.3 And 8.3,Table1, i)(Relative density) |
- |
300 |
|
- |
Cl.4 Cl.4.1.3 And 8.3,Table1, ii)(Hardness, Shore A durometer min) |
- |
300 |
|
- |
Cl.4.1.3 And 8.3,Table1(iii) Change in Hardness after ageing at 100±1°C for 24hr) |
- |
2300 |
|
- |
Cl.4 Cl.4.1.3 And 8.3,Table1, iv)(Compression set at constant stress percent, Max) |
- |
700 |
|
- |
Cl.4 Cl.4.1.3 And 8.3,Table1, v)(Split tear strength, kg,Min) |
- |
500 |
|
- |
Cl.4 Cl.4.1.3 And 8.3,Table1, vi)(Room Temperature shrinkage at 27±2°C for 2weeks, percent, Max) |
- |
1000 |
|
- |
Cl.4 Cl.4.1.3 And 8.3,Table1, vii)(Heat shrinkage test at 100±1°C for 1 hour max) |
- |
1000 |
|
- |
Cl.4 Cl.4.1.3 And 8.3,Table1, viii)(Water absorption , percent by mass, Max) |
- |
630 |
|
- |
Cl.4 Cl.4.1.3 And 8.3,Table1, ix)(Flexing resistance) |
- |
1200 |
|
- |
5, 5.1(Marking) |
- |
180 |
|
- |
6, 6.1(Packing) |
- |
180 |
|
- |
|
Complete
|
|
19 Jul, 2024 |
- |
28 |
IS 15844 (2010) |
Sports Footwear Specification |
-
|
22000 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
3.11(Corrosion resistance) |
- |
700 |
|
- |
3.10(Ross Flex test) |
- |
1000 |
|
- |
3.10(Collapsing load ) |
- |
800 |
|
- |
3.10(Crush load ) |
- |
500 |
|
- |
3.9(Lace abrasion test) |
- |
800 |
|
- |
3.9(Griping Strength of Tags) |
- |
500 |
|
- |
3.9(Colour migration / Colour fastness) |
- |
300 |
|
- |
3.9(Breaking Strength ) |
- |
500 |
|
- |
3.8(Heat resistance tester ) |
- |
500 |
|
- |
3.8(Compression set ) |
- |
1000 |
|
- |
3.8(Die-C tear Strength ) |
- |
500 |
|
- |
3.8(Elongation at Break ) |
- |
500 |
|
- |
3.8(Tensile Strength) |
- |
500 |
|
- |
3.7(Flexing index) |
- |
500 |
|
- |
3.7(Abrasion resistance ) |
- |
800 |
|
- |
3.7(Water absorption & loss percent ) |
- |
630 |
|
- |
3.7(Tensile Strength) |
- |
500 |
|
- |
3.6(Ross flexing ) |
- |
2000 |
|
- |
3.6(Adhesion to mid sole ) |
- |
800 |
|
- |
3.6(Abrasion resistance ) |
- |
1080 |
|
- |
3.6(Die-C tear Strength ) |
- |
500 |
|
- |
3.6(Trouser tear strength ) |
- |
500 |
|
- |
3.5(Heat resistance tester ) |
- |
500 |
|
- |
3.5(Adhesive to sole) |
- |
800 |
|
- |
3.5(Compression set ) |
- |
1000 |
|
- |
3.5(Die-C tear Strength ) |
- |
500 |
|
- |
3.5(Split tear strength ) |
- |
500 |
|
- |
3.5(Elongation at Break ) |
- |
500 |
|
- |
3.5(Tensile Strength) |
- |
500 |
|
- |
3.4(Colorfastness to light ) |
- |
300 |
|
- |
3.4(Colour fastness to crocking ) |
- |
300 |
|
- |
3.4(Tear Strength) |
- |
500 |
|
- |
3.4(Elongation at Break ) |
- |
500 |
|
- |
3.4(Tensile Strength) |
- |
500 |
|
- |
3.4(Adhesive Strength ) |
- |
800 |
|
- |
3.4(Hydrolysis ) |
- |
1000 |
|
- |
3.4(Upper flexing resistance ) |
- |
1000 |
|
- |
3.3.4(Energy absorption of seat region ) |
- |
630 |
|
- |
3.3.3(Sole /midsole bond strength ) |
- |
800 |
|
- |
3.3.2(Upper/outsole bond strength) |
- |
800 |
|
- |
3.3.1(Contruction) |
- |
100 |
|
- |
3.2.3 & 3.2.4(Visual ) |
- |
100 |
|
- |
3.2.1(Design ) |
- |
100 |
|
- |
Cl. 3.6,Table 7,IS 3400(Part 17), iv)(Tear strength, kg/cm, Min) |
- |
500 |
|
- |
Cl. 3.4,Table 3(Lastometer test, mm, Min) |
- |
500 |
|
- |
|
Complete
|
|
19 Jul, 2024 |
- |
29 |
IS 3976 (2018) |
Safety Rubber Canvas Boots for Miners †Specification ( Sixth Revision ) |
-
|
20000 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
Cl.5.2.5 Compact Sole Heel
Cl.5.2.5.1 IS 3400 (Part 2)(requirements prescribed in col 3 of Table 2 when tested
as per corresponding test methods prescribed in col 4
of Table 2.
i)i) Hardness (IRHD) |
- |
100 |
|
- |
Cl.5.2.5 Compact Sole Heel
Cl.5.2.5.1 IS 3400 (Part 2)(requirements prescribed in col 3 of Table 2 when tested
as per corresponding test methods prescribed in col 4
of Table 2.
i)i) Hardness (IRHD) |
- |
600 |
|
- |
Cl.6.3 Tear Strength of Compact Outsole(
When outsoles are tested in accordance to 8.2 of
IS 15298 (Part 1), the tear strength shall be not less
than 8 kN/m for material having density higher
than 0.9/cm³ and when density of material is less than
or equal to 0.9 g/cm³, tear strength shall not be less
than 5 kN/m.) |
- |
500 |
|
- |
Cl.5.2.3 Coated Binding Material
IS 1954(
Coated binding materials shall conform to the
requirements given in col 3 of Table 1 when tested
according to the methods prescribed in col 4 of Table 1.
i)Width in mm,
) |
- |
150 |
|
- |
Cl.5.2.1.4 ( Type 2 footwear, the composite upper
material shall comply with requirements of water coefficient as prescribed
in 5.4.6 of IS 15298 (Part 2).) |
- |
1350 |
|
- |
Cl.5.2.5 Compact Sole Heel
Cl.5.2.5.1 IS 3400 (Part 2)(requirements prescribed in col 3 of Table 2 when tested
as per corresponding test methods prescribed in col 4
of Table 2.
i)i) Hardness (IRHD) |
- |
1000 |
|
- |
Cl.6.3 Tear Strength of Compact Outsole(
When outsoles are tested in accordance to 8.2 of
IS 15298 (Part 1), the tear strength shall be not less
than 8 kN/m for material having density higher
than 0.9/cm³ and when density of material is less than
or equal to 0.9 g/cm³, tear strength shall not be less
than 5 kN/m.) |
- |
500 |
|
- |
Cl.5.2.3 Coated Binding Material
IS 1954(
Coated binding materials shall conform to the
requirements given in col 3 of Table 1 when tested
according to the methods prescribed in col 4 of Table 1.
i)Width in mm,
) |
- |
500 |
|
- |
Cl.5.2.1.4 ( Type 2 footwear, the composite upper
material shall comply with requirements of water coefficient as prescribed
in 5.4.6 of IS 15298 (Part 2).) |
- |
1350 |
|
- |
Cl.5.13 Energy Absorption Test(When footwear is tested in accordance with the method
prescribed in 5.14 of IS 15298 (Part 1), the energy
absorption of the seat region shall not be less than 20 J.) |
- |
630 |
|
- |
Cl.5.2.3 Coated Binding Material
Annex C(ii) Breaking load in N, Min (50 cm grip length test specimen) ) |
- |
500 |
|
- |
Cl.5.2.1.4 ( Type 2 footwear, the composite upper
material shall comply with requirements of water
vapour permeability as prescribed
in 5.4.6 of IS 15298 (Part 2).) |
- |
500 |
|
- |
CL.5.2.10 Counter Stiffener(
A counter stiffener, made out of textile reinforced withpolymer/rubber including (thermoplastic) having
thickness not less than 1.5 mm is to be stitched at inside
of upper so as to fortify the back of the footwear at
joints of quarter.) |
- |
100 |
|
- |
Cl.5.1.1 Fittings(Fittings of the footwear shall be in conformity to Table 9
of IS 1638 (measurement of men’s lasts) and Table 8
of IS 1638 (measurement of women’s lasts).) |
- |
100 |
|
- |
Cl.5.2.1 Upper
Cl.5.2.1.1
IS 3400(Part 5)( Composite upper material shall comply with consolidation test as per 5.10.(IS 3400 (Part 5). There shall be no separation at a load
of 1.5 kg.)) |
- |
500 |
|
- |
Cl.5.2.5 Compact Sole Heel
Cl.5.2.5.1 IS 3400 (Part 2)(requirements prescribed in col 3 of Table 2 when tested
as per corresponding test methods prescribed in col 4
of Table 2.
i)i) Hardness (IRHD) |
- |
100 |
|
- |
Cl.6.3 Tear Strength of Compact Outsole(
When outsoles are tested in accordance to 8.2 of
IS 15298 (Part 1), the tear strength shall be not less
than 8 kN/m for material having density higher
than 0.9/cm³ and when density of material is less than
or equal to 0.9 g/cm³, tear strength shall not be less
than 5 kN/m.) |
- |
500 |
|
- |
Cl.5.2.3 Coated Binding Material
IS 1954(
Coated binding materials shall conform to the
requirements given in col 3 of Table 1 when tested
according to the methods prescribed in col 4 of Table 1.
i)Width in mm,
) |
- |
800 |
|
- |
Cl.5.2.1.4 ( Type 2 footwear, the composite upper
material shall comply with requirements of water coefficient as prescribed
in 5.4.6 of IS 15298 (Part 2).) |
- |
500 |
|
- |
Cl.5.13 Energy Absorption Test(When footwear is tested in accordance with the method
prescribed in 5.14 of IS 15298 (Part 1), the energy
absorption of the seat region shall not be less than 20 J.) |
- |
1350 |
|
- |
Cl.5.2.3 Coated Binding Material
Annex C(ii) Breaking load in N, Min (50 cm grip length test specimen) ) |
- |
500 |
|
- |
Cl.5.2.1.4 ( Type 2 footwear, the composite upper
material shall comply with requirements of water
vapour permeability as prescribed
in 5.4.6 of IS 15298 (Part 2).) |
- |
1350 |
|
- |
CL.5.2.10 Counter Stiffener(
A counter stiffener, made out of textile reinforced withpolymer/rubber including (thermoplastic) having
thickness not less than 1.5 mm is to be stitched at inside
of upper so as to fortify the back of the footwear at
joints of quarter.) |
- |
100 |
|
- |
Cl.5.1.1 Fittings(Fittings of the footwear shall be in conformity to Table 9
of IS 1638 (measurement of men’s lasts) and Table 8
of IS 1638 (measurement of women’s lasts).) |
- |
100 |
|
- |
Cl.5.2.1 Upper
Cl.5.2.1.1
IS 3400(Part 5)( Composite upper material shall comply with consolidation test as per 5.10.(IS 3400 (Part 5). There shall be no separation at a load
of 1.5 kg.)) |
- |
500 |
|
- |
Cl.5.2.1.2( Composite upper material shall comply with
tear strength as per 5.4.3 of IS 15298 (Part 2).) |
- |
500 |
|
- |
Cl.5.2.5 Compact Sole Heel
Cl.5.2.5.1 IS 3400 (Part 2)(requirements prescribed in col 3 of Table 2 when tested
as per corresponding test methods prescribed in col 4
of Table 2.
i)i) Hardness (IRHD) |
- |
500 |
|
- |
Cl.6.3 Tear Strength of Compact Outsole(
When outsoles are tested in accordance to 8.2 of
IS 15298 (Part 1), the tear strength shall be not less
than 8 kN/m for material having density higher
than 0.9/cm³ and when density of material is less than
or equal to 0.9 g/cm³, tear strength shall not be less
than 5 kN/m.) |
- |
500 |
|
- |
Cl.5.2.3 Coated Binding Material
IS 1954(
Coated binding materials shall conform to the
requirements given in col 3 of Table 1 when tested
according to the methods prescribed in col 4 of Table 1.
i)Width in mm,
) |
- |
500 |
|
- |
Cl.5.2.1.4 ( Type 2 footwear, the composite upper
material shall comply with requirements of water coefficient as prescribed
in 5.4.6 of IS 15298 (Part 2).) |
- |
1350 |
|
- |
Cl.5.13 Energy Absorption Test(When footwear is tested in accordance with the method
prescribed in 5.14 of IS 15298 (Part 1), the energy
absorption of the seat region shall not be less than 20 J.) |
- |
630 |
|
- |
Cl.5.2.3 Coated Binding Material
Annex C(ii) Breaking load in N, Min (50 cm grip length test specimen) ) |
- |
500 |
|
- |
Cl.5.2.1.4 ( Type 2 footwear, the composite upper
material shall comply with requirements of water
vapour permeability as prescribed
in 5.4.6 of IS 15298 (Part 2).) |
- |
630 |
|
- |
CL.5.2.10 Counter Stiffener(
A counter stiffener, made out of textile reinforced withpolymer/rubber including (thermoplastic) having
thickness not less than 1.5 mm is to be stitched at inside
of upper so as to fortify the back of the footwear at
joints of quarter.) |
- |
100 |
|
- |
Cl.5.1.1 Fittings(Fittings of the footwear shall be in conformity to Table 9
of IS 1638 (measurement of men’s lasts) and Table 8
of IS 1638 (measurement of women’s lasts).) |
- |
100 |
|
- |
Cl.5.2.1 Upper
Cl.5.2.1.1
IS 3400(Part 5)( Composite upper material shall comply with consolidation test as per 5.10.(IS 3400 (Part 5). There shall be no separation at a load
of 1.5 kg.)) |
- |
1350 |
|
- |
Cl.5.2.1.2( Composite upper material shall comply with
tear strength as per 5.4.3 of IS 15298 (Part 2).) |
- |
500 |
|
- |
Cl.5.2.1.3 ,
Cl.6.5 of IS 15298 (Part 1).( Composite upper material shall develop no cracks before 150 000 cycles when tested in accordance
with 6.5 of IS 15298 (Part 1).) |
- |
1000 |
|
- |
Cl.5.2.1.5( Inner layer of upper shall meet requirement of abrasion resistance as prescribed in 5.5.2 of IS 15298 (Part 2).) |
- |
100 |
|
- |
Cl.5.2.2 Compact Insole/Compact Insocks/Counter
Stiffener Lining(Textile material shall be used as lining material for
compact insole/compact insocks / counter stiffener. It
shall meet the requirement of tear strength as prescribed
in 5.6.1 of IS 15298 (Part 2).) |
- |
500 |
|
- |
Cl.5.2.2.1 Abrasion resistance of compact insole/insocks/
counter stiffener(
When textiles used as lining for all the above are tested
in accordance with 6.12 of IS 15298 (Part 1), the lining
shall not develop any holes before the following number
of cycles has been performed:) |
- |
1350 |
|
- |
Cl.5.2.3.1 In case of cotton black binding materia( the same shall be free from sulphur dyes when tested in
accordance with Annex B.) |
- |
800 |
|
- |
Cl.5.2.5 Compact Sole Heel
Cl. 5.2.5.1
(The compact sole heel shall be made out
of polymeric/rubber components and the typical design
recommendation (not mandatory) of compact sole heel
is as shown in Fig. 3. Sectional view of Type 1/Type 2
)
toe position is given in Fig. 4.) |
- |
100 |
|
- |
Cl.5.2.5 Compact Sole Heel
5.2.5.1 IS 3400 (Part 4)(ii)*Change in hardness after
accelerated ageing at 100 ± 2
°C for 24 h
) |
- |
600 |
|
- |
Cl.5.2.5.3 Ageing for whole footwear(When rubber is used for manufacturing boots or when
the outer sole heel is made of bi-polymer, the finished
boots shall be aged at 100 ± 2°C for 24 h. On completion of test, all rubber components shall not
develop any sign of tackiness or brittleness.) |
- |
1000 |
|
- |
Cl.5.2.5.4 Thickness of compact sole hee(Thickness of compact sole heel of the boots shall
comply with the thickness and material requirements
prescribed in Table 3.) |
- |
180 |
|
- |
Cl.5.2.6 Thread for Upper Closing(
The length (m/kg) and construction of sewing thread
shall conform to requirements as prescribed in
Table 4.) |
- |
100 |
|
- |
Cl.5.2.7 Safety Toe Cap(Safety toe cap as per 3.6 shall be fitted into the footwear and must not come out while in use.) |
- |
100 |
|
- |
Cl.5.2.8.1( The boots shall be provided with laces having minimum length of 115 cm for Type 1 and minimum
100 cm for Type 2.) |
- |
180 |
|
- |
Cl.5.2.8.2 (Minimum breaking load of 60 kg is to be
achieved when tested between 18 cm grip length in
accordance with Annex C.) |
- |
500 |
|
- |
Cl.5.2.8.3( In case of cotton lace of black colour, the same
shall be free from sulphur dyes when tested in
accordance with Annex B. Two ends of the laces shall
be provided with plastic tips.) |
- |
800 |
|
- |
Cl.5.2.9 Eyelets(
Aluminum eyelets of external collar diameter not less
than 10 mm and wall thickness of 0.30 to 0.35 mm
shall be used.) |
- |
100 |
|
- |
Cl.5.3.2 (The tongue shall be made out of composite upper
material and shall be half bellow type for Type 2 and
full bellow type for Type 1.) |
- |
100 |
|
- |
Cl.5.3.5 Outer toe cap( shall be provided which is made
of polymer/rubber and it shall be strongly adhered such
that it shall not open up or come out while in use. Toe
of the boot shall be reinforced with safety toe cap) |
- |
100 |
|
- |
Cl.5.3.6( A designed foxing of width of minimum 25 mm
and of thickness of minimum 2 mm is to be provided.
The foxing shall not extend the edges of the outer
sole.) |
- |
100 |
|
- |
Cl.5.3.7( Two pairs of detachable insocks are to be
provided. The insocks shall be compact in nature having
thickness not less than 2 mm.) |
- |
100 |
|
- |
Cl.5.4 Finish(
In appearance, general workmanship and in all other
respects with regard to finish and get up of the footwear,
the footwear shall be matching to the approved sample
of the purchaser.) |
- |
100 |
|
- |
Cl.5.5 Mass(The mass of one pair of finished footwear of size 8
shall not exceed 1 500 g for Type 1 and 1 400 g for
Type 2 with an increase or decrease of 100 g for each
bigger or smaller size, respectively.) |
- |
150 |
|
- |
Cl.5.6( Height of Upper
Height of upper of the boots shall conform to column 5
(Design C) and column 4 (Design B) of 5.2.2, Table 4
of IS 15298 (Part 2) for Type 1 and Type 2, respectively
when measured as per 6.2 of IS 15298 (Part 1) on the
inside of the back of the footwear and from seat of the
insole to top edge of the upper.) |
- |
180 |
|
- |
Cl.5.7 Performance Test(When safety footwear is tested in accordance with the
method described in 5.4 of IS 15298 (Part 1), at an
impact energy of (200 ± 4) J, the clearance under the
toecap at the moment of impact shall be in accordance
with Table 5. In addition, the toecap shall not develop
any cracks which go through the material, that is,
through which light can be seen.) |
- |
630 |
|
- |
Cl.5.8 Upper/Outsole Bond Strength(When the footwear is tested in accordance with the
method prescribed in 5.2 of IS 15298 (Part 1), the bond
strength shall not be less than 4.0 N/mm, unless there
is tearing of the sole in which case the bond strength
shall not be less than 3.0 N/mm.) |
- |
800 |
|
- |
Cl.5.9 Sole Interlayer Bond Strength for Bi-polymer(
and Bi-density Sole
When tested in accordance with 5.2 of IS 15298 (Part 1),
the bond strength between the outer or cleated layer
and the adjacent layer shall not be less than 4.0 N/mm
unless there is tearing of any part of the sole, in which
case the bond strength shall not be less than 3.0 N/mm.) |
- |
800 |
|
- |
Cl.5.10 Consolidation Test(
Representative sample of width 25 ± 0.5 mm are cut
out from the quarter of the upper along the length of
boot. The plies are separated by breaking the bond.
Carry out the test on two specimens in accordance with
IS 3400 (Part 5). Th) |
- |
800 |
|
- |
Cl.5.11 Compression Resistance(
5.11.1 When safety boots are tested in accordance
with 5.5 of IS 15298 (Part 1), the clearance under the
toe cap at a compression load of 15 kN ± 0.1 kN shall
be in accordance with Table 5.) |
- |
630 |
|
- |
Cl.5.12 Internal Length of Toe Cap(
For safety boots, internal length of the toe cap shall
meet the specification given in Table 5 of IS 15298
(Part 2) when tested as per 5.3 of IS 15298 (Part 1).) |
- |
180 |
|
- |
Cl.6.1 Abrasion Resistance of Compact Outsole(
When outsole is tested in accordance with 8.3 of
IS 15298 (Part 1), the relative volume loss shall not
be greater than 250 mm³ for materials having density
0.9 g/cm³ or less, and not greater than 150 mm³ for
materials with density greater than 0.9 g/cm³.) |
- |
1080 |
|
- |
Cl.6.2 Flexing Resistance of Compact Outsole(
When outsole is tested in accordance with 8.4 of
IS 15298 (Part 1), the cut growth shall not be greater
than 4 mm before 30 000 cycles.) |
- |
1080 |
|
- |
Cl.6.4 Resistance to Hot Contact( — Sole Heel
When sole heel is tested in accordance with 8.7 of IS 15298 (Part 1), the material shall not melt/deform
and shall not develop any cracks when bent around the
mandrel.) |
- |
800 |
|
- |
Cl.6.5 Hydrolysis(
When bottom sole or other components are made out
of polyurethane, the same shall be tested in accordance
with 8.5 of IS 15298 (Part 1) and the same shall comply
with 5.8.5 of IS 15298 (Part 2).) |
- |
2700 |
|
- |
5.2.4(Reinforcing Material) |
- |
100 |
|
- |
5.2.8.4(Colour of the lace) |
- |
100 |
|
- |
Cl. 5.3(Construction 5.3.1,5.3.3,5.3.4) |
- |
100 |
|
- |
8(CHEMICAL REQUIREMENTS) |
- |
4450 |
|
- |
10(Marking) |
- |
180 |
|
- |
11(PACKING) |
- |
180 |
|
- |
|
Complete
|
|
19 Jul, 2024 |
- |
30 |
IS 3736 (1995) |
Canvas boots, rubber sole - Specification (Second Revision) |
-
|
20000 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
Cl.4.1.7.4 Ageing(The boots shall be also aged at 70 ± 1°C for 168 h, on completion of which the test pieces taken from the soles and heels of the boots shall conform to the physical requirements prescribed in Table 5.
i) Tensile Length) |
- |
500 |
|
- |
Cl.4.1.7.4 Ageing(ii) Elongation at break) |
- |
500 |
|
- |
Cl.4.1.7.2
IS 3400 (Part 2) : 1980(2)Hardness, IRHD) |
- |
500 |
|
- |
4.1.6 Fabric Laces
Cl.4.1.6.1( The boots shall be provided with braided of cotton or man made or blended fabric laces 115 ± 5 cm in length, matching the colour of the upper. ) |
- |
1000 |
|
- |
Cl.4.1.1 upper IS 1969(d) Picks/dm) |
- |
500 |
|
- |
Cl.4.4.5 ( Table 1.)(c) Ends/dm
) |
- |
500 |
|
- |
4.1.2 Lining Material(having 390 ± 10 ends/dm and ) |
- |
500 |
|
- |
Cl.4.1.7.2
IS 3400 (Part 4) : 1987
IS 3400 (Part 2) : 1980(Change in initial hardness after accelerated ageing
for 24 h at l00 ± 1°C) |
- |
500 |
|
- |
Cl.4.8 Adhesion Test(From the upper foxing portion where it is adhered to the canvas cut a strip of
8.0 ± 0.5 mm width along with the length of the sole at the waist portion and of
sufficient lengh to permit separation over a length of at least 75 mm. Carry out
the test on two test pieces (one from each odd) at the rate of traverse of 100 ± 10
mm per minute in accordance with IS 3400 (Part 5):1986 or the Static Dead
Load Method as given in Annex C.
The individual adhesion value noted/recorded shall not be less than 8 N (0.8 kgf)
for each of the test pieces ( see Note under 4.7 ).') |
- |
1000 |
|
- |
Cl.4.4.9(From the upper of made up footwear representative sample of width 25 ± 0.5 mm
width strip is to be cut along the length of the boot of enough length so as to
make it convenient to allow a distance of minimum 30 mm between the jaws
of the tensile machine) |
- |
500 |
|
- |
Cl.4.1.7.2
IS 3400 (Part 1) : 1987(Tensile strength in MPa, Min) |
- |
500 |
|
- |
Cl.4.1.3 Binding Material
IS 1954:1990(Cotton tape NEWAR used as binding material shall conform to the requirements as mentioned in
Table 2, when tested in accordance with the methods referred to in col 4 of Table 2.
1)Width, mm. Min
) |
- |
500 |
|
- |
Cl.4.4.3(The top, side and front edges of the quarters and tongue shall be bound with cotton tape NEWAR of not less than 13 mm width using variety No. 29 thread.) |
- |
500 |
|
- |
Cl.4.1.7.3
IS 3400 (Part 10) : 1977(Compression set, in percent. Max) |
- |
500 |
|
- |
Cl.4.4.4( The back of the quarter shall be reinforced with a strip, not less than 25 mm wide,of either upper material or canvas. In case of composite upper material the edges of the strip
shall be bound by cotton tape ( NEWAR ). When canvas cloth is used the edges shall be folded and shall be stitched with two rows of stitching.) |
- |
500 |
|
- |
Cl.4.7 Consolidation Test(From the quarter, cut a strip of 25.0 ± 0. 5 mm width along the length of the boot
and of sufficient length to permit separation over a length of 75 mm. Carry out the test on two test pieces (one from each odd) at the rate of traverse of 100 ± 10mm per minute in accordance with IS 3400 (Part 5): 1986 or Static Dead Load
Method as given in Annex C. The individual adhesion value for consolidation
test shall not be less than 30 N (3.0 kgf) for each of the test pieces) |
- |
1000 |
|
- |
Cl.4.1.7.2
IS 3400 (Part 1) : 1987(Elongation at break, in percent, Min) |
- |
500 |
|
- |
Cl.4.1.7.4 Ageing(The boots shall be also aged at 70 ± 1°C for 168 h, on completion of which the test pieces taken from the soles and heels of the boots shall conform to the physical requirements prescribed in Table 5.
i) Tensile Length) |
- |
500 |
|
- |
Cl.4.1.7.4 Ageing(ii) Elongation at break) |
- |
500 |
|
- |
Cl.4.1.7.2
IS 3400 (Part 2) : 1980(2)Hardness, IRHD) |
- |
500 |
|
- |
4.1.6 Fabric Laces
Cl.4.1.6.1( The boots shall be provided with braided of cotton or man made or blended fabric laces 115 ± 5 cm in length, matching the colour of the upper. ) |
- |
500 |
|
- |
Cl.4.1.1 upper IS 1969(d) Picks/dm) |
- |
500 |
|
- |
Cl.4.4.5 ( Table 1.)(c) Ends/dm
) |
- |
500 |
|
- |
4.1.2 Lining Material(having 390 ± 10 ends/dm and ) |
- |
500 |
|
- |
Cl.4.1.7.2
IS 3400 (Part 4) : 1987
IS 3400 (Part 2) : 1980(Change in initial hardness after accelerated ageing
for 24 h at l00 ± 1°C) |
- |
500 |
|
- |
Cl.4.8 Adhesion Test(From the upper foxing portion where it is adhered to the canvas cut a strip of
8.0 ± 0.5 mm width along with the length of the sole at the waist portion and of
sufficient lengh to permit separation over a length of at least 75 mm. Carry out
the test on two test pieces (one from each odd) at the rate of traverse of 100 ± 10
mm per minute in accordance with IS 3400 (Part 5):1986 or the Static Dead
Load Method as given in Annex C.
The individual adhesion value noted/recorded shall not be less than 8 N (0.8 kgf)
for each of the test pieces ( see Note under 4.7 ).') |
- |
500 |
|
- |
Cl.4.4.9(From the upper of made up footwear representative sample of width 25 ± 0.5 mm
width strip is to be cut along the length of the boot of enough length so as to
make it convenient to allow a distance of minimum 30 mm between the jaws
of the tensile machine) |
- |
500 |
|
- |
Cl.4.1.7.2
IS 3400 (Part 1) : 1987(Tensile strength in MPa, Min) |
- |
500 |
|
- |
Cl.4.1.3 Binding Material
IS 1954:1990(Cotton tape NEWAR used as binding material shall conform to the requirements as mentioned in
Table 2, when tested in accordance with the methods referred to in col 4 of Table 2.
1)Width, mm. Min
) |
- |
500 |
|
- |
Cl.4.4.3(The top, side and front edges of the quarters and tongue shall be bound with cotton tape NEWAR of not less than 13 mm width using variety No. 29 thread.) |
- |
500 |
|
- |
Cl.4.1.7.3
IS 3400 (Part 10) : 1977(Compression set, in percent. Max) |
- |
500 |
|
- |
Cl.4.4.4( The back of the quarter shall be reinforced with a strip, not less than 25 mm wide,of either upper material or canvas. In case of composite upper material the edges of the strip
shall be bound by cotton tape ( NEWAR ). When canvas cloth is used the edges shall be folded and shall be stitched with two rows of stitching.) |
- |
500 |
|
- |
Cl.4.7 Consolidation Test(From the quarter, cut a strip of 25.0 ± 0. 5 mm width along the length of the boot
and of sufficient length to permit separation over a length of 75 mm. Carry out the test on two test pieces (one from each odd) at the rate of traverse of 100 ± 10mm per minute in accordance with IS 3400 (Part 5): 1986 or Static Dead Load
Method as given in Annex C. The individual adhesion value for consolidation
test shall not be less than 30 N (3.0 kgf) for each of the test pieces) |
- |
500 |
|
- |
Cl.4.1.7.2
IS 3400 (Part 1) : 1987(Elongation at break, in percent, Min) |
- |
500 |
|
- |
IS 1969:1985(Breaking load on 50 cm
test length. N, Min) |
- |
500 |
|
- |
4.1.6 Fabric Laces
Cl.4.1.6.1(The laces shall have a minimum
breaking load of 450 N, when tested between 18 cm grips, the rate of traverse of power actuated grip being 30 cm/min.) |
- |
500 |
|
- |
Cl.4.1.7 Rubber Components
Cl.4.1.7.1( the soles and heels shall conform to Type 2 of IS 5676:1995.) |
- |
500 |
|
- |
Cl.4.1.7.2
IS 3400 (Part 16) : 1974(iii)Flexing resistance, number of cycles
b)Cut growth at the end of 150 000 cycles,
Percent, Max) |
- |
500 |
|
- |
Cl.4.4.5 ( Table 1.)(b) Weft
) |
- |
500 |
|
- |
Cl.4.4.5 ( Table 1.)( in case of half bellow. Thefull bellow tongue shall be made out of canvas cloth
as prescribed in Sl No. (i) of Table 1.
Breaking load in N, Min
a) Warp
) |
- |
500 |
|
- |
Cl.4.1.1 upper IS 1969(b)Weft) |
- |
500 |
|
- |
Cl.4.1.1 upper IS 1969(Breaking load in
N.Min (5 × 20 cm grip): a) Wrap) |
- |
500 |
|
- |
Cl.4.1.7.2
IS 3400 (Part 16) : 1974(iii)Flexing resistance, number of cycles
a)Initial crack, Min) |
- |
500 |
|
- |
4.1.2 Lining Material( 200 N Minin weft way (when tested in accordance with IS 1969 : 1985) ) |
- |
500 |
|
- |
4.1.2 Lining Material(For covering of the insole, cotton drill conforming to Table 1, Sl No. (ii) shall be used. For detachable insole, bleached cotton twill of breaking load 390 N
Min in warp way and) |
- |
500 |
|
- |
Cl.4.1.1 upper(The upper shall consist of Rip Stop Fabric of cotton or manmade or its blend
being the over layer and cotton drill as an inner layer and shall conform to the
requirements given at Sl No. (i) of Table
1. Sr.no 1.Overlayer Construction
) |
- |
500 |
|
- |
4.1.1.1 Colour fastness(The dyed fabrics prescribed in 4.1.1 shall be fast to daylight and mechanical washing. Fastness to daylight
shall be of rating 4 or better, when tested in accordance with IS 686 : 1985 or IS 2454 : 1985.) |
- |
500 |
|
- |
Cl.4.1.1.2( Fastness to mechanical washing (mild) shall be of rating 4 or better, when tested in accordance with IS 764 : 1979) |
- |
500 |
|
- |
Cl.4.1.3.3( Black tapes shall be free from sulphur dyes when tested in accordance with Annex B.) |
- |
500 |
|
- |
Cl.4.1.4 Reinforcement Material(The back seam, joining two quarters at the back of the heel shall be reinforced with a not less than 25 mm wide tape made out of material conforming
to Sl No. (i) of Table 1) |
- |
500 |
|
- |
Cl.4.1.5 Thread for Upper Closing
Cl.4.1.5.1 (IS 1670:1991)(Sewing thread cotton, man made or blended shall be used for stitching
of upper. For cotton variety thread shall conform to variety No. 28 of IS 1720.
Polyester variety thread shall conform to variety No. 9 of IS 9543.
Any other blend of thread would have breaking load not less than above referred
requirements.
Sewing thread cotton, manmade or blended shall be used for binding of upper.
For cotton variety thread shall conform to variety No. 32 of IS 1720. Polyester
variety thread shall conform to variety No. 5 of IS 9543.
Any other blend of thread would have breaking load not less than above referred
requirement of specification.') |
- |
500 |
|
- |
Cl.4.1.5.2( The colour of the threads shall be asagreed to between the purchaser and the supplier. The dyed threads shall conform to the following requirements) |
- |
500 |
|
- |
4.1.6 Fabric Laces
Cl.4.1.6.1(The two ends of the lace shall
be provided with suitable metal or plastic tips. Black laces shall be free from sulphur dyes when tested in accordance with Annex B.) |
- |
500 |
|
- |
Cl.4.1.7.2
IS 3400 (Part 9) : 1978( The rubber components shall conform to Table 4 when tested.'
( Page 3, Table 4, Note 1) —
'However in case it is not possible then 4.2.5.3 of IS 13695:1993 shall be followed.
1)Relative density, Max) |
- |
500 |
|
- |
Cl.4.1.7.5 Thickness of components(Individual components of the boots shall comply with the thickness and material requirements prescribed
in Table 6.) |
- |
500 |
|
- |
Cl.4.3 Leg Height(The leg height of the boots for size 8 shall be 160 ± 2 mm with an increase or decrease of 4 mm of the nominal height for each bigger or smaller sizes respectively when measured at the inside from the back of the boot from insole to the top.) |
- |
500 |
|
- |
Cl.4.4.2( The canvas upper shall be lined with bleached drill cloth.) |
- |
500 |
|
- |
Cl.4.4.3( The upper shall be stitched on a lockstitch machine, with 30 to 40 stitches per decimetre by thread of variety No. 8 and variety No. 29 cotton sewing thread conforming to 4.1.5 using variety
No. 29 for taping and binding and variety No. 8 for remaining seams. ) |
- |
500 |
|
- |
Cl.4.4.5 ( The tongue shall be either half or full bellow depending on the requirement of the purchaser andshall be made from composite material prescribed for the upper in 4.1.1.) |
- |
500 |
|
- |
Cl.4.4.6( A minimum of seven aluminium, brass or steel eyelets having 10 mm
diameter and wall thickness 0.30 to 0.35 mm shall be fitted in each face.') |
- |
500 |
|
- |
Cl.4.4.7( The toe shall be reinforced with a toe puff cemented inside and outside with rubber toe cap. The heel piece (counter) or stiffener shall be set from the bottom of the lining and bound flat on the
top edge with white cloth
for binding of countertop edge with white clothfor binding of counter) |
- |
500 |
|
- |
Cl.4.4.8( A strengthening rubber arch piece shall be firmly pasted and stitched at the middle arch of the inside quarter. Another strengthening rubber piece,
circular in shape 35 ± 1 mm in diameter, may bepasted and stitched at the centre of the inside) |
- |
500 |
|
- |
Cl.4.4.10( A 25 mm Min wide and 2 mm Min thick
rubber golosh in serrated, diamond or any otherdesign, as agreed to between the purchaser and thesupplier, shall be fitted all round the sole edge of
the boot. The golosh shall not extend below the edge of the sole.) |
- |
500 |
|
- |
Cl.4.5.1(Cl.4.1.6.)( Each pair of boot shall be provided with a pair of braided fabric laces of the quality as prescribed
in 4.1.6.) |
- |
500 |
|
- |
Cl.4.5.2( In appearance, general workmanship, finish
and in all other respects, not defined in this
standard, the boot shall be similar to those of the
sample approved by the purchaser, if any.) |
- |
500 |
|
- |
Cl.4.1.7.4 Ageing(The boots shall be also aged at 70 ± 1°C for 168 h, on completion of which the test pieces taken from the soles and heels of the boots shall conform to the physical requirements prescribed in Table 5.
i) Tensile Length) |
- |
500 |
|
- |
Cl.4.1.7.4 Ageing(ii) Elongation at break) |
- |
500 |
|
- |
Cl.4.1.7.2
IS 3400 (Part 2) : 1980(2)Hardness, IRHD) |
- |
500 |
|
- |
4.1.6 Fabric Laces
Cl.4.1.6.1( The boots shall be provided with braided of cotton or man made or blended fabric laces 115 ± 5 cm in length, matching the colour of the upper. ) |
- |
500 |
|
- |
Cl.4.1.1 upper IS 1969(d) Picks/dm) |
- |
500 |
|
- |
Cl.4.4.5 ( Table 1.)(c) Ends/dm
) |
- |
500 |
|
- |
4.1.2 Lining Material(having 390 ± 10 ends/dm and ) |
- |
500 |
|
- |
Cl.4.1.7.2
IS 3400 (Part 4) : 1987
IS 3400 (Part 2) : 1980(Change in initial hardness after accelerated ageing
for 24 h at l00 ± 1°C) |
- |
500 |
|
- |
Cl.4.8 Adhesion Test(From the upper foxing portion where it is adhered to the canvas cut a strip of
8.0 ± 0.5 mm width along with the length of the sole at the waist portion and of
sufficient lengh to permit separation over a length of at least 75 mm. Carry out
the test on two test pieces (one from each odd) at the rate of traverse of 100 ± 10
mm per minute in accordance with IS 3400 (Part 5):1986 or the Static Dead
Load Method as given in Annex C.
The individual adhesion value noted/recorded shall not be less than 8 N (0.8 kgf)
for each of the test pieces ( see Note under 4.7 ).') |
- |
500 |
|
- |
Cl.4.4.9(From the upper of made up footwear representative sample of width 25 ± 0.5 mm
width strip is to be cut along the length of the boot of enough length so as to
make it convenient to allow a distance of minimum 30 mm between the jaws
of the tensile machine) |
- |
500 |
|
- |
Cl.4.1.7.2
IS 3400 (Part 1) : 1987(Tensile strength in MPa, Min) |
- |
500 |
|
- |
Cl.4.1.3 Binding Material
IS 1954:1990(Cotton tape NEWAR used as binding material shall conform to the requirements as mentioned in
Table 2, when tested in accordance with the methods referred to in col 4 of Table 2.
1)Width, mm. Min
) |
- |
500 |
|
- |
Cl.4.4.3(The top, side and front edges of the quarters and tongue shall be bound with cotton tape NEWAR of not less than 13 mm width using variety No. 29 thread.) |
- |
500 |
|
- |
Cl.4.1.7.3
IS 3400 (Part 10) : 1977(Compression set, in percent. Max) |
- |
500 |
|
- |
Cl.4.4.4( The back of the quarter shall be reinforced with a strip, not less than 25 mm wide,of either upper material or canvas. In case of composite upper material the edges of the strip
shall be bound by cotton tape ( NEWAR ). When canvas cloth is used the edges shall be folded and shall be stitched with two rows of stitching.) |
- |
500 |
|
- |
Cl.4.7 Consolidation Test(From the quarter, cut a strip of 25.0 ± 0. 5 mm width along the length of the boot
and of sufficient length to permit separation over a length of 75 mm. Carry out the test on two test pieces (one from each odd) at the rate of traverse of 100 ± 10mm per minute in accordance with IS 3400 (Part 5): 1986 or Static Dead Load
Method as given in Annex C. The individual adhesion value for consolidation
test shall not be less than 30 N (3.0 kgf) for each of the test pieces) |
- |
500 |
|
- |
Cl.4.1.7.2
IS 3400 (Part 1) : 1987(Elongation at break, in percent, Min) |
- |
500 |
|
- |
IS 1969:1985(Breaking load on 50 cm
test length. N, Min) |
- |
500 |
|
- |
4.1.6 Fabric Laces
Cl.4.1.6.1(The laces shall have a minimum
breaking load of 450 N, when tested between 18 cm grips, the rate of traverse of power actuated grip being 30 cm/min.) |
- |
500 |
|
- |
Cl.4.1.7 Rubber Components
Cl.4.1.7.1( the soles and heels shall conform to Type 2 of IS 5676:1995.) |
- |
500 |
|
- |
Cl.4.1.7.2
IS 3400 (Part 16) : 1974(iii)Flexing resistance, number of cycles
b)Cut growth at the end of 150 000 cycles,
Percent, Max) |
- |
500 |
|
- |
Cl.4.4.5 ( Table 1.)(b) Weft
) |
- |
500 |
|
- |
Cl.4.4.5 ( Table 1.)( in case of half bellow. Thefull bellow tongue shall be made out of canvas cloth
as prescribed in Sl No. (i) of Table 1.
Breaking load in N, Min
a) Warp
) |
- |
500 |
|
- |
Cl.4.1.1 upper IS 1969(b)Weft) |
- |
500 |
|
- |
Cl.4.1.1 upper IS 1969(Breaking load in
N.Min (5 × 20 cm grip): a) Wrap) |
- |
500 |
|
- |
Cl.4.1.7.2
IS 3400 (Part 16) : 1974(iii)Flexing resistance, number of cycles
a)Initial crack, Min) |
- |
500 |
|
- |
4.1.2 Lining Material( 200 N Minin weft way (when tested in accordance with IS 1969 : 1985) ) |
- |
500 |
|
- |
4.1.2 Lining Material(For covering of the insole, cotton drill conforming to Table 1, Sl No. (ii) shall be used. For detachable insole, bleached cotton twill of breaking load 390 N
Min in warp way and) |
- |
500 |
|
- |
Cl.4.1.1 upper(The upper shall consist of Rip Stop Fabric of cotton or manmade or its blend
being the over layer and cotton drill as an inner layer and shall conform to the
requirements given at Sl No. (i) of Table
1. Sr.no 1.Overlayer Construction
) |
- |
500 |
|
- |
4.1.1.1 Colour fastness(The dyed fabrics prescribed in 4.1.1 shall be fast to daylight and mechanical washing. Fastness to daylight
shall be of rating 4 or better, when tested in accordance with IS 686 : 1985 or IS 2454 : 1985.) |
- |
500 |
|
- |
Cl.4.1.1.2( Fastness to mechanical washing (mild) shall be of rating 4 or better, when tested in accordance with IS 764 : 1979) |
- |
500 |
|
- |
Cl.4.1.3.3( Black tapes shall be free from sulphur dyes when tested in accordance with Annex B.) |
- |
500 |
|
- |
Cl.4.1.4 Reinforcement Material(The back seam, joining two quarters at the back of the heel shall be reinforced with a not less than 25 mm wide tape made out of material conforming
to Sl No. (i) of Table 1) |
- |
500 |
|
- |
Cl.4.1.5 Thread for Upper Closing
Cl.4.1.5.1 (IS 1670:1991)(Sewing thread cotton, man made or blended shall be used for stitching
of upper. For cotton variety thread shall conform to variety No. 28 of IS 1720.
Polyester variety thread shall conform to variety No. 9 of IS 9543.
Any other blend of thread would have breaking load not less than above referred
requirements.
Sewing thread cotton, manmade or blended shall be used for binding of upper.
For cotton variety thread shall conform to variety No. 32 of IS 1720. Polyester
variety thread shall conform to variety No. 5 of IS 9543.
Any other blend of thread would have breaking load not less than above referred
requirement of specification.') |
- |
500 |
|
- |
Cl.4.1.5.2( The colour of the threads shall be asagreed to between the purchaser and the supplier. The dyed threads shall conform to the following requirements) |
- |
500 |
|
- |
4.1.6 Fabric Laces
Cl.4.1.6.1(The two ends of the lace shall
be provided with suitable metal or plastic tips. Black laces shall be free from sulphur dyes when tested in accordance with Annex B.) |
- |
500 |
|
- |
Cl.4.1.7.2
IS 3400 (Part 9) : 1978( The rubber components shall conform to Table 4 when tested.'
( Page 3, Table 4, Note 1) —
'However in case it is not possible then 4.2.5.3 of IS 13695:1993 shall be followed.
1)Relative density, Max) |
- |
500 |
|
- |
Cl.4.1.7.5 Thickness of components(Individual components of the boots shall comply with the thickness and material requirements prescribed
in Table 6.) |
- |
500 |
|
- |
Cl.4.3 Leg Height(The leg height of the boots for size 8 shall be 160 ± 2 mm with an increase or decrease of 4 mm of the nominal height for each bigger or smaller sizes respectively when measured at the inside from the back of the boot from insole to the top.) |
- |
500 |
|
- |
Cl.4.4.2( The canvas upper shall be lined with bleached drill cloth.) |
- |
500 |
|
- |
Cl.4.4.3( The upper shall be stitched on a lockstitch machine, with 30 to 40 stitches per decimetre by thread of variety No. 8 and variety No. 29 cotton sewing thread conforming to 4.1.5 using variety
No. 29 for taping and binding and variety No. 8 for remaining seams. ) |
- |
500 |
|
- |
Cl.4.4.5 ( The tongue shall be either half or full bellow depending on the requirement of the purchaser andshall be made from composite material prescribed for the upper in 4.1.1.) |
- |
500 |
|
- |
Cl.4.4.6( A minimum of seven aluminium, brass or steel eyelets having 10 mm
diameter and wall thickness 0.30 to 0.35 mm shall be fitted in each face.') |
- |
500 |
|
- |
Cl.4.4.7( The toe shall be reinforced with a toe puff cemented inside and outside with rubber toe cap. The heel piece (counter) or stiffener shall be set from the bottom of the lining and bound flat on the
top edge with white cloth
for binding of countertop edge with white clothfor binding of counter) |
- |
500 |
|
- |
Cl.4.4.8( A strengthening rubber arch piece shall be firmly pasted and stitched at the middle arch of the inside quarter. Another strengthening rubber piece,
circular in shape 35 ± 1 mm in diameter, may bepasted and stitched at the centre of the inside) |
- |
500 |
|
- |
Cl.4.4.10( A 25 mm Min wide and 2 mm Min thick
rubber golosh in serrated, diamond or any otherdesign, as agreed to between the purchaser and thesupplier, shall be fitted all round the sole edge of
the boot. The golosh shall not extend below the edge of the sole.) |
- |
500 |
|
- |
Cl.4.5.1(Cl.4.1.6.)( Each pair of boot shall be provided with a pair of braided fabric laces of the quality as prescribed
in 4.1.6.) |
- |
500 |
|
- |
Cl.4.5.2( In appearance, general workmanship, finish
and in all other respects, not defined in this
standard, the boot shall be similar to those of the
sample approved by the purchaser, if any.) |
- |
500 |
|
- |
Cl.4.6 Mass(The mass of finished boots, rubber sole, of size 8 shall not exceed 1130 g per pair, and the mass shall increase or decrease by 75 g per pair for each bigger or smaller size respectively.) |
- |
500 |
|
- |
Cl.4.9 Composite Breaking Strength Test(
From the upper of made up footwear representative sample of width 25 ± 0.5 mm
width strip is to be cut along the length of the boot of enough length so as to
make it convenient to allow a distance of minimum 30 mm between the jaws
of the tensile machine.Rate of traverse of pulling jaw shall be 100 ± 5 mm per minute.
Two such test pieces will be required to be obtained from the made up footwear
and will be subjected to test to break each test piece.
Mean value of each set of test pieces comprising of length wise and height wise
test pieces will be 1 000 N/25 mm width minimum.') |
- |
500 |
|
- |
|
Complete
|
|
19 Jul, 2024 |
- |