1 |
IS 15844 : Part 1 (2023) |
SPORTS FOOTWEAR PART -1 GENERAL PURPOSEFirst Revision |
- |
12000 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
Cl No.4.1(Sampling and Conditioning) |
- |
500 |
|
- |
Cl No.4.2(Construction) |
- |
300 |
|
- |
Cl No.4.3(Whole Footwear) |
- |
300 |
|
- |
4.3.1(Insole) |
- |
300 |
|
- |
4.3.2(Toe spring height) |
- |
500 |
|
- |
4.3.3(Upper to Mid Sole/Out Sole Bond Performance) |
- |
500 |
|
- |
4.3.4("Upper to Composite Sole Bond Performance
(Applicable Only When the Sole is Composite)") |
- |
500 |
|
- |
4.3.5(Out Sole to Mid Sole (Multilayer) Bond Performance) |
- |
500 |
|
- |
4.3.6(Energy Absorption at Seat Region) |
- |
800 |
|
- |
4.3.7(Complete Shoe Flexing) |
- |
640 |
|
- |
4.3.9(Slip Resistance) |
- |
1000 |
|
- |
Cl No.4.4 , Table No. 2 , i) , a)(Flexing resistance, Dry condition) |
- |
600 |
|
- |
Cl No.4.4 , Table No. 2 , ii)(Tear strength (average force), Min, N) |
- |
450 |
|
- |
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) ") |
- |
600 |
|
- |
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)") |
- |
600 |
|
- |
Cl No.4.4 , Table No. 2 , iv) , a)(Water vapour permeability, mg/cm2h, Min) |
- |
800 |
|
- |
Cl No.4.4 , Table No. 2 , iv) , b)(Water vapour coefficient, mg/cm2 , Min) |
- |
800 |
|
- |
Cl No.4.4 , Table No. 2 , v)(Stitch tear strength (double hole), N/mm, Min) |
- |
600 |
|
- |
Cl No.4.4 , Table No. 2 , i)(Breaking strength, N/mm, Min) |
- |
450 |
|
- |
Cl No.4.4 , Table No. 2 , ii)(Elongation at break, percent Min) |
- |
450 |
|
- |
Cl No.4.4 , Table No. 2 , iii)(Tear strength, N, Min For Fabric: For all other materials) |
- |
450 |
|
- |
Cl No.4.4 , Table No. 2 , iv) , a)(Flexing resistance, Dry condition) |
- |
600 |
|
- |
Cl No.4.4 , Table No. 2 , iv) , b)(Flexing resistance, ,Wet condition) |
- |
600 |
|
- |
Cl No.4.4 , Table No. 2 , v) , a)(Water vapour permeability, mg/cm2h, Min) |
- |
800 |
|
- |
Cl No.4.4 , Table No. 2 , v) , b)("Water vapour coefficient, mg/cm2 , Min
") |
- |
800 |
|
- |
Cl No.4.4 , Table No. 2 , vi)(Hydrolysis resistance) |
- |
2000 |
|
- |
Cl No.4.4 , Table No. 2 , vii)(Bursting Strength, kg/cm2 , Min) |
- |
500 |
|
- |
Cl No.4.5 , Table No. 3 , i)(Tear strength, N, Min) |
- |
450 |
|
- |
Cl No.4.5 , Table No. 3 , ii)(Abrasion resistance, cycles) |
- |
600 |
|
- |
Cl No.4.5 , Table No. 3 , iii)("Colour fastness to rubbing (crocking), Grey scale
rate with 10 rubs on dry or wet, Min") |
- |
600 |
|
- |
Cl No.4.5 , Table No. 3 , iv)("Colour fastness to perspiration (contact method)
Grey scale rate, Min") |
- |
600 |
|
- |
Cl No.4.5 , Table No. 3 , v) , a)(Water vapour permeability, mg/cm2h, Min) |
- |
800 |
|
- |
Cl No.4.5 , Table No. 3 , v) , b)("Water vapour coefficient, mg/cm2 , Min
") |
- |
800 |
|
- |
Cl No.4.6 , Table No. 4 , i)(Thickness, mm, Min) |
- |
200 |
|
- |
Cl No.4.6 , Table No. 4 , ii)(Flexing index, Min) |
- |
800 |
|
- |
Cl No.4.6 , Table No. 4 , iii)(Abrasion resistance, at 400 cycles) |
- |
800 |
|
- |
Cl No.4.6 , Table No. 4 , iv) , a)(Water Absorption, mg/cm2 , Min) |
- |
800 |
|
- |
Cl No.4.6 , Table No. 4 , iv) , b)(Water Desorption, percent, Min) |
- |
800 |
|
- |
Cl No.4.7, Table No. 5 , i)(Thickness, mm, Min) |
- |
200 |
|
- |
Cl No.4.7, Table No. 5 , ii)(Abrasion resistance, cycles) |
- |
600 |
|
- |
Cl No.4.7, Table No. 5 , iii) , a)(Water Absorption, mg/cm2 , Min) |
- |
800 |
|
- |
Cl No.4.7, Table No. 5 , iii) , b)(Water Desorption, percent, Min) |
- |
800 |
|
- |
Cl No.4.8 , Table No. 6 , i)(Abrasion resistance (Volume loss), mm3 , Max) |
- |
600 |
|
- |
Cl No.4.8 , Table No. 6 , ii)("Flexing resistance Belt Method at 90 diameter Mandrel
or
Bennewart method, cut growth, Max") |
- |
600 |
|
- |
Cl No.4.8 , Table No. 6 , iii)("Hydrolysis resistance, cut growth after 150 000
flexes, in mm, Max") |
- |
2000 |
|
- |
Cl No.4.9 , Table No. 7 , i)(Compression set, percent, Max) |
- |
500 |
|
- |
Cl No.4.9 , Table No. 7 , ii)(Split tear strength, kg/25 mm, Min) |
- |
450 |
|
- |
Cl No.4.9 , Table No. 7 , iii)(Heat shrinkage, percent, Max) |
- |
800 |
|
- |
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.4.10 , Table No. 8 , iv) , b)(Area shape retention after 10th collapse, dry, percent, Min) |
- |
800 |
|
- |
Cl No.4.11 , Table No. 9 , i)(Peel strength, N/mm, Min) |
- |
500 |
|
- |
Cl No.4.11 , Table No. 9 , ii)(Shear strength, kPa , Min) |
- |
600 |
|
- |
Cl No.4.12 , Table No. 10 , i)(Limit of useful extension, percent, Min) |
- |
600 |
|
- |
Cl No.4.13 , Table No. 11 , i)(Breaking strength of lace, N, Min) |
- |
500 |
|
- |
Cl No.4.13 , Table No. 11 , ii)(Lace tag strength, N, Min) |
- |
500 |
|
- |
Cl No.4.13 , Table No. 11 , iii)(Lace to lace abrasion,) |
- |
800 |
|
- |
Cl No.4.13 , Table No. 11 , iv)("Colour fastness to water
Gray Scale Rate, Min Rating") |
- |
600 |
|
- |
Cl No.4.13 , Table No. 11 , v)(Strength of Buckle/Ski hook, N, Min) |
- |
600 |
|
- |
Cl No.4.13 , Table No. 11 , vi)(Corrosion resistance) |
- |
600 |
|
- |
Cl No . 5(MARKING AND PACKING) |
- |
1000 |
|
- |
Cl No . 4.14, Table no. 1 of IS 17011(x)(pH) |
- |
400 |
|
- |
Clause 4.2 - 4.2.1(Construction) |
- |
200 |
|
- |
Clause 4.2 - 4.2.2(Construction) |
- |
200 |
|
- |
Clause 4.3 - 4.3.1(Whole Footwear) |
- |
200 |
|
- |
Clause 4.3 - 4.3.2(Whole Footwear) |
- |
200 |
|
- |
Clause 4.3 - 4.3.3(Upper to Mid Sole/Out Sole Bond Performance) |
- |
500 |
|
- |
Clause 4.3 - 4.3.4(Upper to Composite Sole Bond Performance(Applicable Only When the Sole is Composite)) |
- |
500 |
|
- |
Clause 4.3 - 4.3.5(Out Sole to Mid Sole (Multilayer) Bond) |
- |
500 |
|
- |
Clause 4.3 - 4.3.7(Complete Shoe Flexing) |
- |
640 |
|
- |
Clause 4.4, Table 1 ii)(Tear strength) |
- |
450 |
|
- |
Clause 4.4, Table 1 iv)-a(Water Vapour Permeability) |
- |
800 |
|
- |
Clause 4.5, Table 3 v)-b(Water Vapour Coeffecient) |
- |
800 |
|
- |
Clause 4.4, Table 1 v)(Stitch Tear Strength(Double Hole)) |
- |
600 |
|
- |
Clause 4.4, Table 2 i)(Breaking Strength) |
- |
450 |
|
- |
Clause 4.4, Table 2 ii)(Elongation at break) |
- |
450 |
|
- |
Clause 4.4, Table 2 iii)(Tear strength) |
- |
450 |
|
- |
Clause 4.4, Table 2 v)-a(Water Vapour Permeability) |
- |
800 |
|
- |
Clause 4.4, Table 2 v)-b(Water Vapour Coeffecient) |
- |
800 |
|
- |
Clause 4.5, Table 3 i)(Tear strength) |
- |
450 |
|
- |
Clause 4.5, Table 3 ii)(Abrasion Resistance) |
- |
600 |
|
- |
Clause 4.5, Table 3 v)-a(Water Vapour Permeability) |
- |
800 |
|
- |
Clause 4.6, Table 4 i)(Thickness) |
- |
200 |
|
- |
Clause 4.6, Table 4 ii)(Abrasion Resistance) |
- |
600 |
|
- |
Clause 4.6, Table 4 iv)-a(Water Absorption) |
- |
800 |
|
- |
Clause 4.6, Table 4 iv)-b(Water Desorption) |
- |
800 |
|
- |
Clause 4.8, Table 6 i)(Abrasion Resistance) |
- |
600 |
|
- |
Clause 4.8, Table 6 ii)(Flexing Resistance) |
- |
600 |
|
- |
Clause 4.8, Table 6 iii)(Hydrolysis Resistance) |
- |
2000 |
|
- |
Clause 4.9, Table 7 ii)(Split Tear strength) |
- |
450 |
|
- |
Clause 4.9, Table 7 iii)(Heat shrinkage) |
- |
800 |
|
- |
Clause 4.4, Table 1 iv)-b(Water Vapour Coeffecient) |
- |
800 |
|
- |
Clause 4.7, Table 5 i)(Thickness) |
- |
200 |
|
- |
Clause 4.7, Table 5 iii)-a(Water Absorption) |
- |
800 |
|
- |
Cl No.4.4 , Table No. 2 , i) , b)(Flexing resistance, Wet condition) |
- |
600 |
|
- |
Clause 4.7, Table 5 ii)(Abrasion Resistance) |
- |
600 |
|
- |
Clause 4.7, Table 5 iii)-b(Water Desorption) |
- |
800 |
|
- |
Cl-5, Table -1 S. No-(i) (Amendment No-1)(Insole) |
- |
200 |
|
- |
Cl-5, Table -1 S. No- (ii) (Amendment No-1)(Toe spring height) |
- |
200 |
|
- |
Cl-5, Table -1 S. No- (iii) (Amendment No-1)("Bond performance
(a) Upper to sole/mid sole/composite sole
(b) Interlayer bond strength") |
- |
500 |
|
- |
Cl-5, Table -1 S. No- (iv) (Amendment No-1)(Energy absorption at seat region) |
- |
800 |
|
- |
Cl-5, Table -1 S. No- (v) (Amendment No-1)(Complete shoe flexing) |
- |
640 |
|
- |
Cl-5, Table -1 S. No- (vii) (Amendment No-1)(Slip resistance, coefficient of friction (COF),) |
- |
1500 |
|
- |
Cl-5, Table -1 S. No- (viii) (Amendment No-1)("Abrasion resistance
a-Cellular sole
b-Solid sole") |
- |
600 |
|
- |
Cl-5, Table -1 S. No- (xi) (Amendment No-1)(Hydrolysis resistance) |
- |
2500 |
|
- |
Cl-6, Table -2 S. No- (i) (Amendment No-1)(Tear strength) |
- |
450 |
|
- |
Cl-6, Table -2 S. No- (ii) (Amendment No-1)("Colour fastness rubbing
a-Dry: (rubbing)
b-Wet: (rubbing)") |
- |
500 |
|
- |
Cl-6, Table -2 S. No- (iii), a) (Amendment No-1)(Water vapour permeability) |
- |
800 |
|
- |
Cl-6, Table -2 S. No- (iii), b) (Amendment No-1)(Water vapour coefficient) |
- |
800 |
|
- |
Cl-6, Table -2 S. No- (iv),(Amendment No-1)(Stitch tear strength) |
- |
450 |
|
- |
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") |
- |
450 |
|
- |
Cl-6, Table -3 S. No- (iii),(Amendment No-1)("Tear strength, N, Min
a) For fabric
b) For all other materials") |
- |
450 |
|
- |
Cl-6, Table -3 S. No- (iv),(Amendment No-1)("Flexing resistance
a- Dry condition
b-Wet condition") |
- |
600 |
|
- |
Cl-6, Table -3 S. No- (v), a (Amendment No-1)(Water vapour permeability) |
- |
800 |
|
- |
Cl-6, Table -3 S. No- (v), b (Amendment No-1)(Water vapour coefficient) |
- |
800 |
|
- |
Cl-6, Table -3 S. No- (vi), (Amendment No-1)(Hydrolysis resistance) |
- |
2500 |
|
- |
Cl-6, Table -3 S. No- (vii), (Amendment No-1)(Bursting strength) |
- |
800 |
|
- |
Cl-6, Table -4 S. No- (ii),(Amendment No-1)("Abrasion resistance, cycles
a- Dry condition
b-Wet condition") |
- |
600 |
|
- |
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 -4 S. No- (iv),(Amendment No-1)(Colour fastness to perspiration) |
- |
800 |
|
- |
Cl-6, Table -4 S. No- (v), a (Amendment No-1)(Water vapour permeability) |
- |
800 |
|
- |
Cl-6, Table -4 S. No- (v), b (Amendment No-1)(Water vapour coefficient) |
- |
800 |
|
- |
Cl-6, Table -5 S. No- (i), (Amendment No-1)(Thickness, mm, Min) |
- |
200 |
|
- |
Cl-6, Table -5 S. No-(ii), (Amendment No-1)(Flexing index, Min) |
- |
640 |
|
- |
Cl-6, Table -5 S. No-(iii), (Amendment No-1)(Abrasion resistance,) |
- |
600 |
|
- |
Cl-6, Table -5 S. No- (iv), a (Amendment No-1)(Water absorption) |
- |
800 |
|
- |
Cl-6, Table -5 S. No- (iv), b (Amendment No-1)(Water desorption, percent) |
- |
800 |
|
- |
Cl-6, Table -6 S. No- (i), (Amendment No-1)(Thickness, mm, Min) |
- |
200 |
|
- |
Cl-6, Table -6 S. No- (ii), (Amendment No-1)("Abrasion resistance, cycles
a- Dry condition
b-Wet condition") |
- |
600 |
|
- |
Cl-6, Table -6 S. No- (iii),a (Amendment No-1)(Water absorption) |
- |
800 |
|
- |
Cl-6, Table -6 S. No- (iv), b (Amendment No-1)(Water desorption, percent) |
- |
800 |
|
- |
Cl-6, Table -7 S. No- (i), (Amendment No-1)(Flexing resistance (Belt method or Bennewart method)) |
- |
600 |
|
- |
Cl-6, Table -7 S. No- (ii), (Amendment No-1)(Hydrolysis resistance, cut growth after flexes) |
- |
2500 |
|
- |
Cl-6, Table -8 S. No- (i), (Amendment No-1)("Compression set, percent, Max
a) For EVA
b) For all other materials") |
- |
500 |
|
- |
Cl-6, Table -8 S. No- (ii), (Amendment No-1)(Split tear strength) |
- |
450 |
|
- |
Cl-6, Table -8 S. No- (iii), (Amendment No-1)(Heat shrinkage) |
- |
800 |
|
- |
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 -9 S. No- (iv), b (Amendment No-1)(Area shape retention after 10th collapse) |
- |
800 |
|
- |
Cl-6, Table -10 S. No- (i), (Amendment No-1)("Peel strength
a) Initial
b) After 5 000 wear cycles") |
- |
500 |
|
- |
Cl-6, Table -10 S. No- (ii), (Amendment No-1)("Shear strength
a) Initial
b) After 5 000 wear cycles") |
- |
500 |
|
- |
Cl-6, Table -11 S. No- (i), (Amendment No-1)(Limit of useful extension) |
- |
800 |
|
- |
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 (v), (Amendment No-1)(Strength of buckle/ski hook) |
- |
500 |
|
- |
Cl-6, Table -12 S. No- (vi), (Amendment No-1)(Corrosion resistance) |
- |
600 |
|
- |
Cl-6, Table -4 S. No- (i),(Amendment No-1)(Tear strength, N, Min) |
- |
450 |
|
- |
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- (iv), (Amendment No-1)(Colour fastness to water (for lace) (contact method)) |
- |
500 |
|
- |
|
02 Sep, 2027 |
- - |
2 |
IS 6721 (2023) |
SANDAL AND SLIPPERS SPECIFICATION First revision |
- |
12000 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
Cl. No.4(SHAPE AND DESIGN) |
- |
200 |
|
- |
Cl. No.5("SIZE AND FITTINGS
") |
- |
200 |
|
- |
Cl. No.6("CONSTRUCTION
") |
- |
200 |
|
- |
Cl. No.7(MATERIAL) |
- |
200 |
|
- |
Cl. No.8.1, Table no. 1(i),a("Tear strength, (other
than moulded upper material)
") |
- |
450 |
|
- |
Cl. No.8.1, Table no. 1(i),b("For all moulded upper material
") |
- |
450 |
|
- |
Cl. No.8.1, Table no. 1(ii)(Flexing endurance) |
- |
600 |
|
- |
Cl. No.8.2,Table no. 2(i)(Tear strength) |
- |
450 |
|
- |
Cl. No.8.2,Table no. 2(ii),a("Abrasion resistance-
At dry condition") |
- |
600 |
|
- |
Cl. No.8.2,Table no. 2(ii),b("Abrasion resistance-
At wet condition") |
- |
600 |
|
- |
Cl. No.8.3,Table no. 3(i)(Tear strength) |
- |
450 |
|
- |
Cl. No.8.3,Table no. 3(ii),a("Abrasion resistance-
At dry condition") |
- |
600 |
|
- |
Cl. No.8.3,Table no. 3(ii),b("Abrasion resistance-
At wet condition") |
- |
600 |
|
- |
Cl. No.8.4,Table no. 4(i)(Grain crack index) |
- |
500 |
|
- |
Cl. No.8.4,Table no. 4(ii)(Density) |
- |
200 |
|
- |
Cl. No.8.4,Table no. 4(iii)(Abrasion resistance) |
- |
600 |
|
- |
Cl. No.8.4,Table no. 5(i)(Density) |
- |
200 |
|
- |
Cl. No.8.4,Table no. 5(ii)("Abrasion resistance, Volume
loss ") |
- |
600 |
|
- |
Cl. No.8.4, Table no. 5(iii)("Flexing resistance, At 30 000
flexes") |
- |
600 |
|
- |
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)") |
- |
500 |
|
- |
Cl. No.8.5, Table no. 6(ii)("Toe post attachment strength, N, Min
(Applicable if toe post is present)") |
- |
500 |
|
- |
Cl. No.8.5, Table no. 6(iii)("Toe ring attachment strength, Min
(Applicable if toe ring is not integral part of upper") |
- |
500 |
|
- |
Cl. No.8.5, Table no. 6(iv)(Strap to outsole strength) |
- |
500 |
|
- |
Cl. No.8.5, Table no. 6(v)("Attachment strength of back strap and
Buckle/D-ring ") |
- |
500 |
|
- |
Cl. No.8.5, Table no. 6(vi)("Attachment strength of elastic, limit of useful
extension, percent") |
- |
500 |
|
- |
Cl. No.8.5, Table no. 6(vii)("Attachment strength of back strap and velcro, N,
Min (If, present)") |
- |
500 |
|
- |
Cl. No.8.5, Table no. 6(viii)("Hydrolysis resistance,
Cut growth after 150 000 flexes, mm, Max
(Applicable for PU sole only)") |
- |
2000 |
|
- |
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)") |
- |
500 |
|
- |
Cl. No.8.5, Table no. 6(x)("Inter layer bond strength, N/mm,
(Applicable for multi-layer sole)") |
- |
500 |
|
- |
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)") |
- |
1200 |
|
- |
Cl. No.9.(MARKING AND PACKING) |
- |
500 |
|
- |
Cl. No.8.6.1,Table 1 of IS 17011(iv)(Chromium (VI)) |
- |
600 |
|
- |
Cl. No.8.6.1,Table 1 of IS 17011(x)(pH) |
- |
400 |
|
- |
Cl.8 Table-1 S.No 1, (i) (Amendment No-1)(Bond strength , N/mm, Min) |
- |
500 |
|
- |
Cl.8 Table-1 S.No 1, (ii) (Amendment No-1)(Toe post attachment strength) |
- |
500 |
|
- |
Cl.8 Table-1 S.No 1, (iii) (Amendment No-1)(Toe ring attachment strength) |
- |
500 |
|
- |
Cl.8 Table-1 S.No 1, (iv) (Amendment No-1)(Strap to outsole strength N, Min) |
- |
500 |
|
- |
Cl.8 Table-1 S.No 1, (v) (Amendment No-1)(Attachment strength of back strap and buckle/D-ring N, Min) |
- |
500 |
|
- |
Cl.8 Table-1 S.No 1, (vi) (Amendment No-1)(Limit of useful extension, percent, Min) |
- |
500 |
|
- |
Cl.8 Table-1 S.No 1, (vii) (Amendment No-1)(Attachment strength of back strap and velcro, N, Mi) |
- |
500 |
|
- |
Cl.8 Table-1 S.No 1, (viii) (Amendment No-1)(Hydrolysis resistance) |
- |
2500 |
|
- |
Cl.8 Table-1 S.No 1, (ix) (Amendment No-1)(Heel pull off strength) |
- |
500 |
|
- |
Cl.8 Table-1 S.No 1, (x) (Amendment No-1)(Inter layer bond strength) |
- |
500 |
|
- |
Cl.8 Table-1 S.No 1, (xi) (Amendment No-1)(Slip resistance, coefficient of friction (COF)3) |
- |
1500 |
|
- |
Cl.8 Table-1 S.No 1, (xii) (Amendment No-1)(Abrasion resistance, (volume loss) mm3 , Max) |
- |
600 |
|
- |
Cl.8 Table-1 S.No 1, (xiii) (Amendment No-1)("Flexing resistance (Belt method or
Bennewart flex method)") |
- |
600 |
|
- |
Cl.9 Table-2 S.No 1, (i) a (Amendment No-1)(Tear strength for other than moulded upper material) |
- |
450 |
|
- |
Cl.9 Table-2 S.No 1, (i) b (Amendment No-1)(Tear strength For all moulded upper material) |
- |
450 |
|
- |
Cl.9 Table-2 S.No 1, (ii) (Amendment No-1)(Flexing endurance) |
- |
600 |
|
- |
Cl.9 Table-3 S.No 1, (i) (Amendment No-1)(Tear strength, N, Min) |
- |
450 |
|
- |
Cl.9 Table-3 S.No 1, (ii) (Amendment No-1)("Abrasion resistance
(a) dry condition
(b) wet condition") |
- |
600 |
|
- |
Cl.9 Table-4 S.No 1, (i) (Amendment No-1)(Tear strength, N, Min) |
- |
450 |
|
- |
Cl.9 Table-4 S.No 1, (ii) (Amendment No-1)("Abrasion resistance
(a) dry condition
(b) wet condition") |
- |
600 |
|
- |
Cl.9 Table-5 S.No 1, (i) (Amendment No-1)(Grain crack index) |
- |
600 |
|
- |
Cl.9 Table-5 S.No 1, (ii) (Amendment No-1)(Density, g/cm3 , Min) |
- |
200 |
|
- |
Cl.9 Table-5 S.No 1, (iii) (Amendment No-1)(Abrasion resistance, mm/kcs) |
- |
600 |
|
- |
Cl.9 Table-6 S.No 1, (i) (Amendment No-1)("Density, g/cm3 , Min
(a)-Cellular, (b) Solid
") |
- |
200 |
|
- |
Cl-10 (Amendment No-1)(Marking) |
- |
200 |
|
- |
Cl-5 ((Amendment No-1)(Category And Type) |
- |
200 |
|
- |
|
02 Sep, 2027 |
- - |
3 |
IS 10702 (2023) |
Hawai Chappal-Specification |
- |
12000 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
4.1(Material) |
- |
200 |
|
- |
4.2(Length) |
- |
200 |
|
- |
4.3(Thickness) |
- |
200 |
|
- |
4.4 , Table No. 1 , i)(Density) |
- |
200 |
|
- |
4.4 , Table No. 1 , ii)(2Compression set at constant stress) |
- |
500 |
|
- |
4.4 , Table No. 1 , iii)(3Split tear strength) |
- |
450 |
|
- |
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") |
- |
600 |
|
- |
4.4 , Table No. 1 , v)(5Abrasion resistance at applied force) |
- |
600 |
|
- |
4.4 , Table No. 1 , vi)(Flexing resistance: Maximum cut growth at 50 000 flexes) |
- |
600 |
|
- |
4.4 , Table No. 1 , vii)(7 Hydrolysis resistance, Maximum cut growth at 50 000 flexes) |
- |
2000 |
|
- |
4.4 , Table No . 2 , i)(Density , Solid strap, Cellular strap) |
- |
200 |
|
- |
4.4 , Table No . 2 , ii)("Breaking strength , Strap to strap and
Toe portion to strap , Elongation at break") |
- |
450 |
|
- |
4.4 , Table No . 2 , iii)(Minimum cross section of the stud) |
- |
500 |
|
- |
4.4 , Table No . 2 , iv)(Stud bolt) |
- |
200 |
|
- |
4.4 , Table No . 3 , i)(Toe post attachment strength) |
- |
500 |
|
- |
4.4 , Table No . 3 , ii)(Attachment strength of rear strap) |
- |
500 |
|
- |
4.4 , Table No . 3 , iii)(Inter layer bond strength) |
- |
500 |
|
- |
6(MARKING AND PACKING) |
- |
500 |
|
- |
Cl. No.5.1,Table no.1 of IS 17011(iv)(Chromium (VI)) |
- |
600 |
|
- |
Cl. No.5.1,Table no.1 of IS 17011(x)(pH) |
- |
400 |
|
- |
Clause 4.1 - 4.1.1(Bottom Material) |
- |
200 |
|
- |
Clause 4.1 - 4.1.2(Strap Material) |
- |
200 |
|
- |
Clause 4.1 - 4.1.4(Material) |
- |
200 |
|
- |
Clause 4.2(Material) |
- |
200 |
|
- |
Clause 4.3 - 4.3.1(Thickness) |
- |
200 |
|
- |
Clause 4.3 - 4.3.2(Thickness) |
- |
200 |
|
- |
Clause 4.4 Table 1 -i)(Density, g/cm3, Min) |
- |
200 |
|
- |
Clause 4.4 Table 2 -i) - b(Density, g/cm3 Cellular strap) |
- |
200 |
|
- |
Clause 4.4 Table 1 -iii)(Split tear strength, kg, Min) |
- |
450 |
|
- |
Clause 4.4 Table 1 -iv) - a("Shrinkage at 50 ºC ± 1 ºC for 24 h for polymeric material, percent,
Max") |
- |
600 |
|
- |
Clause 4.4 Table 1 -iv) - b(Shrinkage at 100 ºC ± 1 ºC for 1 h for rubber, percent, Max) |
- |
600 |
|
- |
Clause 4.4 Table 1 -v)(Abrasion resistance at applied force 5 N) |
- |
600 |
|
- |
Clause 4.4 Table 2 -i) - a("Density, g/cm3
Solid strap
") |
- |
200 |
|
- |
Clause 4.4 Table 2 -ii) - a - 1("Breaking strength, kgf, Min
Strap to strap(Solid Strap)") |
- |
450 |
|
- |
Clause 4.4 Table 2 -ii) - a - 2("Breaking strength, kgf, Min
Strap to strap(Cellular Strap)") |
- |
450 |
|
- |
Clause 4.4 Table 2 -ii) - a - 3("Breaking strength, kgf, Min
Toe portion to strap(Solid Strap)") |
- |
450 |
|
- |
Clause 4.4 Table 2 -ii) - a - 4("Breaking strength, kgf, Min
Toe portion to strap(Cellular Strap)") |
- |
450 |
|
- |
Clause 4.4 Table 2 -ii) - b - 1("Elongation at break, percent
(Applicable to strap to strap
(V shape) Solid Strap") |
- |
450 |
|
- |
Clause 4.4 Table 2 -ii) - b - 2("Elongation at break, percent
(Applicable to strap to strap
(V shape) Cellular Strap") |
- |
450 |
|
- |
Clause 4.4 Table 2 -iii) - a("Minimum cross section of the
stud, mm,
Size 1 to 13 (Adult)") |
- |
200 |
|
- |
Clause 4.4 Table 2 -iii) - b("Minimum cross section of the
stud, mm,
Size 3 to 13 (Children)") |
- |
200 |
|
- |
Clause 4.4 Table 2 -iv) - a("Stud bolt, mm
Diameter/edge to edge length") |
- |
200 |
|
- |
Clause 4.4 Table 2 -iv) - b("Stud bolt, mm
Thickness") |
- |
200 |
|
- |
Clause 4.4 Table 3 -i)("Toe post attachment strength, N,
Min") |
- |
450 |
|
- |
Clause 4.4 Table 3 -iii)("Inter layer bond strength, N/mm,
Min") |
- |
500 |
|
- |
Clause 4.1 - 4.1.3(Material) |
- |
200 |
|
- |
Clause 4.4 Table 3 -ii)("Attachment strength of rear strap,
N, Min") |
- |
450 |
|
- |
Cl-4 ((Amendment No-1)(Category And Type) |
- |
200 |
|
- |
Cl-4.4, Table -1 S. No-1 (i) (Amendment No-1)(Compression set at constant stress) |
- |
500 |
|
- |
Cl-4.4, Table -1 S. No-1 (ii) (Amendment No-1)(Split tear strength) |
- |
450 |
|
- |
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
") |
- |
800 |
|
- |
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) |
- |
800 |
|
- |
Cl-4.4, Table -1 S. No-1 (iv) (Amendment No-1)(Abrasion resistance at applied force) |
- |
600 |
|
- |
Cl-4.4, Table -1 S. No-1 (v) (Amendment No-1)(Flexing resistance: Maximum cut growth,) |
- |
600 |
|
- |
Cl-4.4, Table -1 S. No-1 (vi) (Amendment No-1)(Hydrolysis resistance:Maximum cut growth) |
- |
2500 |
|
- |
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") |
- |
500 |
|
- |
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") |
- |
500 |
|
- |
Cl-4.4, Table -2 S. No-1 (i), c (Amendment No-1)("Elongation at break , percent, Min
1-Solid strap
2-Cellular strap") |
- |
450 |
|
- |
Cl-4.4, Table -3 S. No-1 (i), (Amendment No-1)(Toe post attachment strength) |
- |
500 |
|
- |
Cl-4.4, Table -3 S. No-1 (ii), (Amendment No-1)(Attachment strength of rear strap) |
- |
500 |
|
- |
Cl-4.4, Table -3 S. No-1 (iii), (Amendment No-1)(Inter layer bond strength) |
- |
500 |
|
- |
|
02 Sep, 2027 |
- - |
4 |
IS 15298 : Part 2 (2024) |
Personal Protective Equipment Part 2 Safety Footwear (ISO 20345 : 2021, MOD) (Third Revision) |
PERSONAL PROTECTIVE EQUIPMENT PART 2 SAFETY FOOTWEAR) |
20000 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
Cl 5.2(Design) |
- |
200 |
|
10 % DISSCOUNT FOR BIS SAMPLE. |
Cl 5.2.2, Table 4(" Height of upper
") |
- |
200 |
|
- |
Cl 5.2.3(Heel area) |
- |
200 |
|
- |
Cl 5.3.1.1(Construction of whole footwear) |
- |
200 |
|
- |
Cl 5.3.1.2(Upper/outsole bond strength) |
- |
500 |
|
- |
Cl 5.3.2.1(Toe protection - general) |
- |
200 |
|
- |
Cl 5.3.2.2(Internal length) |
- |
200 |
|
- |
Cl 5.3.2.3(Width of toecap flange) |
- |
200 |
|
- |
Cl 5.3.2.4.1(Corrosion resistance of Class I footwear and hybrid mounted footwear) |
- |
600 |
|
- |
Cl 5.3.2.4.2(Corrosion resistance of Class II and hybrid moulded footwear) |
- |
600 |
|
- |
Cl 5.3.2.5(Behaviour of toecaps (thermal and chemical) of Corrosion resistance) |
- |
1500 |
|
- |
Cl 5.3.2.6(Impact resistance) |
- |
600 |
|
- |
Cl 5.3.2.7(Compression resistance) |
- |
600 |
|
- |
Cl 5.3.3(Leak proofness) |
- |
600 |
|
- |
Cl 5.3.4("Specific ergonomic features
") |
- |
500 |
|
- |
Cl 5.3.5.2, Table 7(Slip resistance on ceramic tile floor with sodium lauryl sulphate (NaLS) solution) |
- |
1200 |
|
- |
Cl 5.3.6, Table no 1 of IS 17011 (iv)(Chromium (VI)) |
- |
600 |
|
- |
Cl 5.3.6, Table no 1 of IS 17011 (x)(pH) |
- |
300 |
|
- |
Cl 5.3.7(Seam strength) |
- |
500 |
|
- |
Cl 5.4.1.1(Class I footwear, determination of the area where upper requirements apply of Upper) |
- |
500 |
|
- |
Cl 5.4.1.2(Hybrid footwear, determination of the area where upper requirements apply of Upper) |
- |
500 |
|
- |
Cl 5.4.2(Thickness) |
- |
200 |
|
- |
Cl 5.4.3(Tear strength) |
- |
500 |
|
- |
Cl 5.4.4, Table 11(Tensile properties- Tensile strength) |
- |
500 |
|
- |
Cl 5.4.4, Table 11(Tensile properties- Breaking Force) |
- |
500 |
|
- |
Cl 5.4.4, Table 11(Tensile properties-Modulus at 100 % elongation) |
- |
500 |
|
- |
Cl 5.4.4, Table 11(Tensile properties- Elongation at break) |
- |
500 |
|
- |
Cl 5.4.5(Flexing resistance) |
- |
600 |
|
- |
Cl 5.4.6(Water vapour permeability and coefficient) |
- |
800 |
|
- |
Cl 5.4.7(Resistance to hydrolysis) |
- |
2500 |
|
- |
Cl 5.5.2(Lining- Tear strength) |
- |
450 |
|
- |
Cl 5.5.3(Lining- Abrasion resistance) |
- |
800 |
|
- |
Cl 5.5.4(Lining-Water vapour permeability and coefficient) |
- |
800 |
|
- |
Cl 5.6.2, Table 14(Tear strength of tongue) |
- |
450 |
|
- |
Cl 5.7.1(Thickness of Insole, insock and footbed) |
- |
200 |
|
- |
Cl 5.7.2(Water permeability of insock) |
- |
800 |
|
- |
Cl 5.7.3(Water absorption and desorption of Insole, insock and footbed) |
- |
800 |
|
- |
Cl 5.7.4.1(Abrasion resistance of Insoles) |
- |
500 |
|
- |
Cl 5.7.4.2(Abrasion resistance of Insocks) |
- |
500 |
|
- |
Cl 5.8.2.1, Table 15(Thickness of Outsole) |
- |
200 |
|
- |
Cl 5.8.2.2(Cleated area) |
- |
200 |
|
- |
Cl 5.8.2.3(Cleat height) |
- |
200 |
|
- |
Cl 5.8.3(Outsole- Tear strength) |
- |
500 |
|
- |
Cl 5.8.4(Outsole- Abrasion resistance) |
- |
600 |
|
- |
Cl 5.8.5(Outsole-Flexing resistance) |
- |
600 |
|
- |
Cl 5.8.6(Outsole-Resistance to hydrolysis) |
- |
2500 |
|
- |
Cl 5.8.7(Interlayer bond strength) |
- |
500 |
|
- |
Cl 6.2.1.1.2(Metallic perforation-resistant inserts (Type P)) |
- |
1500 |
|
- |
Cl 6.2.1.1.3(Non-metallic perforation-resistant inserts and insoles (Type PL)) |
- |
1500 |
|
- |
Personal protective equipment: Part 2 safety footwear(Non-metallic perforation-resistant inserts and insoles (Type PS)) |
- |
500 |
|
- |
Cl 6.2.1.2(Construction of perforation resistant insert) |
- |
200 |
|
- |
Cl 6.2.1.3(Dimensions of perforation resistant insert) |
- |
200 |
|
- |
Cl 6.2.1.4.1(Flex resistance of perforation-resistant inserts) |
- |
800 |
|
- |
Cl 6.2.1.4.2.1(Corrosion resistance of perforation resistant metallic insert for Class I footwear and hybrid mounted footwear) |
- |
600 |
|
- |
Cl 6.2.1.4.2.2(Corrosion resistance of perforation resistant metallic insert for Class II footwear and hybrid moulded footwear) |
- |
600 |
|
- |
Cl 6.2.1.4.3(Stability against ageing and environmental influence of non-metallic perforationresistant inserts) |
- |
500 |
|
- |
Cl 6.2.2.1(Electrical properties of Partially conductive footwear) |
- |
800 |
|
- |
Cl 6.2.2.2(Electrical properties of Antistatic footwear) |
- |
800 |
|
- |
Cl 6.2.3.1(Heat insulation of outsole complex) |
- |
600 |
|
- |
Cl 6.2.3.2(Cold insulation of outsole complex) |
- |
600 |
|
- |
Cl 6.2.4(Energy absorption of seat region) |
- |
800 |
|
- |
Cl 6.2.5(Water resistance) |
- |
800 |
|
- |
Cl 6.2.6.1(Metatarsal protection - Construction) |
- |
1000 |
|
- |
Cl 6.2.6.2("Metatarsal protection-Impact resistance of metatarsal protective device
") |
- |
1000 |
|
- |
Cl 6.2.7(Ankle protection) |
- |
1000 |
|
- |
Cl 6.2.8.2(Cut resistance footwear- design) |
- |
800 |
|
- |
Cl 6.2.8.2(Dimensions and construction of protective area of Cut resistance footwear) |
- |
200 |
|
- |
Cl 6.2.8.3(Resistance to cutting) |
- |
800 |
|
- |
Cl 6.2.9(Scuff cap) |
- |
200 |
|
- |
Cl 6.2.10 , Table 19("Slip resistance on ceramic tile floor with glycerine
") |
- |
1500 |
|
- |
Cl 6.3(Upper — Water penetration and absorption) |
- |
800 |
|
- |
Cl 6.4.1(Resistance to hot contact - Outsole) |
- |
800 |
|
- |
Cl 6.4.2(Resistance to fuel oil - Outsole) |
- |
800 |
|
- |
Cl 6.4.3.1(Mechanical properties of Ladder grip) |
- |
500 |
|
- |
Cl 6.4.3.2(Design of Ladder grip) |
- |
500 |
|
- |
Cl 6.4.3.3(Cleat height in the waist area of Ladder grip) |
- |
500 |
|
- |
Cl 6.4.3.4(Heel breast of Ladder grip) |
- |
500 |
|
- |
Cl 7, Table 20("Marking
") |
- |
200 |
|
- |
Cl 5.2(Design) |
- |
200 |
|
- |
Cl 5.2.2, Table 4(" Height of upper
") |
- |
200 |
|
- |
Cl 5.2.3(Heel area) |
- |
200 |
|
- |
Cl 5.3.1.1(Construction of whole footwear) |
- |
200 |
|
- |
Cl 5.3.1.2(Upper/outsole bond strength) |
- |
500 |
|
- |
Cl 5.3.2.1(Toe protection - general) |
- |
200 |
|
- |
Cl 5.3.2.2(Internal length) |
- |
200 |
|
- |
Cl 5.3.2.3(Width of toecap flange) |
- |
200 |
|
- |
Cl 5.3.2.4.1(Corrosion resistance of Class I footwear and hybrid mounted footwear) |
- |
500 |
|
- |
Cl 5.3.2.4.2(Corrosion resistance of Class II and hybrid moulded footwear) |
- |
500 |
|
- |
Cl 5.3.2.5(Behaviour of toecaps (thermal and chemical) of Corrosion resistance) |
- |
1500 |
|
- |
Cl 5.3.2.6(Impact resistance) |
- |
600 |
|
- |
Cl 5.3.2.7(Compression resistance) |
- |
600 |
|
- |
Cl 5.3.3(Leak proofness) |
- |
600 |
|
- |
Cl 5.3.4("Specific ergonomic features
") |
- |
600 |
|
- |
Cl 5.3.5.2, Table 7(Slip resistance on ceramic tile floor with sodium lauryl sulphate (NaLS) solution) |
- |
1200 |
|
- |
Cl 5.3.6, Table no 1 of IS 17011 (iv)(Chromium (VI)) |
- |
500 |
|
- |
Cl 5.3.6, Table no 1 of IS 17011 (x)(pH) |
- |
300 |
|
- |
Cl 5.3.7(Seam strength) |
- |
600 |
|
- |
Cl 5.4.1.1(Class I footwear, determination of the area where upper requirements apply of Upper) |
- |
500 |
|
- |
Cl 5.4.1.2(Hybrid footwear, determination of the area where upper requirements apply of Upper) |
- |
500 |
|
- |
Cl 5.4.2(Thickness) |
- |
200 |
|
- |
Cl 5.4.3(Tear strength) |
- |
450 |
|
- |
Cl 5.4.4, Table 11(Tensile properties- Tensile strength) |
- |
450 |
|
- |
Cl 5.4.4, Table 11(Tensile properties- Breaking Force) |
- |
450 |
|
- |
Cl 5.4.4, Table 11(Tensile properties-Modulus at 100 % elongation) |
- |
450 |
|
- |
Cl 5.4.4, Table 11(Tensile properties- Elongation at break) |
- |
450 |
|
- |
Cl 5.4.5(Flexing resistance) |
- |
640 |
|
- |
Cl 5.4.6(Water vapour permeability and coefficient) |
- |
800 |
|
- |
Cl 5.4.7(Resistance to hydrolysis) |
- |
2500 |
|
- |
Cl 5.5.2(Lining- Tear strength) |
- |
450 |
|
- |
Cl 5.5.3(Lining- Abrasion resistance) |
- |
800 |
|
- |
Cl 5.5.4(Lining-Water vapour permeability and coefficient) |
- |
800 |
|
- |
Cl 5.6.2, Table 14(Tear strength of tongue) |
- |
450 |
|
- |
Cl 5.7.1(Thickness of Insole, insock and footbed) |
- |
200 |
|
- |
Cl 5.7.2(Water permeability of insock) |
- |
800 |
|
- |
Cl 5.7.3(Water absorption and desorption of Insole, insock and footbed) |
- |
800 |
|
- |
Cl 5.7.4.1(Abrasion resistance of Insoles) |
- |
500 |
|
- |
Cl 5.7.4.2(Abrasion resistance of Insocks) |
- |
500 |
|
- |
Cl 5.8.2.1, Table 15(Thickness of Outsole) |
- |
200 |
|
- |
Cl 5.8.2.2(Cleated area) |
- |
200 |
|
- |
Cl 5.8.2.3(Cleat height) |
- |
200 |
|
- |
Cl 5.8.3(Outsole- Tear strength) |
- |
500 |
|
- |
Cl 5.8.4(Outsole- Abrasion resistance) |
- |
600 |
|
- |
Cl 5.8.5(Outsole-Flexing resistance) |
- |
600 |
|
- |
Cl 5.8.6(Outsole-Resistance to hydrolysis) |
- |
2500 |
|
- |
Cl 5.8.7(Interlayer bond strength) |
- |
500 |
|
- |
Cl 6.2.1.1.2(Metallic perforation-resistant inserts (Type P)) |
- |
1500 |
|
- |
Cl 6.2.1.1.3(Non-metallic perforation-resistant inserts and insoles (Type PL)) |
- |
1500 |
|
- |
Personal protective equipment: Part 2 safety footwear(Non-metallic perforation-resistant inserts and insoles (Type PS)) |
- |
200 |
|
- |
Cl 6.2.1.2(Construction of perforation resistant insert) |
- |
500 |
|
- |
Cl 6.2.1.3(Dimensions of perforation resistant insert) |
- |
500 |
|
- |
Cl 6.2.1.4.1(Flex resistance of perforation-resistant inserts) |
- |
500 |
|
- |
Cl 6.2.1.4.2.1(Corrosion resistance of perforation resistant metallic insert for Class I footwear and hybrid mounted footwear) |
- |
500 |
|
- |
Cl 6.2.1.4.2.2(Corrosion resistance of perforation resistant metallic insert for Class II footwear and hybrid moulded footwear) |
- |
500 |
|
- |
Cl 6.2.1.4.3(Stability against ageing and environmental influence of non-metallic perforationresistant inserts) |
- |
500 |
|
- |
Cl 6.2.2.1(Electrical properties of Partially conductive footwear) |
- |
800 |
|
- |
Cl 6.2.2.2(Electrical properties of Antistatic footwear) |
- |
800 |
|
- |
Cl 6.2.3.1(Heat insulation of outsole complex) |
- |
800 |
|
- |
Cl 6.2.3.2(Cold insulation of outsole complex) |
- |
800 |
|
- |
Cl 6.2.4(Energy absorption of seat region) |
- |
800 |
|
- |
Cl 6.2.5(Water resistance) |
- |
800 |
|
- |
Cl 6.2.6.1(Metatarsal protection - Construction) |
- |
800 |
|
- |
Cl 6.2.6.2("Metatarsal protection-Impact resistance of metatarsal protective device
") |
- |
800 |
|
- |
Cl 6.2.7(Ankle protection) |
- |
800 |
|
- |
Cl 6.2.8.2(Cut resistance footwear- design) |
- |
800 |
|
- |
Cl 6.2.8.2(Dimensions and construction of protective area of Cut resistance footwear) |
- |
500 |
|
- |
Cl 6.2.8.3(Resistance to cutting) |
- |
800 |
|
- |
Cl 6.2.9(Scuff cap) |
- |
500 |
|
- |
Cl 6.2.10 , Table 19("Slip resistance on ceramic tile floor with glycerine
") |
- |
1200 |
|
- |
Cl 6.3(Upper — Water penetration and absorption) |
- |
500 |
|
- |
Cl 6.4.1(Resistance to hot contact - Outsole) |
- |
800 |
|
- |
Cl 6.4.2(Resistance to fuel oil - Outsole) |
- |
800 |
|
- |
Cl 6.4.3.1(Mechanical properties of Ladder grip) |
- |
800 |
|
- |
Cl 6.4.3.2(Design of Ladder grip) |
- |
500 |
|
- |
Cl 6.4.3.3(Cleat height in the waist area of Ladder grip) |
- |
500 |
|
- |
Cl 6.4.3.4(Heel breast of Ladder grip) |
- |
500 |
|
- |
Cl 7, Table 20("Marking
") |
- |
500 |
|
- |
Cl 5.2(Design) |
- |
200 |
|
- |
Cl 5.2.2, Table 4(" Height of upper
") |
- |
200 |
|
- |
Cl 5.2.3(Heel area) |
- |
200 |
|
- |
Cl 5.3.1.1(Construction of whole footwear) |
- |
200 |
|
- |
Cl 5.3.1.2(Upper/outsole bond strength) |
- |
500 |
|
- |
Cl 5.3.2.1(Toe protection - general) |
- |
200 |
|
- |
Cl 5.3.2.2(Internal length) |
- |
200 |
|
- |
Cl 5.3.2.3(Width of toecap flange) |
- |
200 |
|
- |
Cl 5.3.2.4.1(Corrosion resistance of Class I footwear and hybrid mounted footwear) |
- |
800 |
|
- |
Cl 5.3.2.4.2(Corrosion resistance of Class II and hybrid moulded footwear) |
- |
800 |
|
- |
Cl 5.3.2.5(Behaviour of toecaps (thermal and chemical) of Corrosion resistance) |
- |
800 |
|
- |
Cl 5.3.2.6(Impact resistance) |
- |
500 |
|
- |
Cl 5.3.2.7(Compression resistance) |
- |
500 |
|
- |
Cl 5.3.3(Leak proofness) |
- |
800 |
|
- |
Cl 5.3.4("Specific ergonomic features
") |
- |
800 |
|
- |
Cl 5.3.5.2, Table 7(Slip resistance on ceramic tile floor with sodium lauryl sulphate (NaLS) solution) |
- |
1500 |
|
- |
Cl 5.3.6, Table no 1 of IS 17011 (iv)(Chromium (VI)) |
- |
600 |
|
- |
Cl 5.3.6, Table no 1 of IS 17011 (x)(pH) |
- |
450 |
|
- |
Cl 5.3.7(Seam strength) |
- |
600 |
|
- |
Cl 5.4.1.1(Class I footwear, determination of the area where upper requirements apply of Upper) |
- |
200 |
|
- |
Cl 5.4.1.2(Hybrid footwear, determination of the area where upper requirements apply of Upper) |
- |
500 |
|
- |
Cl 5.4.2(Thickness) |
- |
200 |
|
- |
Cl 5.4.3(Tear strength) |
- |
450 |
|
- |
Cl 5.4.4, Table 11(Tensile properties- Tensile strength) |
- |
450 |
|
- |
Cl 5.4.4, Table 11(Tensile properties- Breaking Force) |
- |
450 |
|
- |
Cl 5.4.4, Table 11(Tensile properties-Modulus at 100 % elongation) |
- |
450 |
|
- |
Cl 5.4.4, Table 11(Tensile properties- Elongation at break) |
- |
600 |
|
- |
Cl 5.4.5(Flexing resistance) |
- |
600 |
|
- |
Cl 5.4.6(Water vapour permeability and coefficient) |
- |
800 |
|
- |
Cl 5.4.7(Resistance to hydrolysis) |
- |
800 |
|
- |
Cl 5.5.2(Lining- Tear strength) |
- |
450 |
|
- |
Cl 5.5.3(Lining- Abrasion resistance) |
- |
450 |
|
- |
Cl 5.5.4(Lining-Water vapour permeability and coefficient) |
- |
800 |
|
- |
Cl 5.6.2, Table 14(Tear strength of tongue) |
- |
450 |
|
- |
Cl 5.7.1(Thickness of Insole, insock and footbed) |
- |
200 |
|
- |
Cl 5.7.2(Water permeability of insock) |
- |
800 |
|
- |
Cl 5.7.3(Water absorption and desorption of Insole, insock and footbed) |
- |
800 |
|
- |
Cl 5.7.4.1(Abrasion resistance of Insoles) |
- |
800 |
|
- |
Cl 5.7.4.2(Abrasion resistance of Insocks) |
- |
800 |
|
- |
Cl 5.8.2.1, Table 15(Thickness of Outsole) |
- |
200 |
|
- |
Cl 5.8.2.2(Cleated area) |
- |
200 |
|
- |
Cl 5.8.2.3(Cleat height) |
- |
200 |
|
- |
Cl 5.8.3(Outsole- Tear strength) |
- |
450 |
|
- |
Cl 5.8.4(Outsole- Abrasion resistance) |
- |
600 |
|
- |
Cl 5.8.5(Outsole-Flexing resistance) |
- |
600 |
|
- |
Cl 5.8.6(Outsole-Resistance to hydrolysis) |
- |
2500 |
|
- |
Cl 5.8.7(Interlayer bond strength) |
- |
500 |
|
- |
Cl 6.2.1.1.2(Metallic perforation-resistant inserts (Type P)) |
- |
500 |
|
- |
Cl 6.2.1.1.3(Non-metallic perforation-resistant inserts and insoles (Type PL)) |
- |
500 |
|
- |
Personal protective equipment: Part 2 safety footwear(Non-metallic perforation-resistant inserts and insoles (Type PS)) |
- |
500 |
|
- |
Cl 6.2.1.2(Construction of perforation resistant insert) |
- |
200 |
|
- |
Cl 6.2.1.3(Dimensions of perforation resistant insert) |
- |
200 |
|
- |
Cl 6.2.1.4.1(Flex resistance of perforation-resistant inserts) |
- |
500 |
|
- |
Cl 6.2.1.4.2.1(Corrosion resistance of perforation resistant metallic insert for Class I footwear and hybrid mounted footwear) |
- |
800 |
|
- |
Cl 6.2.1.4.2.2(Corrosion resistance of perforation resistant metallic insert for Class II footwear and hybrid moulded footwear) |
- |
500 |
|
- |
Cl 6.2.1.4.3(Stability against ageing and environmental influence of non-metallic perforationresistant inserts) |
- |
800 |
|
- |
Cl 6.2.2.1(Electrical properties of Partially conductive footwear) |
- |
1500 |
|
- |
Cl 6.2.2.2(Electrical properties of Antistatic footwear) |
- |
1500 |
|
- |
Cl 6.2.3.1(Heat insulation of outsole complex) |
- |
800 |
|
- |
Cl 6.2.3.2(Cold insulation of outsole complex) |
- |
800 |
|
- |
Cl 6.2.4(Energy absorption of seat region) |
- |
800 |
|
- |
Cl 6.2.5(Water resistance) |
- |
600 |
|
- |
Cl 6.2.6.1(Metatarsal protection - Construction) |
- |
500 |
|
- |
Cl 6.2.6.2("Metatarsal protection-Impact resistance of metatarsal protective device
") |
- |
500 |
|
- |
Cl 6.2.7(Ankle protection) |
- |
800 |
|
- |
Cl 6.2.8.2(Cut resistance footwear- design) |
- |
600 |
|
- |
Cl 6.2.8.2(Dimensions and construction of protective area of Cut resistance footwear) |
- |
500 |
|
- |
Cl 6.2.8.3(Resistance to cutting) |
- |
500 |
|
- |
Cl 6.2.9(Scuff cap) |
- |
500 |
|
- |
Cl 6.2.10 , Table 19("Slip resistance on ceramic tile floor with glycerine
") |
- |
1500 |
|
- |
Cl 6.3(Upper — Water penetration and absorption) |
- |
600 |
|
- |
Cl 6.4.1(Resistance to hot contact - Outsole) |
- |
800 |
|
- |
Cl 6.4.2(Resistance to fuel oil - Outsole) |
- |
800 |
|
- |
Cl 6.4.3.1(Mechanical properties of Ladder grip) |
- |
500 |
|
- |
Cl 6.4.3.2(Design of Ladder grip) |
- |
500 |
|
- |
Cl 6.4.3.3(Cleat height in the waist area of Ladder grip) |
- |
200 |
|
- |
Cl 6.4.3.4(Heel breast of Ladder grip) |
- |
200 |
|
- |
Cl 7, Table 20("Marking
") |
- |
200 |
|
- |
|
02 Sep, 2027 |
- Included w.e.f 17.06.2025
(For Mechanical parameters only) |
5 |
IS 6721 (2023) |
SANDAL AND SLIPPERS SPECIFICATION First revision |
- |
10000 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
Cl. No.4(SHAPE AND DESIGN) |
- |
200 |
|
- |
Cl. No.5("SIZE AND FITTINGS
") |
- |
200 |
|
- |
Cl. No.6("CONSTRUCTION
") |
- |
200 |
|
- |
Cl. No.7(MATERIAL) |
- |
200 |
|
- |
Cl. No.8.1, Table no. 1(i),a("Tear strength, (other
than moulded upper material)
") |
- |
450 |
|
- |
Cl. No.8.1, Table no. 1(i),b("For all moulded upper material
") |
- |
450 |
|
- |
Cl. No.8.1, Table no. 1(ii)(Flexing endurance) |
- |
600 |
|
- |
Cl. No.8.2,Table no. 2(i)(Tear strength) |
- |
450 |
|
- |
Cl. No.8.2,Table no. 2(ii),a("Abrasion resistance-
At dry condition") |
- |
600 |
|
- |
Cl. No.8.2,Table no. 2(ii),b("Abrasion resistance-
At wet condition") |
- |
600 |
|
- |
Cl. No.8.3,Table no. 3(i)(Tear strength) |
- |
450 |
|
- |
Cl. No.8.3,Table no. 3(ii),a("Abrasion resistance-
At dry condition") |
- |
600 |
|
- |
Cl. No.8.3,Table no. 3(ii),b("Abrasion resistance-
At wet condition") |
- |
600 |
|
- |
Cl. No.8.4,Table no. 4(i)(Grain crack index) |
- |
500 |
|
- |
Cl. No.8.4,Table no. 4(ii)(Density) |
- |
200 |
|
- |
Cl. No.8.4,Table no. 4(iii)(Abrasion resistance) |
- |
600 |
|
- |
Cl. No.8.4,Table no. 5(i)(Density) |
- |
200 |
|
- |
Cl. No.8.4,Table no. 5(ii)("Abrasion resistance, Volume
loss ") |
- |
600 |
|
- |
Cl. No.8.4, Table no. 5(iii)("Flexing resistance, At 30 000
flexes") |
- |
600 |
|
- |
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)") |
- |
500 |
|
- |
Cl. No.8.5, Table no. 6(ii)("Toe post attachment strength, N, Min
(Applicable if toe post is present)") |
- |
500 |
|
- |
Cl. No.8.5, Table no. 6(iii)("Toe ring attachment strength, Min
(Applicable if toe ring is not integral part of upper") |
- |
500 |
|
- |
Cl. No.8.5, Table no. 6(iv)(Strap to outsole strength) |
- |
500 |
|
- |
Cl. No.8.5, Table no. 6(v)("Attachment strength of back strap and
Buckle/D-ring ") |
- |
500 |
|
- |
Cl. No.8.5, Table no. 6(vi)("Attachment strength of elastic, limit of useful
extension, percent") |
- |
500 |
|
- |
Cl. No.8.5, Table no. 6(vii)("Attachment strength of back strap and velcro, N,
Min (If, present)") |
- |
500 |
|
- |
Cl. No.8.5, Table no. 6(viii)("Hydrolysis resistance,
Cut growth after 150 000 flexes, mm, Max
(Applicable for PU sole only)") |
- |
2000 |
|
- |
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)") |
- |
500 |
|
- |
Cl. No.8.5, Table no. 6(x)("Inter layer bond strength, N/mm,
(Applicable for multi-layer sole)") |
- |
500 |
|
- |
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)") |
- |
1200 |
|
- |
Cl. No.9.(MARKING AND PACKING) |
- |
500 |
|
- |
|
02 Sep, 2027 |
- Exclusion: Table 1 xiv Chemical requirement and Table 1 xv Lead content |
6 |
IS 10702 (2023) |
Hawai Chappal-Specification |
- |
6500 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
4.1(Material) |
- |
200 |
|
- |
4.2(Length) |
- |
200 |
|
- |
4.3(Thickness) |
- |
200 |
|
- |
4.4 , Table No. 1 , i)(Density) |
- |
200 |
|
- |
4.4 , Table No. 1 , ii)(2Compression set at constant stress) |
- |
500 |
|
- |
4.4 , Table No. 1 , iii)(3Split tear strength) |
- |
450 |
|
- |
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") |
- |
600 |
|
- |
4.4 , Table No. 1 , v)(5Abrasion resistance at applied force) |
- |
600 |
|
- |
4.4 , Table No. 1 , vi)(Flexing resistance: Maximum cut growth at 50 000 flexes) |
- |
600 |
|
- |
4.4 , Table No. 1 , vii)(7 Hydrolysis resistance, Maximum cut growth at 50 000 flexes) |
- |
2000 |
|
- |
4.4 , Table No . 2 , i)(Density , Solid strap, Cellular strap) |
- |
200 |
|
- |
4.4 , Table No . 2 , ii)("Breaking strength , Strap to strap and
Toe portion to strap , Elongation at break") |
- |
450 |
|
- |
4.4 , Table No . 2 , iii)(Minimum cross section of the stud) |
- |
500 |
|
- |
4.4 , Table No . 2 , iv)(Stud bolt) |
- |
200 |
|
- |
4.4 , Table No . 3 , i)(Toe post attachment strength) |
- |
500 |
|
- |
4.4 , Table No . 3 , ii)(Attachment strength of rear strap) |
- |
500 |
|
- |
4.4 , Table No . 3 , iii)(Inter layer bond strength) |
- |
500 |
|
- |
6(MARKING AND PACKING) |
- |
500 |
|
- |
Cl. No.5.1,Table no.1 of IS 17011(iv)(Chromium (VI)) |
- |
600 |
|
- |
Cl. No.5.1,Table no.1 of IS 17011(x)(pH) |
- |
400 |
|
- |
Clause 4.1 - 4.1.1(Bottom Material) |
- |
200 |
|
- |
Clause 4.1 - 4.1.2(Strap Material) |
- |
200 |
|
- |
Clause 4.1 - 4.1.4(Material) |
- |
200 |
|
- |
Clause 4.2(Material) |
- |
200 |
|
- |
Clause 4.3 - 4.3.1(Thickness) |
- |
200 |
|
- |
Clause 4.3 - 4.3.2(Thickness) |
- |
200 |
|
- |
Clause 4.4 Table 1 -i)(Density, g/cm3, Min) |
- |
200 |
|
- |
Clause 4.4 Table 2 -i) - b(Density, g/cm3 Cellular strap) |
- |
200 |
|
- |
Clause 4.4 Table 1 -iii)(Split tear strength, kg, Min) |
- |
450 |
|
- |
Clause 4.4 Table 1 -iv) - a("Shrinkage at 50 ºC ± 1 ºC for 24 h for polymeric material, percent,
Max") |
- |
600 |
|
- |
Clause 4.4 Table 1 -iv) - b(Shrinkage at 100 ºC ± 1 ºC for 1 h for rubber, percent, Max) |
- |
600 |
|
- |
Clause 4.4 Table 1 -v)(Abrasion resistance at applied force 5 N) |
- |
600 |
|
- |
Clause 4.4 Table 2 -i) - a("Density, g/cm3
Solid strap
") |
- |
200 |
|
- |
Clause 4.4 Table 2 -ii) - a - 1("Breaking strength, kgf, Min
Strap to strap(Solid Strap)") |
- |
450 |
|
- |
Clause 4.4 Table 2 -ii) - a - 2("Breaking strength, kgf, Min
Strap to strap(Cellular Strap)") |
- |
450 |
|
- |
Clause 4.4 Table 2 -ii) - a - 3("Breaking strength, kgf, Min
Toe portion to strap(Solid Strap)") |
- |
450 |
|
- |
Clause 4.4 Table 2 -ii) - a - 4("Breaking strength, kgf, Min
Toe portion to strap(Cellular Strap)") |
- |
450 |
|
- |
Clause 4.4 Table 2 -ii) - b - 1("Elongation at break, percent
(Applicable to strap to strap
(V shape) Solid Strap") |
- |
450 |
|
- |
Clause 4.4 Table 2 -ii) - b - 2("Elongation at break, percent
(Applicable to strap to strap
(V shape) Cellular Strap") |
- |
450 |
|
- |
Clause 4.4 Table 2 -iii) - a("Minimum cross section of the
stud, mm,
Size 1 to 13 (Adult)") |
- |
200 |
|
- |
Clause 4.4 Table 2 -iii) - b("Minimum cross section of the
stud, mm,
Size 3 to 13 (Children)") |
- |
200 |
|
- |
Clause 4.4 Table 2 -iv) - a("Stud bolt, mm
Diameter/edge to edge length") |
- |
200 |
|
- |
Clause 4.4 Table 2 -iv) - b("Stud bolt, mm
Thickness") |
- |
200 |
|
- |
Clause 4.4 Table 3 -i)("Toe post attachment strength, N,
Min") |
- |
450 |
|
- |
Clause 4.4 Table 3 -iii)("Inter layer bond strength, N/mm,
Min") |
- |
500 |
|
- |
Clause 4.1 - 4.1.3(Material) |
- |
200 |
|
- |
Clause 4.4 Table 3 -ii)("Attachment strength of rear strap,
N, Min") |
- |
450 |
|
- |
4.1(Material) |
- |
200 |
|
- |
4.2(Length) |
- |
200 |
|
- |
4.3(Thickness) |
- |
200 |
|
- |
4.4 , Table No. 1 , i)(Density) |
- |
200 |
|
- |
4.4 , Table No. 1 , ii)(2Compression set at constant stress) |
- |
500 |
|
- |
4.4 , Table No. 1 , iii)(3Split tear strength) |
- |
450 |
|
- |
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") |
- |
600 |
|
- |
4.4 , Table No. 1 , v)(5Abrasion resistance at applied force) |
- |
600 |
|
- |
4.4 , Table No. 1 , vi)(Flexing resistance: Maximum cut growth at 50 000 flexes) |
- |
600 |
|
- |
4.4 , Table No. 1 , vii)(7 Hydrolysis resistance, Maximum cut growth at 50 000 flexes) |
- |
2000 |
|
- |
4.4 , Table No . 2 , i)(Density , Solid strap, Cellular strap) |
- |
200 |
|
- |
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) |
- |
200 |
|
- |
4.4 , Table No . 2 , iv)(Stud bolt) |
- |
200 |
|
- |
4.4 , Table No . 3 , i)(Toe post attachment strength) |
- |
500 |
|
- |
4.4 , Table No . 3 , ii)(Attachment strength of rear strap) |
- |
500 |
|
- |
4.4 , Table No . 3 , iii)(Inter layer bond strength) |
- |
500 |
|
- |
6(MARKING AND PACKING) |
- |
200 |
|
- |
Cl. No.5.1,Table no.1 of IS 17011(iv)(Chromium (VI)) |
- |
800 |
|
- |
Cl. No.5.1,Table no.1 of IS 17011(x)(pH) |
- |
500 |
|
- |
Clause 4.1 - 4.1.1(Bottom Material) |
- |
200 |
|
- |
Clause 4.1 - 4.1.2(Strap Material) |
- |
200 |
|
- |
Clause 4.1 - 4.1.4(Material) |
- |
200 |
|
- |
Clause 4.2(Material) |
- |
200 |
|
- |
Clause 4.3 - 4.3.1(Thickness) |
- |
200 |
|
- |
Clause 4.3 - 4.3.2(Thickness) |
- |
200 |
|
- |
Clause 4.4 Table 1 -i)(Density, g/cm3, Min) |
- |
200 |
|
- |
Clause 4.4 Table 2 -i) - b(Density, g/cm3 Cellular strap) |
- |
200 |
|
- |
Clause 4.4 Table 1 -iii)(Split tear strength, kg, Min) |
- |
450 |
|
- |
Clause 4.4 Table 1 -iv) - a("Shrinkage at 50 ºC ± 1 ºC for 24 h for polymeric material, percent,
Max") |
- |
600 |
|
- |
Clause 4.4 Table 1 -iv) - b(Shrinkage at 100 ºC ± 1 ºC for 1 h for rubber, percent, Max) |
- |
600 |
|
- |
Clause 4.4 Table 1 -v)(Abrasion resistance at applied force 5 N) |
- |
600 |
|
- |
Clause 4.4 Table 2 -i) - a("Density, g/cm3
Solid strap
") |
- |
200 |
|
- |
Clause 4.4 Table 2 -ii) - a - 1("Breaking strength, kgf, Min
Strap to strap(Solid Strap)") |
- |
500 |
|
- |
Clause 4.4 Table 2 -ii) - a - 2("Breaking strength, kgf, Min
Strap to strap(Cellular Strap)") |
- |
500 |
|
- |
Clause 4.4 Table 2 -ii) - a - 3("Breaking strength, kgf, Min
Toe portion to strap(Solid Strap)") |
- |
500 |
|
- |
Clause 4.4 Table 2 -ii) - a - 4("Breaking strength, kgf, Min
Toe portion to strap(Cellular Strap)") |
- |
500 |
|
- |
Clause 4.4 Table 2 -ii) - b - 1("Elongation at break, percent
(Applicable to strap to strap
(V shape) Solid Strap") |
- |
450 |
|
- |
Clause 4.4 Table 2 -ii) - b - 2("Elongation at break, percent
(Applicable to strap to strap
(V shape) Cellular Strap") |
- |
450 |
|
- |
Clause 4.4 Table 2 -iii) - a("Minimum cross section of the
stud, mm,
Size 1 to 13 (Adult)") |
- |
200 |
|
- |
Clause 4.4 Table 2 -iii) - b("Minimum cross section of the
stud, mm,
Size 3 to 13 (Children)") |
- |
200 |
|
- |
Clause 4.4 Table 2 -iv) - a("Stud bolt, mm
Diameter/edge to edge length") |
- |
200 |
|
- |
Clause 4.4 Table 2 -iv) - b("Stud bolt, mm
Thickness") |
- |
200 |
|
- |
Clause 4.4 Table 3 -i)("Toe post attachment strength, N,
Min") |
- |
500 |
|
- |
Clause 4.4 Table 3 -iii)("Inter layer bond strength, N/mm,
Min") |
- |
500 |
|
- |
Clause 4.1 - 4.1.3(Material) |
- |
200 |
|
- |
Clause 4.4 Table 3 -ii)("Attachment strength of rear strap,
N, Min") |
- |
500 |
|
- |
4.4 , Table No. 1 , vi)(Flexing resistance: Maximum cut growth at 50 000 flexes) |
- |
800 |
|
- |
4.4 , Table No. 1 , vii)(7 Hydrolysis resistance, Maximum cut growth at 50 000 flexes) |
- |
2500 |
|
- |
4.4 , Table No . 2 , ii)("Breaking strength , Strap to strap and
Toe portion to strap , Elongation at break") |
- |
450 |
|
- |
6(MARKING AND PACKING) |
- |
500 |
|
- |
Clause 4.4 Table 1 -iv) - a("Shrinkage at 50 ºC ± 1 ºC for 24 h for polymeric material, percent,
Max") |
- |
800 |
|
- |
Clause 4.4 Table 1 -iv) - b(Shrinkage at 100 ºC ± 1 ºC for 1 h for rubber, percent, Max) |
- |
800 |
|
- |
Clause 4.4 Table 2 -ii) - b - 1("Elongation at break, percent
(Applicable to strap to strap
(V shape) Solid Strap") |
- |
500 |
|
- |
Clause 4.4 Table 2 -ii) - b - 2("Elongation at break, percent
(Applicable to strap to strap
(V shape) Cellular Strap") |
- |
500 |
|
- |
Clause 4.4 Table 2 -iii) - a("Minimum cross section of the
stud, mm,
Size 1 to 13 (Adult)") |
- |
500 |
|
- |
Clause 4.4 Table 2 -iii) - b("Minimum cross section of the
stud, mm,
Size 3 to 13 (Children)") |
- |
500 |
|
- |
Clause 4.4 Table 2 -iv) - a("Stud bolt, mm
Diameter/edge to edge length") |
- |
500 |
|
- |
Cl-4 ((Amendment No-1)(Category And Type) |
- |
200 |
|
- |
Cl-4.4, Table -1 S. No-1 (i) (Amendment No-1)(Compression set at constant stress) |
- |
500 |
|
- |
Cl-4.4, Table -1 S. No-1 (ii) (Amendment No-1)(Split tear strength) |
- |
450 |
|
- |
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
") |
- |
800 |
|
- |
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) |
- |
800 |
|
- |
Cl-4.4, Table -1 S. No-1 (iv) (Amendment No-1)(Abrasion resistance at applied force) |
- |
600 |
|
- |
Cl-4.4, Table -1 S. No-1 (v) (Amendment No-1)(Flexing resistance: Maximum cut growth,) |
- |
600 |
|
- |
Cl-4.4, Table -1 S. No-1 (vi) (Amendment No-1)(Hydrolysis resistance:Maximum cut growth) |
- |
2500 |
|
- |
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") |
- |
500 |
|
- |
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") |
- |
500 |
|
- |
Cl-4.4, Table -2 S. No-1 (i), c (Amendment No-1)("Elongation at break , percent, Min
1-Solid strap
2-Cellular strap") |
- |
450 |
|
- |
Cl-4.4, Table -3 S. No-1 (i), (Amendment No-1)(Toe post attachment strength) |
- |
500 |
|
- |
Cl-4.4, Table -3 S. No-1 (ii), (Amendment No-1)(Attachment strength of rear strap) |
- |
500 |
|
- |
Cl-4.4, Table -3 S. No-1 (iii), (Amendment No-1)(Inter layer bond 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") |
- |
800 |
|
- |
Clause 4.4 Table 2 -ii) - a - 1("Breaking strength, kgf, Min
Strap to strap(Solid Strap)") |
- |
450 |
|
- |
Clause 4.4 Table 2 -ii) - a - 2("Breaking strength, kgf, Min
Strap to strap(Cellular Strap)") |
- |
450 |
|
- |
Clause 4.4 Table 2 -ii) - a - 3("Breaking strength, kgf, Min
Toe portion to strap(Solid Strap)") |
- |
450 |
|
- |
Clause 4.4 Table 2 -ii) - a - 4("Breaking strength, kgf, Min
Toe portion to strap(Cellular Strap)") |
- |
450 |
|
- |
Clause 4.4 Table 3 -ii)("Attachment strength of rear strap,
N, Min") |
- |
450 |
|
- |
Cl-4 ((Amendment No-1)(Category And Type) |
- |
450 |
|
- |
Cl-4.4, Table -1 S. No-1 (i) (Amendment No-1)(Compression set at constant stress) |
- |
500 |
|
- |
Cl-4.4, Table -1 S. No-1 (ii) (Amendment No-1)(Split tear strength) |
- |
450 |
|
- |
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
") |
- |
800 |
|
- |
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) |
- |
800 |
|
- |
Cl-4.4, Table -1 S. No-1 (iv) (Amendment No-1)(Abrasion resistance at applied force) |
- |
600 |
|
- |
Cl-4.4, Table -1 S. No-1 (v) (Amendment No-1)(Flexing resistance: Maximum cut growth,) |
- |
800 |
|
- |
Cl-4.4, Table -1 S. No-1 (vi) (Amendment No-1)(Hydrolysis resistance:Maximum cut growth) |
- |
2500 |
|
- |
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") |
- |
450 |
|
- |
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") |
- |
450 |
|
- |
Cl-4.4, Table -2 S. No-1 (i), c (Amendment No-1)("Elongation at break , percent, Min
1-Solid strap
2-Cellular strap") |
- |
450 |
|
- |
Cl-4.4, Table -3 S. No-1 (i), (Amendment No-1)(Toe post attachment strength) |
- |
500 |
|
- |
Cl-4.4, Table -3 S. No-1 (ii), (Amendment No-1)(Attachment strength of rear strap) |
- |
450 |
|
- |
Cl-4.4, Table -3 S. No-1 (iii), (Amendment No-1)(Inter layer bond strength) |
- |
500 |
|
- |
4.4 , Table No . 2 , iii)(Minimum cross section of the stud) |
- |
500 |
|
- |
Clause 4.1 - 4.1.2(Strap Material) |
- |
450 |
|
- |
Clause 4.4 Table 2 -iii) - a("Minimum cross section of the
stud, mm,
Size 1 to 13 (Adult)") |
- |
450 |
|
- |
Clause 4.4 Table 2 -iii) - b("Minimum cross section of the
stud, mm,
Size 3 to 13 (Children)") |
- |
450 |
|
- |
Cl-4 ((Amendment No-1)(Category And Type) |
- |
200 |
|
- |
Cl-4.4, Table -1 S. No-1 (v) (Amendment No-1)(Flexing resistance: Maximum cut growth,) |
- |
600 |
|
- |
Cl-4.4, Table -3 S. No-1 (ii), (Amendment No-1)(Attachment strength of rear strap) |
- |
500 |
|
- |
4.1(Material) |
- |
- |
|
- |
4.2(Length) |
- |
- |
|
- |
4.3(Thickness) |
- |
- |
|
- |
4.4 , Table No. 1 , i)(Density) |
- |
- |
|
- |
4.4 , Table No. 1 , ii)(2Compression set at constant stress) |
- |
- |
|
- |
4.4 , Table No. 1 , iii)(3Split tear strength) |
- |
- |
|
- |
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") |
- |
- |
|
- |
4.4 , Table No. 1 , v)(5Abrasion resistance at applied force) |
- |
- |
|
- |
4.4 , Table No. 1 , vi)(Flexing resistance: Maximum cut growth at 50 000 flexes) |
- |
- |
|
- |
4.4 , Table No. 1 , vii)(7 Hydrolysis resistance, Maximum cut growth at 50 000 flexes) |
- |
- |
|
- |
4.4 , Table No . 2 , i)(Density , Solid strap, Cellular strap) |
- |
- |
|
- |
4.4 , Table No . 2 , ii)("Breaking strength , Strap to strap and
Toe portion to strap , Elongation at break") |
- |
- |
|
- |
4.4 , Table No . 2 , iii)(Minimum cross section of the stud) |
- |
- |
|
- |
4.4 , Table No . 2 , iv)(Stud bolt) |
- |
- |
|
- |
4.4 , Table No . 3 , i)(Toe post attachment strength) |
- |
- |
|
- |
4.4 , Table No . 3 , ii)(Attachment strength of rear strap) |
- |
- |
|
- |
4.4 , Table No . 3 , iii)(Inter layer bond strength) |
- |
- |
|
- |
6(MARKING AND PACKING) |
- |
- |
|
- |
Cl. No.5.1,Table no.1 of IS 17011(iv)(Chromium (VI)) |
- |
- |
|
- |
Cl. No.5.1,Table no.1 of IS 17011(x)(pH) |
- |
- |
|
- |
Clause 4.1 - 4.1.1(Bottom Material) |
- |
- |
|
- |
Clause 4.1 - 4.1.2(Strap Material) |
- |
- |
|
- |
Clause 4.1 - 4.1.4(Material) |
- |
- |
|
- |
Clause 4.2(Material) |
- |
- |
|
- |
Clause 4.3 - 4.3.1(Thickness) |
- |
- |
|
- |
Clause 4.3 - 4.3.2(Thickness) |
- |
- |
|
- |
Clause 4.4 Table 1 -i)(Density, g/cm3, Min) |
- |
- |
|
- |
Clause 4.4 Table 2 -i) - b(Density, g/cm3 Cellular strap) |
- |
- |
|
- |
Clause 4.4 Table 1 -iii)(Split tear strength, kg, Min) |
- |
- |
|
- |
Clause 4.4 Table 1 -iv) - a("Shrinkage at 50 ºC ± 1 ºC for 24 h for polymeric material, percent,
Max") |
- |
- |
|
- |
Clause 4.4 Table 1 -iv) - b(Shrinkage at 100 ºC ± 1 ºC for 1 h for rubber, percent, Max) |
- |
- |
|
- |
Clause 4.4 Table 1 -v)(Abrasion resistance at applied force 5 N) |
- |
- |
|
- |
Clause 4.4 Table 2 -i) - a("Density, g/cm3
Solid strap
") |
- |
- |
|
- |
Clause 4.4 Table 2 -ii) - a - 1("Breaking strength, kgf, Min
Strap to strap(Solid Strap)") |
- |
- |
|
- |
Clause 4.4 Table 2 -ii) - a - 2("Breaking strength, kgf, Min
Strap to strap(Cellular Strap)") |
- |
- |
|
- |
Clause 4.4 Table 2 -ii) - a - 3("Breaking strength, kgf, Min
Toe portion to strap(Solid Strap)") |
- |
- |
|
- |
Clause 4.4 Table 2 -ii) - a - 4("Breaking strength, kgf, Min
Toe portion to strap(Cellular Strap)") |
- |
- |
|
- |
Clause 4.4 Table 2 -ii) - b - 1("Elongation at break, percent
(Applicable to strap to strap
(V shape) Solid Strap") |
- |
- |
|
- |
Clause 4.4 Table 2 -ii) - b - 2("Elongation at break, percent
(Applicable to strap to strap
(V shape) Cellular Strap") |
- |
- |
|
- |
Clause 4.4 Table 2 -iii) - a("Minimum cross section of the
stud, mm,
Size 1 to 13 (Adult)") |
- |
- |
|
- |
Clause 4.4 Table 2 -iii) - b("Minimum cross section of the
stud, mm,
Size 3 to 13 (Children)") |
- |
- |
|
- |
Clause 4.4 Table 2 -iv) - a("Stud bolt, mm
Diameter/edge to edge length") |
- |
- |
|
- |
Clause 4.4 Table 2 -iv) - b("Stud bolt, mm
Thickness") |
- |
- |
|
- |
Clause 4.4 Table 3 -i)("Toe post attachment strength, N,
Min") |
- |
- |
|
- |
Clause 4.4 Table 3 -iii)("Inter layer bond strength, N/mm,
Min") |
- |
- |
|
- |
Clause 4.1 - 4.1.3(Material) |
- |
- |
|
- |
Clause 4.4 Table 3 -ii)("Attachment strength of rear strap,
N, Min") |
- |
- |
|
- |
Cl-4 ((Amendment No-1)(Category And Type) |
- |
- |
|
- |
Cl-4.4, Table -1 S. No-1 (i) (Amendment No-1)(Compression set at constant stress) |
- |
- |
|
- |
Cl-4.4, Table -1 S. No-1 (ii) (Amendment No-1)(Split tear strength) |
- |
- |
|
- |
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
") |
- |
- |
|
- |
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) |
- |
- |
|
- |
Cl-4.4, Table -1 S. No-1 (iv) (Amendment No-1)(Abrasion resistance at applied force) |
- |
- |
|
- |
Cl-4.4, Table -1 S. No-1 (v) (Amendment No-1)(Flexing resistance: Maximum cut growth,) |
- |
- |
|
- |
Cl-4.4, Table -1 S. No-1 (vi) (Amendment No-1)(Hydrolysis resistance:Maximum cut growth) |
- |
- |
|
- |
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") |
- |
- |
|
- |
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") |
- |
- |
|
- |
Cl-4.4, Table -2 S. No-1 (i), c (Amendment No-1)("Elongation at break , percent, Min
1-Solid strap
2-Cellular strap") |
- |
- |
|
- |
Cl-4.4, Table -3 S. No-1 (i), (Amendment No-1)(Toe post attachment strength) |
- |
- |
|
- |
Cl-4.4, Table -3 S. No-1 (ii), (Amendment No-1)(Attachment strength of rear strap) |
- |
- |
|
- |
Cl-4.4, Table -3 S. No-1 (iii), (Amendment No-1)(Inter layer bond strength) |
- |
- |
|
- |
|
02 Sep, 2027 |
- Exclusion: Table 1 vii and Table 2 ii Chemical requirements, Table 1 viii and Table 2 iii Lead content |
7 |
IS 15844 : Part 1 (2023) |
SPORTS FOOTWEAR PART -1 GENERAL PURPOSEFirst Revision |
- |
22000 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
Cl No.4.1(Sampling and Conditioning) |
- |
500 |
|
- |
Cl No.4.2(Construction) |
- |
300 |
|
- |
Cl No.4.3(Whole Footwear) |
- |
300 |
|
- |
4.3.1(Insole) |
- |
300 |
|
- |
4.3.2(Toe spring height) |
- |
500 |
|
- |
4.3.3(Upper to Mid Sole/Out Sole Bond Performance) |
- |
500 |
|
- |
4.3.4("Upper to Composite Sole Bond Performance
(Applicable Only When the Sole is Composite)") |
- |
500 |
|
- |
4.3.5(Out Sole to Mid Sole (Multilayer) Bond Performance) |
- |
500 |
|
- |
4.3.6(Energy Absorption at Seat Region) |
- |
800 |
|
- |
4.3.7(Complete Shoe Flexing) |
- |
640 |
|
- |
4.3.8(Washability) |
- |
800 |
|
- |
4.3.9(Slip Resistance) |
- |
1000 |
|
- |
Cl No.4.4 , Table No. 2 , i) , a)(Flexing resistance, Dry condition) |
- |
600 |
|
- |
Cl No.4.4 , Table No. 2 , ii)(Tear strength (average force), Min, N) |
- |
450 |
|
- |
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) ") |
- |
600 |
|
- |
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)") |
- |
600 |
|
- |
Cl No.4.4 , Table No. 2 , iv) , a)(Water vapour permeability, mg/cm2h, Min) |
- |
800 |
|
- |
Cl No.4.4 , Table No. 2 , iv) , b)(Water vapour coefficient, mg/cm2 , Min) |
- |
800 |
|
- |
Cl No.4.4 , Table No. 2 , v)(Stitch tear strength (double hole), N/mm, Min) |
- |
600 |
|
- |
Cl No.4.4 , Table No. 2 , i)(Breaking strength, N/mm, Min) |
- |
450 |
|
- |
Cl No.4.4 , Table No. 2 , ii)(Elongation at break, percent Min) |
- |
450 |
|
- |
Cl No.4.4 , Table No. 2 , iii)(Tear strength, N, Min For Fabric: For all other materials) |
- |
450 |
|
- |
Cl No.4.4 , Table No. 2 , iv) , a)(Flexing resistance, Dry condition) |
- |
600 |
|
- |
Cl No.4.4 , Table No. 2 , iv) , b)(Flexing resistance, ,Wet condition) |
- |
600 |
|
- |
Cl No.4.4 , Table No. 2 , v) , a)(Water vapour permeability, mg/cm2h, Min) |
- |
800 |
|
- |
Cl No.4.4 , Table No. 2 , v) , b)("Water vapour coefficient, mg/cm2 , Min
") |
- |
800 |
|
- |
Cl No.4.4 , Table No. 2 , vi)(Hydrolysis resistance) |
- |
2000 |
|
- |
Cl No.4.4 , Table No. 2 , vii)(Bursting Strength, kg/cm2 , Min) |
- |
500 |
|
- |
Cl No.4.5 , Table No. 3 , i)(Tear strength, N, Min) |
- |
450 |
|
- |
Cl No.4.5 , Table No. 3 , ii)(Abrasion resistance, cycles) |
- |
600 |
|
- |
Cl No.4.5 , Table No. 3 , iii)("Colour fastness to rubbing (crocking), Grey scale
rate with 10 rubs on dry or wet, Min") |
- |
600 |
|
- |
Cl No.4.5 , Table No. 3 , iv)("Colour fastness to perspiration (contact method)
Grey scale rate, Min") |
- |
600 |
|
- |
Cl No.4.5 , Table No. 3 , v) , a)(Water vapour permeability, mg/cm2h, Min) |
- |
800 |
|
- |
Cl No.4.5 , Table No. 3 , v) , b)("Water vapour coefficient, mg/cm2 , Min
") |
- |
800 |
|
- |
Cl No.4.6 , Table No. 4 , i)(Thickness, mm, Min) |
- |
200 |
|
- |
Cl No.4.6 , Table No. 4 , ii)(Flexing index, Min) |
- |
800 |
|
- |
Cl No.4.6 , Table No. 4 , iii)(Abrasion resistance, at 400 cycles) |
- |
800 |
|
- |
Cl No.4.6 , Table No. 4 , iv) , a)(Water Absorption, mg/cm2 , Min) |
- |
800 |
|
- |
Cl No.4.6 , Table No. 4 , iv) , b)(Water Desorption, percent, Min) |
- |
800 |
|
- |
Cl No.4.7, Table No. 5 , i)(Thickness, mm, Min) |
- |
200 |
|
- |
Cl No.4.7, Table No. 5 , ii)(Abrasion resistance, cycles) |
- |
600 |
|
- |
Cl No.4.7, Table No. 5 , iii) , a)(Water Absorption, mg/cm2 , Min) |
- |
800 |
|
- |
Cl No.4.7, Table No. 5 , iii) , b)(Water Desorption, percent, Min) |
- |
800 |
|
- |
Cl No.4.8 , Table No. 6 , i)(Abrasion resistance (Volume loss), mm3 , Max) |
- |
600 |
|
- |
Cl No.4.8 , Table No. 6 , ii)("Flexing resistance Belt Method at 90 diameter Mandrel
or
Bennewart method, cut growth, Max") |
- |
600 |
|
- |
Cl No.4.8 , Table No. 6 , iii)("Hydrolysis resistance, cut growth after 150 000
flexes, in mm, Max") |
- |
2000 |
|
- |
Cl No.4.9 , Table No. 7 , i)(Compression set, percent, Max) |
- |
500 |
|
- |
Cl No.4.9 , Table No. 7 , ii)(Split tear strength, kg/25 mm, Min) |
- |
450 |
|
- |
Cl No.4.9 , Table No. 7 , iii)(Heat shrinkage, percent, Max) |
- |
800 |
|
- |
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.4.10 , Table No. 8 , iv) , b)(Area shape retention after 10th collapse, dry, percent, Min) |
- |
800 |
|
- |
Cl No.4.11 , Table No. 9 , i)(Peel strength, N/mm, Min) |
- |
500 |
|
- |
Cl No.4.11 , Table No. 9 , ii)(Shear strength, kPa , Min) |
- |
600 |
|
- |
Cl No.4.12 , Table No. 10 , i)(Limit of useful extension, percent, Min) |
- |
600 |
|
- |
Cl No.4.13 , Table No. 11 , i)(Breaking strength of lace, N, Min) |
- |
500 |
|
- |
Cl No.4.13 , Table No. 11 , ii)(Lace tag strength, N, Min) |
- |
500 |
|
- |
Cl No.4.13 , Table No. 11 , iii)(Lace to lace abrasion,) |
- |
800 |
|
- |
Cl No.4.13 , Table No. 11 , iv)("Colour fastness to water
Gray Scale Rate, Min Rating") |
- |
600 |
|
- |
Cl No.4.13 , Table No. 11 , v)(Strength of Buckle/Ski hook, N, Min) |
- |
600 |
|
- |
Cl No.4.13 , Table No. 11 , vi)(Corrosion resistance) |
- |
600 |
|
- |
Cl No . 5(MARKING AND PACKING) |
- |
1000 |
|
- |
Cl No . 4.14, Table no. 1 of IS 17011(iv)(Chromium (VI)) |
- |
600 |
|
- |
Cl No . 4.14, Table no. 1 of IS 17011(x)(pH) |
- |
400 |
|
- |
Clause 4.2 - 4.2.1(Construction) |
- |
200 |
|
- |
Clause 4.2 - 4.2.2(Construction) |
- |
200 |
|
- |
Clause 4.3 - 4.3.1(Whole Footwear) |
- |
200 |
|
- |
Clause 4.3 - 4.3.2(Whole Footwear) |
- |
200 |
|
- |
Clause 4.3 - 4.3.3(Upper to Mid Sole/Out Sole Bond Performance) |
- |
500 |
|
- |
Clause 4.3 - 4.3.4(Upper to Composite Sole Bond Performance(Applicable Only When the Sole is Composite)) |
- |
500 |
|
- |
Clause 4.3 - 4.3.5(Out Sole to Mid Sole (Multilayer) Bond) |
- |
500 |
|
- |
Clause 4.3 - 4.3.7(Complete Shoe Flexing) |
- |
640 |
|
- |
Clause 4.4, Table 1 ii)(Tear strength) |
- |
450 |
|
- |
Clause 4.4, Table 1 iv)-a(Water Vapour Permeability) |
- |
800 |
|
- |
Clause 4.5, Table 3 v)-b(Water Vapour Coeffecient) |
- |
800 |
|
- |
Clause 4.4, Table 1 v)(Stitch Tear Strength(Double Hole)) |
- |
600 |
|
- |
Clause 4.4, Table 2 i)(Breaking Strength) |
- |
450 |
|
- |
Clause 4.4, Table 2 ii)(Elongation at break) |
- |
450 |
|
- |
Clause 4.4, Table 2 iii)(Tear strength) |
- |
450 |
|
- |
Clause 4.4, Table 2 v)-a(Water Vapour Permeability) |
- |
800 |
|
- |
Clause 4.4, Table 2 v)-b(Water Vapour Coeffecient) |
- |
800 |
|
- |
Clause 4.5, Table 3 i)(Tear strength) |
- |
450 |
|
- |
Clause 4.5, Table 3 ii)(Abrasion Resistance) |
- |
600 |
|
- |
Clause 4.5, Table 3 v)-a(Water Vapour Permeability) |
- |
800 |
|
- |
Clause 4.6, Table 4 i)(Thickness) |
- |
200 |
|
- |
Clause 4.6, Table 4 ii)(Abrasion Resistance) |
- |
600 |
|
- |
Clause 4.6, Table 4 iv)-a(Water Absorption) |
- |
800 |
|
- |
Clause 4.6, Table 4 iv)-b(Water Desorption) |
- |
800 |
|
- |
Clause 4.8, Table 6 i)(Abrasion Resistance) |
- |
600 |
|
- |
Clause 4.8, Table 6 ii)(Flexing Resistance) |
- |
600 |
|
- |
Clause 4.8, Table 6 iii)(Hydrolysis Resistance) |
- |
2000 |
|
- |
Clause 4.9, Table 7 ii)(Split Tear strength) |
- |
450 |
|
- |
Clause 4.9, Table 7 iii)(Heat shrinkage) |
- |
800 |
|
- |
Clause 4.4, Table 1 iv)-b(Water Vapour Coeffecient) |
- |
800 |
|
- |
Clause 4.7, Table 5 i)(Thickness) |
- |
200 |
|
- |
Clause 4.7, Table 5 iii)-a(Water Absorption) |
- |
800 |
|
- |
Cl No.4.4 , Table No. 2 , i) , b)(Flexing resistance, Wet condition) |
- |
600 |
|
- |
Clause 4.7, Table 5 ii)(Abrasion Resistance) |
- |
600 |
|
- |
Clause 4.7, Table 5 iii)-b(Water Desorption) |
- |
800 |
|
- |
Cl No.4.1(Sampling and Conditioning) |
- |
200 |
|
- |
Cl No.4.2(Construction) |
- |
200 |
|
- |
Cl No.4.3(Whole Footwear) |
- |
200 |
|
- |
4.3.1(Insole) |
- |
200 |
|
- |
4.3.2(Toe spring height) |
- |
200 |
|
- |
4.3.3(Upper to Mid Sole/Out Sole Bond Performance) |
- |
500 |
|
- |
4.3.4("Upper to Composite Sole Bond Performance
(Applicable Only When the Sole is Composite)") |
- |
500 |
|
- |
4.3.5(Out Sole to Mid Sole (Multilayer) Bond Performance) |
- |
500 |
|
- |
4.3.6(Energy Absorption at Seat Region) |
- |
800 |
|
- |
4.3.7(Complete Shoe Flexing) |
- |
640 |
|
- |
4.3.9(Slip Resistance) |
- |
1500 |
|
- |
Cl No.4.4 , Table No. 2 , i) , a)(Flexing resistance, Dry condition) |
- |
600 |
|
- |
Cl No.4.4 , Table No. 2 , ii)(Tear strength (average force), Min, N) |
- |
450 |
|
- |
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) |
- |
800 |
|
- |
Cl No.4.4 , Table No. 2 , iv) , b)(Water vapour coefficient, mg/cm2 , Min) |
- |
800 |
|
- |
Cl No.4.4 , Table No. 2 , v)(Stitch tear strength (double hole), N/mm, Min) |
- |
450 |
|
- |
Cl No.4.4 , Table No. 2 , i)(Breaking strength, N/mm, Min) |
- |
450 |
|
- |
Cl No.4.4 , Table No. 2 , ii)(Elongation at break, percent Min) |
- |
450 |
|
- |
Cl No.4.4 , Table No. 2 , iii)(Tear strength, N, Min For Fabric: For all other materials) |
- |
450 |
|
- |
Cl No.4.4 , Table No. 2 , iv) , a)(Flexing resistance, Dry condition) |
- |
600 |
|
- |
Cl No.4.4 , Table No. 2 , iv) , b)(Flexing resistance, ,Wet condition) |
- |
600 |
|
- |
Cl No.4.4 , Table No. 2 , v) , a)(Water vapour permeability, mg/cm2h, Min) |
- |
800 |
|
- |
Cl No.4.4 , Table No. 2 , v) , b)("Water vapour coefficient, mg/cm2 , Min
") |
- |
800 |
|
- |
Cl No.4.4 , Table No. 2 , vi)(Hydrolysis resistance) |
- |
2500 |
|
- |
Cl No.4.4 , Table No. 2 , vii)(Bursting Strength, kg/cm2 , Min) |
- |
600 |
|
- |
Cl No.4.5 , Table No. 3 , i)(Tear strength, N, Min) |
- |
450 |
|
- |
Cl No.4.5 , Table No. 3 , ii)(Abrasion resistance, cycles) |
- |
600 |
|
- |
Cl No.4.5 , Table No. 3 , iii)("Colour fastness to rubbing (crocking), Grey scale
rate with 10 rubs on dry or wet, Min") |
- |
500 |
|
- |
Cl No.4.5 , Table No. 3 , iv)("Colour fastness to perspiration (contact method)
Grey scale rate, Min") |
- |
500 |
|
- |
Cl No.4.5 , Table No. 3 , v) , a)(Water vapour permeability, mg/cm2h, Min) |
- |
800 |
|
- |
Cl No.4.5 , Table No. 3 , v) , b)("Water vapour coefficient, mg/cm2 , Min
") |
- |
800 |
|
- |
Cl No.4.6 , Table No. 4 , i)(Thickness, mm, Min) |
- |
200 |
|
- |
Cl No.4.6 , Table No. 4 , ii)(Flexing index, Min) |
- |
600 |
|
- |
Cl No.4.6 , Table No. 4 , iii)(Abrasion resistance, at 400 cycles) |
- |
600 |
|
- |
Cl No.4.6 , Table No. 4 , iv) , a)(Water Absorption, mg/cm2 , Min) |
- |
800 |
|
- |
Cl No.4.6 , Table No. 4 , iv) , b)(Water Desorption, percent, Min) |
- |
800 |
|
- |
Cl No.4.7, Table No. 5 , i)(Thickness, mm, Min) |
- |
200 |
|
- |
Cl No.4.7, Table No. 5 , ii)(Abrasion resistance, cycles) |
- |
800 |
|
- |
Cl No.4.7, Table No. 5 , iii) , a)(Water Absorption, mg/cm2 , Min) |
- |
800 |
|
- |
Cl No.4.7, Table No. 5 , iii) , b)(Water Desorption, percent, Min) |
- |
800 |
|
- |
Cl No.4.8 , Table No. 6 , i)(Abrasion resistance (Volume loss), mm3 , Max) |
- |
600 |
|
- |
Cl No.4.8 , Table No. 6 , ii)("Flexing resistance Belt Method at 90 diameter Mandrel
or
Bennewart method, cut growth, Max") |
- |
600 |
|
- |
Cl No.4.8 , Table No. 6 , iii)("Hydrolysis resistance, cut growth after 150 000
flexes, in mm, Max") |
- |
2500 |
|
- |
Cl No.4.9 , Table No. 7 , i)(Compression set, percent, Max) |
- |
500 |
|
- |
Cl No.4.9 , Table No. 7 , ii)(Split tear strength, kg/25 mm, Min) |
- |
450 |
|
- |
Cl No.4.9 , Table No. 7 , iii)(Heat shrinkage, percent, Max) |
- |
800 |
|
- |
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.4.10 , Table No. 8 , iv) , b)(Area shape retention after 10th collapse, dry, percent, Min) |
- |
800 |
|
- |
Cl No.4.11 , Table No. 9 , i)(Peel strength, N/mm, Min) |
- |
500 |
|
- |
Cl No.4.11 , Table No. 9 , ii)(Shear strength, kPa , Min) |
- |
600 |
|
- |
Cl No.4.12 , Table No. 10 , i)(Limit of useful extension, percent, Min) |
- |
800 |
|
- |
Cl No.4.13 , Table No. 11 , i)(Breaking strength of lace, N, Min) |
- |
500 |
|
- |
Cl No.4.13 , Table No. 11 , ii)(Lace tag strength, N, Min) |
- |
500 |
|
- |
Cl No.4.13 , Table No. 11 , iii)(Lace to lace abrasion,) |
- |
800 |
|
- |
Cl No.4.13 , Table No. 11 , iv)("Colour fastness to water
Gray Scale Rate, Min Rating") |
- |
600 |
|
- |
Cl No.4.13 , Table No. 11 , v)(Strength of Buckle/Ski hook, N, Min) |
- |
500 |
|
- |
Cl No.4.13 , Table No. 11 , vi)(Corrosion resistance) |
- |
600 |
|
- |
Cl No . 5(MARKING AND PACKING) |
- |
500 |
|
- |
Cl No . 4.14, Table no. 1 of IS 17011(iv)(Chromium (VI)) |
- |
800 |
|
- |
Cl No . 4.14, Table no. 1 of IS 17011(x)(pH) |
- |
500 |
|
- |
Clause 4.2 - 4.2.1(Construction) |
- |
200 |
|
- |
Clause 4.2 - 4.2.2(Construction) |
- |
200 |
|
- |
Clause 4.3 - 4.3.1(Whole Footwear) |
- |
500 |
|
- |
Clause 4.3 - 4.3.2(Whole Footwear) |
- |
500 |
|
- |
Clause 4.3 - 4.3.3(Upper to Mid Sole/Out Sole Bond Performance) |
- |
500 |
|
- |
Clause 4.3 - 4.3.4(Upper to Composite Sole Bond Performance(Applicable Only When the Sole is Composite)) |
- |
500 |
|
- |
Clause 4.3 - 4.3.5(Out Sole to Mid Sole (Multilayer) Bond) |
- |
500 |
|
- |
Clause 4.3 - 4.3.7(Complete Shoe Flexing) |
- |
640 |
|
- |
Clause 4.4, Table 1 ii)(Tear strength) |
- |
450 |
|
- |
Clause 4.4, Table 1 iv)-a(Water Vapour Permeability) |
- |
800 |
|
- |
Clause 4.5, Table 3 v)-b(Water Vapour Coeffecient) |
- |
800 |
|
- |
Clause 4.4, Table 1 v)(Stitch Tear Strength(Double Hole)) |
- |
450 |
|
- |
Clause 4.4, Table 2 i)(Breaking Strength) |
- |
450 |
|
- |
Clause 4.4, Table 2 ii)(Elongation at break) |
- |
450 |
|
- |
Clause 4.4, Table 2 iii)(Tear strength) |
- |
450 |
|
- |
Clause 4.4, Table 2 v)-a(Water Vapour Permeability) |
- |
800 |
|
- |
Clause 4.4, Table 2 v)-b(Water Vapour Coeffecient) |
- |
800 |
|
- |
Clause 4.5, Table 3 i)(Tear strength) |
- |
450 |
|
- |
Clause 4.5, Table 3 ii)(Abrasion Resistance) |
- |
600 |
|
- |
Clause 4.5, Table 3 v)-a(Water Vapour Permeability) |
- |
800 |
|
- |
Clause 4.6, Table 4 i)(Thickness) |
- |
200 |
|
- |
Clause 4.6, Table 4 ii)(Abrasion Resistance) |
- |
600 |
|
- |
Clause 4.6, Table 4 iv)-a(Water Absorption) |
- |
800 |
|
- |
Clause 4.6, Table 4 iv)-b(Water Desorption) |
- |
800 |
|
- |
Clause 4.8, Table 6 i)(Abrasion Resistance) |
- |
600 |
|
- |
Clause 4.8, Table 6 ii)(Flexing Resistance) |
- |
600 |
|
- |
Clause 4.8, Table 6 iii)(Hydrolysis Resistance) |
- |
2500 |
|
- |
Clause 4.9, Table 7 ii)(Split Tear strength) |
- |
450 |
|
- |
Clause 4.9, Table 7 iii)(Heat shrinkage) |
- |
800 |
|
- |
Clause 4.4, Table 1 iv)-b(Water Vapour Coeffecient) |
- |
800 |
|
- |
Clause 4.7, Table 5 i)(Thickness) |
- |
200 |
|
- |
Clause 4.7, Table 5 iii)-a(Water Absorption) |
- |
800 |
|
- |
Cl No.4.4 , Table No. 2 , i) , b)(Flexing resistance, Wet condition) |
- |
600 |
|
- |
Clause 4.7, Table 5 ii)(Abrasion Resistance) |
- |
800 |
|
- |
Clause 4.7, Table 5 iii)-b(Water Desorption) |
- |
800 |
|
- |
Cl-5, Table -1 S. No-(i) (Amendment No-1)(Insole) |
- |
200 |
|
- |
Cl-5, Table -1 S. No- (ii) (Amendment No-1)(Toe spring height) |
- |
200 |
|
- |
Cl-5, Table -1 S. No- (iii) (Amendment No-1)("Bond performance
(a) Upper to sole/mid sole/composite sole
(b) Interlayer bond strength") |
- |
500 |
|
- |
Cl-5, Table -1 S. No- (iv) (Amendment No-1)(Energy absorption at seat region) |
- |
800 |
|
- |
Cl-5, Table -1 S. No- (v) (Amendment No-1)(Complete shoe flexing) |
- |
640 |
|
- |
Cl-5, Table -1 S. No-(vi) (Amendment No-1)(Washability) |
- |
800 |
|
- |
Cl-5, Table -1 S. No- (vii) (Amendment No-1)(Slip resistance, coefficient of friction (COF),) |
- |
1500 |
|
- |
Cl-5, Table -1 S. No- (viii) (Amendment No-1)("Abrasion resistance
a-Cellular sole
b-Solid sole") |
- |
600 |
|
- |
Cl-5, Table -1 S. No- (xi) (Amendment No-1)(Hydrolysis resistance) |
- |
2500 |
|
- |
Cl-6, Table -2 S. No- (i) (Amendment No-1)(Tear strength) |
- |
450 |
|
- |
Cl-6, Table -2 S. No- (ii) (Amendment No-1)("Colour fastness rubbing
a-Dry: (rubbing)
b-Wet: (rubbing)") |
- |
500 |
|
- |
Cl-6, Table -2 S. No- (iii), a) (Amendment No-1)(Water vapour permeability) |
- |
800 |
|
- |
Cl-6, Table -2 S. No- (iii), b) (Amendment No-1)(Water vapour coefficient) |
- |
800 |
|
- |
Cl-6, Table -2 S. No- (iv),(Amendment No-1)(Stitch tear strength) |
- |
450 |
|
- |
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") |
- |
450 |
|
- |
Cl-6, Table -3 S. No- (iii),(Amendment No-1)("Tear strength, N, Min
a) For fabric
b) For all other materials") |
- |
450 |
|
- |
Cl-6, Table -3 S. No- (iv),(Amendment No-1)("Flexing resistance
a- Dry condition
b-Wet condition") |
- |
600 |
|
- |
Cl-6, Table -3 S. No- (v), a (Amendment No-1)(Water vapour permeability) |
- |
800 |
|
- |
Cl-6, Table -3 S. No- (v), b (Amendment No-1)(Water vapour coefficient) |
- |
800 |
|
- |
Cl-6, Table -3 S. No- (vi), (Amendment No-1)(Hydrolysis resistance) |
- |
2500 |
|
- |
Cl-6, Table -3 S. No- (vii), (Amendment No-1)(Bursting strength) |
- |
800 |
|
- |
Cl-6, Table -4 S. No- (ii),(Amendment No-1)("Abrasion resistance, cycles
a- Dry condition
b-Wet condition") |
- |
600 |
|
- |
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 -4 S. No- (iv),(Amendment No-1)(Colour fastness to perspiration) |
- |
800 |
|
- |
Cl-6, Table -4 S. No- (v), a (Amendment No-1)(Water vapour permeability) |
- |
800 |
|
- |
Cl-6, Table -4 S. No- (v), b (Amendment No-1)(Water vapour coefficient) |
- |
800 |
|
- |
Cl-6, Table -5 S. No- (i), (Amendment No-1)(Thickness, mm, Min) |
- |
200 |
|
- |
Cl-6, Table -5 S. No-(ii), (Amendment No-1)(Flexing index, Min) |
- |
640 |
|
- |
Cl-6, Table -5 S. No-(iii), (Amendment No-1)(Abrasion resistance,) |
- |
600 |
|
- |
Cl-6, Table -5 S. No- (iv), a (Amendment No-1)(Water absorption) |
- |
800 |
|
- |
Cl-6, Table -5 S. No- (iv), b (Amendment No-1)(Water desorption, percent) |
- |
800 |
|
- |
Cl-6, Table -6 S. No- (i), (Amendment No-1)(Thickness, mm, Min) |
- |
200 |
|
- |
Cl-6, Table -6 S. No- (ii), (Amendment No-1)("Abrasion resistance, cycles
a- Dry condition
b-Wet condition") |
- |
600 |
|
- |
Cl-6, Table -6 S. No- (iii),a (Amendment No-1)(Water absorption) |
- |
800 |
|
- |
Cl-6, Table -6 S. No- (iv), b (Amendment No-1)(Water desorption, percent) |
- |
800 |
|
- |
Cl-6, Table -7 S. No- (i), (Amendment No-1)(Flexing resistance (Belt method or Bennewart method)) |
- |
600 |
|
- |
Cl-6, Table -7 S. No- (ii), (Amendment No-1)(Hydrolysis resistance, cut growth after flexes) |
- |
2500 |
|
- |
Cl-6, Table -8 S. No- (i), (Amendment No-1)("Compression set, percent, Max
a) For EVA
b) For all other materials") |
- |
500 |
|
- |
Cl-6, Table -8 S. No- (ii), (Amendment No-1)(Split tear strength) |
- |
450 |
|
- |
Cl-6, Table -8 S. No- (iii), (Amendment No-1)(Heat shrinkage) |
- |
800 |
|
- |
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 -9 S. No- (iv), b (Amendment No-1)(Area shape retention after 10th collapse) |
- |
800 |
|
- |
Cl-6, Table -10 S. No- (i), (Amendment No-1)("Peel strength
a) Initial
b) After 5 000 wear cycles") |
- |
500 |
|
- |
Cl-6, Table -10 S. No- (ii), (Amendment No-1)("Shear strength
a) Initial
b) After 5 000 wear cycles") |
- |
500 |
|
- |
Cl-6, Table -11 S. No- (i), (Amendment No-1)(Limit of useful extension) |
- |
800 |
|
- |
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- (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) |
- |
500 |
|
- |
Cl-6, Table -12 S. No- (vi), (Amendment No-1)(Corrosion resistance) |
- |
600 |
|
- |
Cl-6, Table -4 S. No- (i),(Amendment No-1)(Tear strength, N, Min) |
- |
450 |
|
- |
Cl No.4.1(Sampling and Conditioning) |
- |
500 |
|
- |
Cl No.4.2(Construction) |
- |
300 |
|
- |
Cl No.4.3(Whole Footwear) |
- |
300 |
|
- |
4.3.1(Insole) |
- |
300 |
|
- |
4.3.2(Toe spring height) |
- |
500 |
|
- |
Cl No.4.4 , Table No. 2 , i)(Breaking strength, N/mm, Min) |
- |
500 |
|
- |
Cl No.4.4 , Table No. 2 , vii)(Bursting Strength, kg/cm2 , Min) |
- |
500 |
|
- |
Cl No.4.7, Table No. 5 , ii)(Abrasion resistance, cycles) |
- |
600 |
|
- |
Cl No.4.10 , Table No. 8 , ii)(Resilience, percent, Min) |
- |
500 |
|
- |
Cl No.4.11 , Table No. 9 , ii)(Shear strength, kPa , Min) |
- |
800 |
|
- |
Cl No.4.13 , Table No. 11 , iv)("Colour fastness to water
Gray Scale Rate, Min Rating") |
- |
500 |
|
- |
Cl No . 5(MARKING AND PACKING) |
- |
600 |
|
- |
Clause 4.2 - 4.2.1(Construction) |
- |
500 |
|
- |
Clause 4.2 - 4.2.2(Construction) |
- |
500 |
|
- |
Clause 4.3 - 4.3.1(Whole Footwear) |
- |
600 |
|
- |
Clause 4.3 - 4.3.2(Whole Footwear) |
- |
600 |
|
- |
Clause 4.4, Table 2 i)(Breaking Strength) |
- |
500 |
|
- |
Clause 4.9, Table 7 iii)(Heat shrinkage) |
- |
2000 |
|
- |
Clause 4.7, Table 5 ii)(Abrasion Resistance) |
- |
600 |
|
- |
Cl-5, Table -1 S. No-(i) (Amendment No-1)(Insole) |
- |
500 |
|
- |
Cl-5, Table -1 S. No- (ii) (Amendment No-1)(Toe spring height) |
- |
500 |
|
- |
Cl-5, Table -1 S. No- (iii) (Amendment No-1)("Bond performance
(a) Upper to sole/mid sole/composite sole
(b) Interlayer bond strength") |
- |
500 |
|
- |
Cl-5, Table -1 S. No- (iv) (Amendment No-1)(Energy absorption at seat region) |
- |
800 |
|
- |
Cl-5, Table -1 S. No- (v) (Amendment No-1)(Complete shoe flexing) |
- |
600 |
|
- |
Cl-5, Table -1 S. No- (vii) (Amendment No-1)(Slip resistance, coefficient of friction (COF),) |
- |
1500 |
|
- |
Cl-5, Table -1 S. No- (viii) (Amendment No-1)("Abrasion resistance
a-Cellular sole
b-Solid sole") |
- |
600 |
|
- |
Cl-5, Table -1 S. No- (xi) (Amendment No-1)(Hydrolysis resistance) |
- |
2500 |
|
- |
Cl-6, Table -2 S. No- (i) (Amendment No-1)(Tear strength) |
- |
450 |
|
- |
Cl-6, Table -2 S. No- (ii) (Amendment No-1)("Colour fastness rubbing
a-Dry: (rubbing)
b-Wet: (rubbing)") |
- |
500 |
|
- |
Cl-6, Table -2 S. No- (iii), a) (Amendment No-1)(Water vapour permeability) |
- |
800 |
|
- |
Cl-6, Table -2 S. No- (iii), b) (Amendment No-1)(Water vapour coefficient) |
- |
800 |
|
- |
Cl-6, Table -2 S. No- (iv),(Amendment No-1)(Stitch tear strength) |
- |
450 |
|
- |
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") |
- |
450 |
|
- |
Cl-6, Table -3 S. No- (iii),(Amendment No-1)("Tear strength, N, Min
a) For fabric
b) For all other materials") |
- |
450 |
|
- |
Cl-6, Table -3 S. No- (iv),(Amendment No-1)("Flexing resistance
a- Dry condition
b-Wet condition") |
- |
600 |
|
- |
Cl-6, Table -3 S. No- (v), a (Amendment No-1)(Water vapour permeability) |
- |
800 |
|
- |
Cl-6, Table -3 S. No- (v), b (Amendment No-1)(Water vapour coefficient) |
- |
800 |
|
- |
Cl-6, Table -3 S. No- (vi), (Amendment No-1)(Hydrolysis resistance) |
- |
2500 |
|
- |
Cl-6, Table -3 S. No- (vii), (Amendment No-1)(Bursting strength) |
- |
600 |
|
- |
Cl-6, Table -4 S. No- (ii),(Amendment No-1)("Abrasion resistance, cycles
a- Dry condition
b-Wet condition") |
- |
600 |
|
- |
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 -4 S. No- (iv),(Amendment No-1)(Colour fastness to perspiration) |
- |
600 |
|
- |
Cl-6, Table -4 S. No- (v), a (Amendment No-1)(Water vapour permeability) |
- |
800 |
|
- |
Cl-6, Table -4 S. No- (v), b (Amendment No-1)(Water vapour coefficient) |
- |
800 |
|
- |
Cl-6, Table -5 S. No- (i), (Amendment No-1)(Thickness, mm, Min) |
- |
200 |
|
- |
Cl-6, Table -5 S. No-(ii), (Amendment No-1)(Flexing index, Min) |
- |
600 |
|
- |
Cl-6, Table -5 S. No-(iii), (Amendment No-1)(Abrasion resistance,) |
- |
600 |
|
- |
Cl-6, Table -5 S. No- (iv), a (Amendment No-1)(Water absorption) |
- |
800 |
|
- |
Cl-6, Table -5 S. No- (iv), b (Amendment No-1)(Water desorption, percent) |
- |
800 |
|
- |
Cl-6, Table -6 S. No- (i), (Amendment No-1)(Thickness, mm, Min) |
- |
200 |
|
- |
Cl-6, Table -6 S. No- (ii), (Amendment No-1)("Abrasion resistance, cycles
a- Dry condition
b-Wet condition") |
- |
600 |
|
- |
Cl-6, Table -6 S. No- (iii),a (Amendment No-1)(Water absorption) |
- |
800 |
|
- |
Cl-6, Table -6 S. No- (iv), b (Amendment No-1)(Water desorption, percent) |
- |
800 |
|
- |
Cl-6, Table -7 S. No- (i), (Amendment No-1)(Flexing resistance (Belt method or Bennewart method)) |
- |
600 |
|
- |
Cl-6, Table -7 S. No- (ii), (Amendment No-1)(Hydrolysis resistance, cut growth after flexes) |
- |
2500 |
|
- |
Cl-6, Table -8 S. No- (i), (Amendment No-1)("Compression set, percent, Max
a) For EVA
b) For all other materials") |
- |
500 |
|
- |
Cl-6, Table -8 S. No- (ii), (Amendment No-1)(Split tear strength) |
- |
450 |
|
- |
Cl-6, Table -8 S. No- (iii), (Amendment No-1)(Heat shrinkage) |
- |
800 |
|
- |
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 -9 S. No- (iv), b (Amendment No-1)(Area shape retention after 10th collapse) |
- |
800 |
|
- |
Cl-6, Table -10 S. No- (i), (Amendment No-1)("Peel strength
a) Initial
b) After 5 000 wear cycles") |
- |
500 |
|
- |
Cl-6, Table -10 S. No- (ii), (Amendment No-1)("Shear strength
a) Initial
b) After 5 000 wear cycles") |
- |
800 |
|
- |
Cl-6, Table -11 S. No- (i), (Amendment No-1)(Limit of useful extension) |
- |
800 |
|
- |
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) |
- |
600 |
|
- |
Cl-6, Table -12 S. No (v), (Amendment No-1)(Strength of buckle/ski hook) |
- |
500 |
|
- |
Cl-6, Table -12 S. No- (vi), (Amendment No-1)(Corrosion resistance) |
- |
800 |
|
- |
Cl-6, Table -4 S. No- (i),(Amendment No-1)(Tear strength, N, Min) |
- |
450 |
|
- |
Cl-6, Table -12 S. No- (iv), (Amendment No-1)(Colour fastness to water (for lace) (contact method)) |
- |
600 |
|
- |
Cl-6, Table -12 S. No- (iv), (Amendment No-1)(Colour fastness to water (for lace) (contact method)) |
- |
600 |
|
- |
Cl No.4.3(Whole Footwear) |
- |
640 |
|
- |
Cl No.4.4 , Table No. 2 , v)(Stitch tear strength (double hole), N/mm, Min) |
- |
600 |
|
- |
Cl No.4.5 , Table No. 3 , iv)("Colour fastness to perspiration (contact method)
Grey scale rate, Min") |
- |
600 |
|
- |
Cl No.4.6 , Table No. 4 , iii)(Abrasion resistance, at 400 cycles) |
- |
500 |
|
- |
Cl No.4.9 , Table No. 7 , iii)(Heat shrinkage, percent, Max) |
- |
1200 |
|
- |
Cl No.4.10 , Table No. 8 , ii)(Resilience, percent, Min) |
- |
400 |
|
- |
Cl No.4.10 , Table No. 8 , iii)(Moisture resistance, percent, Min) |
- |
600 |
|
- |
Cl No.4.12 , Table No. 10 , i)(Limit of useful extension, percent, Min) |
- |
600 |
|
- |
Cl No.4.13 , Table No. 11 , i)(Breaking strength of lace, N, Min) |
- |
450 |
|
- |
Cl No.4.13 , Table No. 11 , iii)(Lace to lace abrasion,) |
- |
600 |
|
- |
Cl No . 5(MARKING AND PACKING) |
- |
200 |
|
- |
Clause 4.3 - 4.3.1(Whole Footwear) |
- |
640 |
|
- |
Clause 4.3 - 4.3.2(Whole Footwear) |
- |
640 |
|
- |
Clause 4.4, Table 1 v)(Stitch Tear Strength(Double Hole)) |
- |
600 |
|
- |
Clause 4.9, Table 7 iii)(Heat shrinkage) |
- |
1200 |
|
- |
Cl No.4.4 , Table No. 2 , i) , b)(Flexing resistance, Wet condition) |
- |
800 |
|
- |
Cl-5, Table -1 S. No-(i) (Amendment No-1)(Insole) |
- |
200 |
|
- |
Cl-5, Table -1 S. No- (ii) (Amendment No-1)(Toe spring height) |
- |
200 |
|
- |
Cl-5, Table -1 S. No- (v) (Amendment No-1)(Complete shoe flexing) |
- |
640 |
|
- |
Cl-6, Table -2 S. No- (iv),(Amendment No-1)(Stitch tear strength) |
- |
600 |
|
- |
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) |
- |
600 |
|
- |
Cl-6, Table -8 S. No- (iii), (Amendment No-1)(Heat shrinkage) |
- |
1200 |
|
- |
Cl-6, Table -10 S. No- (ii), (Amendment No-1)("Shear strength
a) Initial
b) After 5 000 wear cycles") |
- |
600 |
|
- |
Cl-6, Table -12 S. No- (i), (Amendment No-1)(Breaking strength of lace) |
- |
450 |
|
- |
Cl-6, Table -12 S. No- (vi), (Amendment No-1)(Corrosion resistance) |
- |
600 |
|
- |
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- (iv), (Amendment No-1)(Colour fastness to water (for lace) (contact method)) |
- |
500 |
|
- |
|
02 Sep, 2027 |
- Exclusion: Table-1 (vi), Table-1 (ix), Table-2 (v) & Table-1 (x)- Chemical Requirement, Table 1 xii Lead |
8 |
IS 17043 : Part 2 (2024) |
Shoes: Shoes for General Purpose |
- |
15000 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
Cl-5.1(Shape and Design) |
- |
200 |
|
- |
Cl-5.3(Material) |
- |
200 |
|
- |
Cl-5.4, Table-1 (i)(Bond strength, N/mm, Min Upper to outsole, N/mm, Min) |
- |
500 |
|
- |
Cl-5.4, Table-1 (ii)(Inter layer bond strength,= N/mm, Min Midsole to outsole, N/mm, Min) |
- |
500 |
|
- |
Cl-5.4, Table-1 (iii)(Whole shoe flexing, flexes) |
- |
600 |
|
- |
Cl-5.4, Table-1 (iv)(Water proofness on complete shoe) |
- |
800 |
|
- |
Cl-5.4, Table-1 (v)(Slip resistance, Cof(1), Min dry and wet* (quarry tile)) |
- |
1500 |
|
- |
Cl-5.4, Table-1 (vi)(Attachment strength of strap and buckle/D-ring N) |
- |
500 |
|
- |
Cl-5.4, Table-1 (vii)(Attachment strength of strap and velcro , N, Min) |
- |
500 |
|
- |
Cl-5.4, Table-1 (viii)(Strength of eyelet attachment, N, Min) |
- |
500 |
|
- |
Cl-5.4, Table-1 (ix)(Heel pull off strength, N, Min) |
- |
800 |
|
- |
Cl-5.4, Table-1 (x)(Top piece attachment strength, N, Min) |
- |
500 |
|
- |
Cl-5.4, Table-1 (xi)(Seam strength, N/mm, Min) |
- |
500 |
|
- |
Cl-5.4, Table-1 (xii)(Whole shoe topline strength, N, Min) |
- |
500 |
|
- |
Cl-5.4, Table-1 (xiii)(Abrasion resistance (volume loss), mm3) |
- |
600 |
|
- |
Cl-5.4, Table-1 (xvi)(Hydrolysis resistance,(4) cut growth at 150 000 flexes, mm, Max) |
- |
2500 |
|
- |
Cl-6.1.1, Table-2 (i)(Tear trength, N) |
- |
450 |
|
- |
Cl-6.1.1, Table-2 (ii)(Flexing resistance, flexes) |
- |
600 |
|
- |
Cl-6.1.1, Table-2 (iii)(Colour fastness to rubbing (marring/staining)) |
- |
500 |
|
- |
Cl-6.1.1, Table-2 (iv)(Colour fastness to water (contact method- multi fabrics)) |
- |
600 |
|
- |
Cl-6.1.1, Table-2 (v)(Water vapour permeability,mg/cm2 /h, Min Water vapour coefficient,mg/cm2 , Min) |
- |
800 |
|
- |
Cl-6.1.1, Table-2 (vi)(Stitch tear strength, N/mm, Min) |
- |
500 |
|
- |
Cl-6.1.1, Table-2 (vii)(Abrasion resistance) |
- |
600 |
|
- |
Cl-6.1.2, Table-3 (ii)(Water resistance) |
- |
800 |
|
- |
Cl-6.1.2, Table-3 (iii)(Flexing resistance, flexes at (-) 5 °C 25 000 flexes) |
- |
800 |
|
- |
Cl-6.1.3, Table- 4 (i)(Breaking strength, N/mm, Min Elongation at break, percent, Min) |
- |
450 |
|
- |
Cl-6.1.3, Table- 4 (ii)(Tear Strength, N, Min) |
- |
450 |
|
- |
Cl-6.1.3, Table- 4 (iii)(Strength at needle perforation, N/mm, Min) |
- |
500 |
|
- |
Cl-6.1.3, Table- 4 (iv)(Flexing resistance, Flexes) |
- |
600 |
|
- |
Cl-6.1.3, Table- 4 (v)(Water vapour permeability (WVP), mg/cm2 /h, Min) |
- |
800 |
|
- |
Cl-6.1.3, Table- 4 (vi)(Hydrolysis resistance) |
- |
2500 |
|
- |
Cl-6.1.3, Table- 4 (vii)(Abrasion resistance) |
- |
600 |
|
- |
Cl-6.1.4, Table- 5 (ii)(Flexing resistance, flexes at (-) 5 ºC, s 25 000 flexes) |
- |
800 |
|
- |
Cl-6.2, Table-6 (i)(Tear strength, N, Min) |
- |
450 |
|
- |
Cl-6.2, Table-6 (ii)(Abrasion resistance) |
- |
600 |
|
- |
Cl-6.2, Table-6 (iii)(Colour fastness rubbing (crocking)) |
- |
600 |
|
- |
Cl-6.2, Table-6 (iv)(Colour fastness to perspiration) |
- |
600 |
|
- |
Cl-6.2, Table-6 (v)(Water vapour permeability, mg/cm2 /h, Min Water vapour coefficient, mg/cm2, Min) |
- |
800 |
|
- |
Cl-6.3, Table-7 (i)(Flexing index, Min) |
- |
800 |
|
- |
Cl-6.3, Table-7 (ii)(Abrasion resistance at 400 cycles) |
- |
500 |
|
- |
Cl-6.3, Table-7 (iii)(Water absorption, mg/cm2 , Min
Water desorption, percent, Min) |
- |
800 |
|
- |
Cl-6.4, Table-8 (i)(Thickness, mm, Min) |
- |
200 |
|
- |
Cl-6.4, Table-8 (ii)(Abrasion resistance) |
- |
600 |
|
- |
Cl-6.4, Table-8 (iii)(Water absorption, mg/cm2 , Min
Water desorption, percent, Min) |
- |
800 |
|
- |
Cl-6.5.1, , Table-9 (i)(Flexing resistance) |
- |
600 |
|
- |
Cl-6.5.1, , Table-9 (ii)(Hydrolysis resistance, cut growth at 150 000 flexes, mm, Max) |
- |
2500 |
|
- |
Cl-6.5.1, , Table-9 (iii)(Compression set, percent, Max) |
- |
500 |
|
- |
Cl-6.5.2.1, Table-10 (i)(Grain crack index, Min) |
- |
400 |
|
- |
Cl-6.5.2.1, Table-10 (ii)(Density, g/cm3 , Min) |
- |
200 |
|
- |
Cl-6.5.2.1, Table-10 (iii)(Abrasion resistance, mm/kcs, Max) |
- |
600 |
|
- |
Cl-6.5.2.2, Table-11 (i)(Water resistance, (dynamic method)) |
- |
800 |
|
- |
Cl-6.5.2.3, Table-12 (i)(Hardness, Min) |
- |
200 |
|
- |
Cl-6.5.2.3, Table-12 (ii)(Density, g/cm3 , Max) |
- |
200 |
|
- |
Cl-6.5.2.3, Table-12 (iii)(Abrasion resistance (volume loss), mm3 , Max) |
- |
600 |
|
- |
Cl-6.5.2.3, Table-12 (iv)(Bond Strength between Rubber top-lift and adjacent material, N/mm, Min) |
- |
500 |
|
- |
Cl-6.6, Table-13 (i)(Heat shrinkage, percent, Max) |
- |
1200 |
|
- |
Cl-6.6, Table-13 (ii)(Split tear strength, kg/25 mm, Min) |
- |
450 |
|
- |
Cl-6.6, Table-13 (iii)(Compression set, percent, Max) |
- |
500 |
|
- |
Cl-6.7, Table-14 (i)(Hardness, N) |
- |
200 |
|
- |
Cl-6.7, Table-14 (ii)(Resilience, percent) |
- |
800 |
|
- |
Cl-6.7, Table-14 (iii)(Moisture resistance, percent) |
- |
800 |
|
- |
Cl-6.10, Table-17 (i)(Lace breaking strength, N, Min) |
- |
500 |
|
- |
Cl-6.10, Table-17 (ii)(Lace tag strength, N, Min) |
- |
500 |
|
- |
Cl-6.10, Table-17 (iii)(Lace to lace abrasion resistance, cycles) |
- |
800 |
|
- |
Cl-6.10, Table-17 (iv)(Colour fastness to water for lace contact methodstaining Gray scale rate , Min) |
- |
500 |
|
- |
Cl-6.10, Table-17 (v)(Corrosion resistance) |
- |
600 |
|
- |
Cl-6.11, Table-18 (i)(Fatigue resistance, cycles, Min) |
- |
600 |
|
- |
Cl-6.11, Table-18 (ii)(Security of puller attachment strength, N, Min) |
- |
500 |
|
- |
Cl-6.11, Table-18 (iii)(Lateral load, N, Min) |
- |
500 |
|
- |
Cl-6.11, Table-18 (iv)(End attachment strength, N, Min) |
- |
500 |
|
- |
Cl-8.1(Marking) |
- |
200 |
|
- |
Cl-6.7, Table-14 (iv)(Area shape retention, percent
(a) Initial, Min
b) After 10 collapsing load, Min) |
- |
800 |
|
- |
Cl-6.7, Table-14 (v)(Adhesion strength, N/mm) |
- |
500 |
|
- |
Cl-6.8, Table-15 (i)(Peel strength, N/mm
a) Initial, Min
b) After 5 000 wear cycles, Min) |
- |
500 |
|
- |
Cl- 6.8, Table-15 (ii)(a) Shear strength, kPa
b) Initial, Min) |
- |
600 |
|
- |
Cl- 6.9, Table-16 (i)(Limit of useful extension, percent,
Min) |
- |
800 |
|
- |
Cl- 6.9, Table-16 (ii)(Needle strength, N/mm, Min) |
- |
500 |
|
- |
|
02 Sep, 2027 |
- Included w.e.f.29.05.2025
Exclusion
Cl-5.4, Table-1 (xiv) (Chemical requirements(3))
Cl-5.4, Table-1 (xv) (Lead content (as Pb) ppm, Max)
Cl-6.1.2, Table-3 (i) (Colour fastness to light, Marring, Min)
Cl-6.1.4, Table-5 (i) (Colour fastness to light, Marring, Min)
Cl-5.4, Table-1 (xiv) (Chemical requirements(3)) |