| Cl.5.2.5 Compact Sole Heel
Cl.5.2.5.1 IS 3400 (Part 2)(requirements prescribed in col 3 of Table 2 when tested
as per corresponding test methods prescribed in col 4
of Table 2.
i)i) Hardness (IRHD) |
- |
150 |
|
- |
| Cl.6.3 Tear Strength of Compact Outsole(
When outsoles are tested in accordance to 8.2 of
IS 15298 (Part 1), the tear strength shall be not less
than 8 kN/m for material having density higher
than 0.9/cm³ and when density of material is less than
or equal to 0.9 g/cm³, tear strength shall not be less
than 5 kN/m.) |
- |
400 |
|
- |
| Cl.5.2.3 Coated Binding Material
IS 1954(
Coated binding materials shall conform to the
requirements given in col 3 of Table 1 when tested
according to the methods prescribed in col 4 of Table 1.
i)Width in mm,
) |
- |
200 |
|
- |
| Cl.5.2.1.4 ( Type 2 footwear, the composite upper
material shall comply with requirements of water coefficient as prescribed
in 5.4.6 of IS 15298 (Part 2).) |
- |
200 |
|
- |
| Cl.5.13 Energy Absorption Test(When footwear is tested in accordance with the method
prescribed in 5.14 of IS 15298 (Part 1), the energy
absorption of the seat region shall not be less than 20 J.) |
- |
500 |
|
- |
| Cl.5.2.3 Coated Binding Material
Annex C(ii) Breaking load in N, Min (50 cm grip length test specimen) ) |
- |
0 |
|
- |
| Cl.5.2.1.4 ( Type 2 footwear, the composite upper
material shall comply with requirements of water
vapour permeability as prescribed
in 5.4.6 of IS 15298 (Part 2).) |
- |
0 |
|
- |
| CL.5.2.10 Counter Stiffener(
A counter stiffener, made out of textile reinforced withpolymer/rubber including (thermoplastic) having
thickness not less than 1.5 mm is to be stitched at inside
of upper so as to fortify the back of the footwear at
joints of quarter.) |
- |
150 |
|
- |
| Cl.5.1.1 Fittings(Fittings of the footwear shall be in conformity to Table 9
of IS 1638 (measurement of men’s lasts) and Table 8
of IS 1638 (measurement of women’s lasts).) |
- |
150 |
|
- |
| Cl.5.2.1 Upper
Cl.5.2.1.1
IS 3400(Part 5)( Composite upper material shall comply with consolidation test as per 5.10.(IS 3400 (Part 5). There shall be no separation at a load
of 1.5 kg.)) |
- |
150 |
|
- |
| Cl.5.2.2 Compact Insole/Compact Insocks/Counter
Stiffener Lining(Textile material shall be used as lining material for
compact insole/compact insocks / counter stiffener. It
shall meet the requirement of tear strength as prescribed
in 5.6.1 of IS 15298 (Part 2).) |
- |
400 |
|
- |
| Cl.5.2.5 Compact Sole Heel
Cl. 5.2.5.1
(The compact sole heel shall be made out
of polymeric/rubber components and the typical design
recommendation (not mandatory) of compact sole heel
is as shown in Fig. 3. Sectional view of Type 1/Type 2
)
toe position is given in Fig. 4.) |
- |
0 |
|
- |
| Cl.5.2.5 Compact Sole Heel
5.2.5.1 IS 3400 (Part 4)(ii)*Change in hardness after
accelerated ageing at 100 ± 2
°C for 24 h
) |
- |
0 |
|
- |
| Cl.5.2.5.3 Ageing for whole footwear(When rubber is used for manufacturing boots or when
the outer sole heel is made of bi-polymer, the finished
boots shall be aged at 100 ± 2°C for 24 h. On completion of test, all rubber components shall not
develop any sign of tackiness or brittleness.) |
- |
300 |
|
- |
| Cl.5.2.5.4 Thickness of compact sole hee(Thickness of compact sole heel of the boots shall
comply with the thickness and material requirements
prescribed in Table 3.) |
- |
150 |
|
- |
| Cl.5.2.5.4 Thickness of compact sole hee(of black cotton thread, the same shall be free from
sulphur dyes when tested in accordance with
Annex B.) |
- |
0 |
|
- |
| Cl.5.2.6 Thread for Upper Closing(
The length (m/kg) and construction of sewing thread
shall conform to requirements as prescribed in
Table 4.) |
- |
150 |
|
- |
| Cl.5.2.7 Safety Toe Cap(Safety toe cap as per 3.6 shall be fitted into the footwear and must not come out while in use.) |
- |
300 |
|
- |
| Cl.5.2.8.3( In case of cotton lace of black colour, the same
shall be free from sulphur dyes when tested in
accordance with Annex B. Two ends of the laces shall
be provided with plastic tips.) |
- |
200 |
|
- |
| Cl.5.2.9 Eyelets(
Aluminum eyelets of external collar diameter not less
than 10 mm and wall thickness of 0.30 to 0.35 mm
shall be used.) |
- |
150 |
|
- |
| Cl.5.4 Finish(
In appearance, general workmanship and in all other
respects with regard to finish and get up of the footwear,
the footwear shall be matching to the approved sample
of the purchaser.) |
- |
100 |
|
- |
| Cl.5.5 Mass(The mass of one pair of finished footwear of size 8
shall not exceed 1 500 g for Type 1 and 1 400 g for
Type 2 with an increase or decrease of 100 g for each
bigger or smaller size, respectively.) |
- |
100 |
|
- |
| Cl.5.6( Height of Upper
Height of upper of the boots shall conform to column 5
(Design C) and column 4 (Design B) of 5.2.2, Table 4
of IS 15298 (Part 2) for Type 1 and Type 2, respectively
when measured as per 6.2 of IS 15298 (Part 1) on the
inside of the back of the footwear and from seat of the
insole to top edge of the upper.) |
- |
100 |
|
- |
| Cl.5.7 Performance Test(When safety footwear is tested in accordance with the
method described in 5.4 of IS 15298 (Part 1), at an
impact energy of (200 ± 4) J, the clearance under the
toecap at the moment of impact shall be in accordance
with Table 5. In addition, the toecap shall not develop
any cracks which go through the material, that is,
through which light can be seen.) |
- |
700 |
|
- |
| Cl.5.8 Upper/Outsole Bond Strength(When the footwear is tested in accordance with the
method prescribed in 5.2 of IS 15298 (Part 1), the bond
strength shall not be less than 4.0 N/mm, unless there
is tearing of the sole in which case the bond strength
shall not be less than 3.0 N/mm.) |
- |
500 |
|
- |
| Cl.5.9 Sole Interlayer Bond Strength for Bi-polymer(
and Bi-density Sole
When tested in accordance with 5.2 of IS 15298 (Part 1),
the bond strength between the outer or cleated layer
and the adjacent layer shall not be less than 4.0 N/mm
unless there is tearing of any part of the sole, in which
case the bond strength shall not be less than 3.0 N/mm.) |
- |
500 |
|
- |
| Cl.5.10 Consolidation Test(
Representative sample of width 25 ± 0.5 mm are cut
out from the quarter of the upper along the length of
boot. The plies are separated by breaking the bond.
Carry out the test on two specimens in accordance with
IS 3400 (Part 5). Th) |
- |
400 |
|
- |
| Cl.5.11 Compression Resistance(
5.11.1 When safety boots are tested in accordance
with 5.5 of IS 15298 (Part 1), the clearance under the
toe cap at a compression load of 15 kN ± 0.1 kN shall
be in accordance with Table 5.) |
- |
300 |
|
- |
| Cl.5.12 Internal Length of Toe Cap(
For safety boots, internal length of the toe cap shall
meet the specification given in Table 5 of IS 15298
(Part 2) when tested as per 5.3 of IS 15298 (Part 1).) |
- |
200 |
|
- |
| Cl.6.1 Abrasion Resistance of Compact Outsole(
When outsole is tested in accordance with 8.3 of
IS 15298 (Part 1), the relative volume loss shall not
be greater than 250 mm³ for materials having density
0.9 g/cm³ or less, and not greater than 150 mm³ for
materials with density greater than 0.9 g/cm³.) |
- |
200 |
|
- |
| Cl.6.2 Flexing Resistance of Compact Outsole(
When outsole is tested in accordance with 8.4 of
IS 15298 (Part 1), the cut growth shall not be greater
than 4 mm before 30 000 cycles.) |
- |
300 |
|
- |
| Cl.6.4 Resistance to Hot Contact( — Sole Heel
When sole heel is tested in accordance with 8.7 of IS 15298 (Part 1), the material shall not melt/deform
and shall not develop any cracks when bent around the
mandrel.) |
- |
300 |
|
- |
| Cl.6.5 Hydrolysis(
When bottom sole or other components are made out
of polyurethane, the same shall be tested in accordance
with 8.5 of IS 15298 (Part 1) and the same shall comply
with 5.8.5 of IS 15298 (Part 2).) |
- |
400 |
|
- |
| Cl.5.2.5 Compact Sole Heel
Cl.5.2.5.1 IS 3400 (Part 2)(requirements prescribed in col 3 of Table 2 when tested
as per corresponding test methods prescribed in col 4
of Table 2.
i)i) Hardness (IRHD) |
- |
0 |
|
- |
| Cl.6.3 Tear Strength of Compact Outsole(
When outsoles are tested in accordance to 8.2 of
IS 15298 (Part 1), the tear strength shall be not less
than 8 kN/m for material having density higher
than 0.9/cm³ and when density of material is less than
or equal to 0.9 g/cm³, tear strength shall not be less
than 5 kN/m.) |
- |
0 |
|
- |
| Cl.5.2.3 Coated Binding Material
IS 1954(
Coated binding materials shall conform to the
requirements given in col 3 of Table 1 when tested
according to the methods prescribed in col 4 of Table 1.
i)Width in mm,
) |
- |
0 |
|
- |
| Cl.5.2.1.4 ( Type 2 footwear, the composite upper
material shall comply with requirements of water coefficient as prescribed
in 5.4.6 of IS 15298 (Part 2).) |
- |
0 |
|
- |
| Cl.5.13 Energy Absorption Test(When footwear is tested in accordance with the method
prescribed in 5.14 of IS 15298 (Part 1), the energy
absorption of the seat region shall not be less than 20 J.) |
- |
0 |
|
- |
| Cl.5.2.3 Coated Binding Material
Annex C(ii) Breaking load in N, Min (50 cm grip length test specimen) ) |
- |
0 |
|
- |
| Cl.5.2.1.4 ( Type 2 footwear, the composite upper
material shall comply with requirements of water
vapour permeability as prescribed
in 5.4.6 of IS 15298 (Part 2).) |
- |
0 |
|
- |
| CL.5.2.10 Counter Stiffener(
A counter stiffener, made out of textile reinforced withpolymer/rubber including (thermoplastic) having
thickness not less than 1.5 mm is to be stitched at inside
of upper so as to fortify the back of the footwear at
joints of quarter.) |
- |
0 |
|
- |
| Cl.5.1.1 Fittings(Fittings of the footwear shall be in conformity to Table 9
of IS 1638 (measurement of men’s lasts) and Table 8
of IS 1638 (measurement of women’s lasts).) |
- |
0 |
|
- |
| Cl.5.2.1 Upper
Cl.5.2.1.1
IS 3400(Part 5)( Composite upper material shall comply with consolidation test as per 5.10.(IS 3400 (Part 5). There shall be no separation at a load
of 1.5 kg.)) |
- |
0 |
|
- |
| Cl.5.2.5.3 Ageing for whole footwear(When rubber is used for manufacturing boots or when
the outer sole heel is made of bi-polymer, the finished
boots shall be aged at 100 ± 2°C for 24 h. On completion of test, all rubber components shall not
develop any sign of tackiness or brittleness.) |
- |
0 |
|
- |
| Cl.5.2.5 Compact Sole Heel
5.2.5.1 IS 3400 (Part 4)(ii)*Change in hardness after
accelerated ageing at 100 ± 2
°C for 24 h
) |
- |
0 |
|
- |
| Cl.5.2.5 Compact Sole Heel
Cl. 5.2.5.1
(The compact sole heel shall be made out
of polymeric/rubber components and the typical design
recommendation (not mandatory) of compact sole heel
is as shown in Fig. 3. Sectional view of Type 1/Type 2
)
toe position is given in Fig. 4.) |
- |
0 |
|
- |
| Cl.5.2.2 Compact Insole/Compact Insocks/Counter
Stiffener Lining(Textile material shall be used as lining material for
compact insole/compact insocks / counter stiffener. It
shall meet the requirement of tear strength as prescribed
in 5.6.1 of IS 15298 (Part 2).) |
- |
0 |
|
- |
| Cl.5.2.5.4 Thickness of compact sole hee(Thickness of compact sole heel of the boots shall
comply with the thickness and material requirements
prescribed in Table 3.) |
- |
0 |
|
- |
| Cl.5.2.5.4 Thickness of compact sole hee(of black cotton thread, the same shall be free from
sulphur dyes when tested in accordance with
Annex B.) |
- |
0 |
|
- |
| Cl.5.2.6 Thread for Upper Closing(
The length (m/kg) and construction of sewing thread
shall conform to requirements as prescribed in
Table 4.) |
- |
0 |
|
- |
| Cl.5.2.7 Safety Toe Cap(Safety toe cap as per 3.6 shall be fitted into the footwear and must not come out while in use.) |
- |
0 |
|
- |
| Cl.5.2.8.1( The boots shall be provided with laces having minimum length of 115 cm for Type 1 and minimum
100 cm for Type 2.) |
- |
200 |
|
- |
| Cl.5.2.8.2 (Minimum breaking load of 60 kg is to be
achieved when tested between 18 cm grip length in
accordance with Annex C.) |
- |
200 |
|
- |
| Cl.5.2.8.3( In case of cotton lace of black colour, the same
shall be free from sulphur dyes when tested in
accordance with Annex B. Two ends of the laces shall
be provided with plastic tips.) |
- |
0 |
|
- |
| Cl.5.2.9 Eyelets(
Aluminum eyelets of external collar diameter not less
than 10 mm and wall thickness of 0.30 to 0.35 mm
shall be used.) |
- |
0 |
|
- |
| Cl.5.4 Finish(
In appearance, general workmanship and in all other
respects with regard to finish and get up of the footwear,
the footwear shall be matching to the approved sample
of the purchaser.) |
- |
0 |
|
- |
| Cl.5.5 Mass(The mass of one pair of finished footwear of size 8
shall not exceed 1 500 g for Type 1 and 1 400 g for
Type 2 with an increase or decrease of 100 g for each
bigger or smaller size, respectively.) |
- |
0 |
|
- |
| Cl.5.6( Height of Upper
Height of upper of the boots shall conform to column 5
(Design C) and column 4 (Design B) of 5.2.2, Table 4
of IS 15298 (Part 2) for Type 1 and Type 2, respectively
when measured as per 6.2 of IS 15298 (Part 1) on the
inside of the back of the footwear and from seat of the
insole to top edge of the upper.) |
- |
0 |
|
- |
| Cl.5.7 Performance Test(When safety footwear is tested in accordance with the
method described in 5.4 of IS 15298 (Part 1), at an
impact energy of (200 ± 4) J, the clearance under the
toecap at the moment of impact shall be in accordance
with Table 5. In addition, the toecap shall not develop
any cracks which go through the material, that is,
through which light can be seen.) |
- |
0 |
|
- |
| Cl.5.8 Upper/Outsole Bond Strength(When the footwear is tested in accordance with the
method prescribed in 5.2 of IS 15298 (Part 1), the bond
strength shall not be less than 4.0 N/mm, unless there
is tearing of the sole in which case the bond strength
shall not be less than 3.0 N/mm.) |
- |
0 |
|
- |
| Cl.5.9 Sole Interlayer Bond Strength for Bi-polymer(
and Bi-density Sole
When tested in accordance with 5.2 of IS 15298 (Part 1),
the bond strength between the outer or cleated layer
and the adjacent layer shall not be less than 4.0 N/mm
unless there is tearing of any part of the sole, in which
case the bond strength shall not be less than 3.0 N/mm.) |
- |
0 |
|
- |
| Cl.5.10 Consolidation Test(
Representative sample of width 25 ± 0.5 mm are cut
out from the quarter of the upper along the length of
boot. The plies are separated by breaking the bond.
Carry out the test on two specimens in accordance with
IS 3400 (Part 5). Th) |
- |
0 |
|
- |
| Cl.5.11 Compression Resistance(
5.11.1 When safety boots are tested in accordance
with 5.5 of IS 15298 (Part 1), the clearance under the
toe cap at a compression load of 15 kN ± 0.1 kN shall
be in accordance with Table 5.) |
- |
0 |
|
- |
| Cl.5.12 Internal Length of Toe Cap(
For safety boots, internal length of the toe cap shall
meet the specification given in Table 5 of IS 15298
(Part 2) when tested as per 5.3 of IS 15298 (Part 1).) |
- |
0 |
|
- |
| Cl.6.1 Abrasion Resistance of Compact Outsole(
When outsole is tested in accordance with 8.3 of
IS 15298 (Part 1), the relative volume loss shall not
be greater than 250 mm³ for materials having density
0.9 g/cm³ or less, and not greater than 150 mm³ for
materials with density greater than 0.9 g/cm³.) |
- |
0 |
|
- |
| Cl.6.2 Flexing Resistance of Compact Outsole(
When outsole is tested in accordance with 8.4 of
IS 15298 (Part 1), the cut growth shall not be greater
than 4 mm before 30 000 cycles.) |
- |
0 |
|
- |
| Cl.6.4 Resistance to Hot Contact( — Sole Heel
When sole heel is tested in accordance with 8.7 of IS 15298 (Part 1), the material shall not melt/deform
and shall not develop any cracks when bent around the
mandrel.) |
- |
0 |
|
- |
| Cl.6.5 Hydrolysis(
When bottom sole or other components are made out
of polyurethane, the same shall be tested in accordance
with 8.5 of IS 15298 (Part 1) and the same shall comply
with 5.8.5 of IS 15298 (Part 2).) |
- |
0 |
|
- |
| Cl.5.2.5 Compact Sole Heel
Cl.5.2.5.1 IS 3400 (Part 2)(requirements prescribed in col 3 of Table 2 when tested
as per corresponding test methods prescribed in col 4
of Table 2.
i)i) Hardness (IRHD) |
- |
0 |
|
- |
| Cl.6.3 Tear Strength of Compact Outsole(
When outsoles are tested in accordance to 8.2 of
IS 15298 (Part 1), the tear strength shall be not less
than 8 kN/m for material having density higher
than 0.9/cm³ and when density of material is less than
or equal to 0.9 g/cm³, tear strength shall not be less
than 5 kN/m.) |
- |
0 |
|
- |
| Cl.5.2.3 Coated Binding Material
IS 1954(
Coated binding materials shall conform to the
requirements given in col 3 of Table 1 when tested
according to the methods prescribed in col 4 of Table 1.
i)Width in mm,
) |
- |
0 |
|
- |
| Cl.5.2.1.4 ( Type 2 footwear, the composite upper
material shall comply with requirements of water coefficient as prescribed
in 5.4.6 of IS 15298 (Part 2).) |
- |
0 |
|
- |
| Cl.5.13 Energy Absorption Test(When footwear is tested in accordance with the method
prescribed in 5.14 of IS 15298 (Part 1), the energy
absorption of the seat region shall not be less than 20 J.) |
- |
0 |
|
- |
| Cl.5.2.3 Coated Binding Material
Annex C(ii) Breaking load in N, Min (50 cm grip length test specimen) ) |
- |
0 |
|
- |
| Cl.5.2.1.4 ( Type 2 footwear, the composite upper
material shall comply with requirements of water
vapour permeability as prescribed
in 5.4.6 of IS 15298 (Part 2).) |
- |
0 |
|
- |
| CL.5.2.10 Counter Stiffener(
A counter stiffener, made out of textile reinforced withpolymer/rubber including (thermoplastic) having
thickness not less than 1.5 mm is to be stitched at inside
of upper so as to fortify the back of the footwear at
joints of quarter.) |
- |
0 |
|
- |
| Cl.5.1.1 Fittings(Fittings of the footwear shall be in conformity to Table 9
of IS 1638 (measurement of men’s lasts) and Table 8
of IS 1638 (measurement of women’s lasts).) |
- |
0 |
|
- |
| Cl.5.2.1 Upper
Cl.5.2.1.1
IS 3400(Part 5)( Composite upper material shall comply with consolidation test as per 5.10.(IS 3400 (Part 5). There shall be no separation at a load
of 1.5 kg.)) |
- |
0 |
|
- |
| Cl.5.2.1.2( Composite upper material shall comply with
tear strength as per 5.4.3 of IS 15298 (Part 2).) |
- |
0 |
|
- |
| Cl.5.2.1.5( Inner layer of upper shall meet requirement of abrasion resistance as prescribed in 5.5.2 of IS 15298 (Part 2).) |
- |
0 |
|
- |
| Cl.5.2.2.1 Abrasion resistance of compact insole/insocks/
counter stiffener(
When textiles used as lining for all the above are tested
in accordance with 6.12 of IS 15298 (Part 1), the lining
shall not develop any holes before the following number
of cycles has been performed:) |
- |
0 |
|
- |
| Cl.5.2.2 Compact Insole/Compact Insocks/Counter
Stiffener Lining(Textile material shall be used as lining material for
compact insole/compact insocks / counter stiffener. It
shall meet the requirement of tear strength as prescribed
in 5.6.1 of IS 15298 (Part 2).) |
- |
0 |
|
- |
| Cl.5.2.2.1 Abrasion resistance of compact insole/insocks/
counter stiffener(
When textiles used as lining for all the above are tested
in accordance with 6.12 of IS 15298 (Part 1), the lining
shall not develop any holes before the following number
of cycles has been performed:) |
- |
0 |
|
- |
| Cl.5.2.5 Compact Sole Heel
Cl. 5.2.5.1
(The compact sole heel shall be made out
of polymeric/rubber components and the typical design
recommendation (not mandatory) of compact sole heel
is as shown in Fig. 3. Sectional view of Type 1/Type 2
)
toe position is given in Fig. 4.) |
- |
0 |
|
- |
| Cl.5.2.5 Compact Sole Heel
5.2.5.1 IS 3400 (Part 4)(ii)*Change in hardness after
accelerated ageing at 100 ± 2
°C for 24 h
) |
- |
0 |
|
- |
| Cl.5.2.5.3 Ageing for whole footwear(When rubber is used for manufacturing boots or when
the outer sole heel is made of bi-polymer, the finished
boots shall be aged at 100 ± 2°C for 24 h. On completion of test, all rubber components shall not
develop any sign of tackiness or brittleness.) |
- |
0 |
|
- |
| Cl.5.2.5.4 Thickness of compact sole hee(Thickness of compact sole heel of the boots shall
comply with the thickness and material requirements
prescribed in Table 3.) |
- |
0 |
|
- |
| Cl.5.2.5.4 Thickness of compact sole hee(of black cotton thread, the same shall be free from
sulphur dyes when tested in accordance with
Annex B.) |
- |
0 |
|
- |
| Cl.5.2.6 Thread for Upper Closing(
The length (m/kg) and construction of sewing thread
shall conform to requirements as prescribed in
Table 4.) |
- |
0 |
|
- |
| Cl.5.2.7 Safety Toe Cap(Safety toe cap as per 3.6 shall be fitted into the footwear and must not come out while in use.) |
- |
0 |
|
- |
| Cl.5.3.2 (The tongue shall be made out of composite upper
material and shall be half bellow type for Type 2 and
full bellow type for Type 1.) |
- |
0 |
|
- |
| Cl.5.2.9 Eyelets(
Aluminum eyelets of external collar diameter not less
than 10 mm and wall thickness of 0.30 to 0.35 mm
shall be used.) |
- |
0 |
|
- |
| Cl.5.3.5 Outer toe cap( shall be provided which is made
of polymer/rubber and it shall be strongly adhered such
that it shall not open up or come out while in use. Toe
of the boot shall be reinforced with safety toe cap) |
- |
0 |
|
- |
| Cl.5.3.6( A designed foxing of width of minimum 25 mm
and of thickness of minimum 2 mm is to be provided.
The foxing shall not extend the edges of the outer
sole.) |
- |
0 |
|
- |
| Cl.5.3.7( Two pairs of detachable insocks are to be
provided. The insocks shall be compact in nature having
thickness not less than 2 mm.) |
- |
0 |
|
- |
| Cl.5.4 Finish(
In appearance, general workmanship and in all other
respects with regard to finish and get up of the footwear,
the footwear shall be matching to the approved sample
of the purchaser.) |
- |
0 |
|
- |
| Cl.5.5 Mass(The mass of one pair of finished footwear of size 8
shall not exceed 1 500 g for Type 1 and 1 400 g for
Type 2 with an increase or decrease of 100 g for each
bigger or smaller size, respectively.) |
- |
0 |
|
- |
| Cl.5.6( Height of Upper
Height of upper of the boots shall conform to column 5
(Design C) and column 4 (Design B) of 5.2.2, Table 4
of IS 15298 (Part 2) for Type 1 and Type 2, respectively
when measured as per 6.2 of IS 15298 (Part 1) on the
inside of the back of the footwear and from seat of the
insole to top edge of the upper.) |
- |
0 |
|
- |
| Cl.5.7 Performance Test(When safety footwear is tested in accordance with the
method described in 5.4 of IS 15298 (Part 1), at an
impact energy of (200 ± 4) J, the clearance under the
toecap at the moment of impact shall be in accordance
with Table 5. In addition, the toecap shall not develop
any cracks which go through the material, that is,
through which light can be seen.) |
- |
0 |
|
- |
| Cl.5.8 Upper/Outsole Bond Strength(When the footwear is tested in accordance with the
method prescribed in 5.2 of IS 15298 (Part 1), the bond
strength shall not be less than 4.0 N/mm, unless there
is tearing of the sole in which case the bond strength
shall not be less than 3.0 N/mm.) |
- |
0 |
|
- |
| Cl.5.9 Sole Interlayer Bond Strength for Bi-polymer(
and Bi-density Sole
When tested in accordance with 5.2 of IS 15298 (Part 1),
the bond strength between the outer or cleated layer
and the adjacent layer shall not be less than 4.0 N/mm
unless there is tearing of any part of the sole, in which
case the bond strength shall not be less than 3.0 N/mm.) |
- |
0 |
|
- |
| Cl.5.2.3.1 In case of cotton black binding materia( the same shall be free from sulphur dyes when tested in
accordance with Annex B.) |
- |
0 |
|
- |
| Cl.5.2.8.1( The boots shall be provided with laces having minimum length of 115 cm for Type 1 and minimum
100 cm for Type 2.) |
- |
0 |
|
- |
| Cl.5.2.8.2 (Minimum breaking load of 60 kg is to be
achieved when tested between 18 cm grip length in
accordance with Annex C.) |
- |
0 |
|
- |
| Cl.5.3.2 (The tongue shall be made out of composite upper
material and shall be half bellow type for Type 2 and
full bellow type for Type 1.) |
- |
0 |
|
- |
| Cl.5.3.5 Outer toe cap( shall be provided which is made
of polymer/rubber and it shall be strongly adhered such
that it shall not open up or come out while in use. Toe
of the boot shall be reinforced with safety toe cap) |
- |
0 |
|
- |
| Cl.5.10 Consolidation Test(
Representative sample of width 25 ± 0.5 mm are cut
out from the quarter of the upper along the length of
boot. The plies are separated by breaking the bond.
Carry out the test on two specimens in accordance with
IS 3400 (Part 5). Th) |
- |
0 |
|
- |
| Cl.5.11 Compression Resistance(
5.11.1 When safety boots are tested in accordance
with 5.5 of IS 15298 (Part 1), the clearance under the
toe cap at a compression load of 15 kN ± 0.1 kN shall
be in accordance with Table 5.) |
- |
0 |
|
- |
| Cl.5.12 Internal Length of Toe Cap(
For safety boots, internal length of the toe cap shall
meet the specification given in Table 5 of IS 15298
(Part 2) when tested as per 5.3 of IS 15298 (Part 1).) |
- |
0 |
|
- |
| Cl.6.1 Abrasion Resistance of Compact Outsole(
When outsole is tested in accordance with 8.3 of
IS 15298 (Part 1), the relative volume loss shall not
be greater than 250 mm³ for materials having density
0.9 g/cm³ or less, and not greater than 150 mm³ for
materials with density greater than 0.9 g/cm³.) |
- |
0 |
|
- |
| Cl.6.2 Flexing Resistance of Compact Outsole(
When outsole is tested in accordance with 8.4 of
IS 15298 (Part 1), the cut growth shall not be greater
than 4 mm before 30 000 cycles.) |
- |
0 |
|
- |
| Cl.6.4 Resistance to Hot Contact( — Sole Heel
When sole heel is tested in accordance with 8.7 of IS 15298 (Part 1), the material shall not melt/deform
and shall not develop any cracks when bent around the
mandrel.) |
- |
0 |
|
- |
| Cl.6.5 Hydrolysis(
When bottom sole or other components are made out
of polyurethane, the same shall be tested in accordance
with 8.5 of IS 15298 (Part 1) and the same shall comply
with 5.8.5 of IS 15298 (Part 2).) |
- |
0 |
|
- |
| 4(Types) |
- |
0 |
|
- |
| 5(Requirements) |
- |
0 |
|
- |
| 5.1(Design) |
- |
0 |
|
- |
| 5.10(consolidation test IS 3400 (Part 5)) |
- |
0 |
|
- |
| 5.2.4(Reinforcing Material) |
- |
0 |
|
- |
| 5.2.8.4(Colour of the lace) |
- |
0 |
|
- |
| 5.3, 5.3.1,5.3.3,5.3.4(Construction) |
- |
100 |
|
- |
| 5.10(Consolidation Test IS 3400 (Part 5) : 1986) |
- |
0 |
|
- |
| 8(CHEMICAL REQUIREMENTS) |
- |
1500 |
|
- |
| 9, 9.1(BIS CERTIFICATION MARKING) |
- |
50 |
|
- |
| 10(Marking) |
- |
50 |
|
- |
| 11(Packing) |
- |
50 |
|
- |
| Cl. 5.2.4(Reinforcing Material) |
- |
100 |
|
- |
| Cl. 5.2.8.4(Colour of the lace) |
- |
0 |
|
- |
| Cl. 5.3(Construction 5.3.1,5.3.3,5.3.4) |
- |
0 |
|
- |
| 10(Marking) |
- |
0 |
|
- |
| 7.1(Resistance to fuel) |
- |
300 |
|
- |
| 7.2(Resistance to electricity) |
- |
300 |
|
- |
| 9, 9.1(BIS CERTIFICATION MARKING) |
- |
0 |
|
- |
| Cl. 8 (IS 17011, Table-1 (i))(Allergenic and carcinogenic disperse dyes) |
- |
0 |
|
- |
| Cl.5.2.1.3 ,
Cl.6.5 of IS 15298 (Part 1).( Composite upper material shall develop no cracks before 150 000 cycles when tested in accordance
with 6.5 of IS 15298 (Part 1).) |
- |
0 |
|
- |
| Cl.5.3.6( A designed foxing of width of minimum 25 mm
and of thickness of minimum 2 mm is to be provided.
The foxing shall not extend the edges of the outer
sole.) |
- |
0 |
|
- |
| Cl.5.3.7( Two pairs of detachable insocks are to be
provided. The insocks shall be compact in nature having
thickness not less than 2 mm.) |
- |
0 |
|
- |
| Cl.5.2.1.2( Composite upper material shall comply with
tear strength as per 5.4.3 of IS 15298 (Part 2).) |
- |
0 |
|
- |
| Cl.5.2.1.3 ,
Cl.6.5 of IS 15298 (Part 1).( Composite upper material shall develop no cracks before 150 000 cycles when tested in accordance
with 6.5 of IS 15298 (Part 1).) |
- |
0 |
|
- |
| Cl.5.2.1.5( Inner layer of upper shall meet requirement of abrasion resistance as prescribed in 5.5.2 of IS 15298 (Part 2).) |
- |
0 |
|
- |
| Cl.5.2.2.1 Abrasion resistance of compact insole/insocks/
counter stiffener(
When textiles used as lining for all the above are tested
in accordance with 6.12 of IS 15298 (Part 1), the lining
shall not develop any holes before the following number
of cycles has been performed:) |
- |
800 |
|
- |
| Cl.5.2.3.1 In case of cotton black binding materia( the same shall be free from sulphur dyes when tested in
accordance with Annex B.) |
- |
0 |
|
- |
| Cl.5.3.2 (The tongue shall be made out of composite upper
material and shall be half bellow type for Type 2 and
full bellow type for Type 1.) |
- |
100 |
|
- |
| Cl.5.3.5 Outer toe cap( shall be provided which is made
of polymer/rubber and it shall be strongly adhered such
that it shall not open up or come out while in use. Toe
of the boot shall be reinforced with safety toe cap) |
- |
800 |
|
- |
| Cl.5.3.6( A designed foxing of width of minimum 25 mm
and of thickness of minimum 2 mm is to be provided.
The foxing shall not extend the edges of the outer
sole.) |
- |
0 |
|
- |
| Cl.5.3.7( Two pairs of detachable insocks are to be
provided. The insocks shall be compact in nature having
thickness not less than 2 mm.) |
- |
0 |
|
- |
| Cl.5.2.1.2( Composite upper material shall comply with
tear strength as per 5.4.3 of IS 15298 (Part 2).) |
- |
0 |
|
- |
| Cl.5.2.1.3 ,
Cl.6.5 of IS 15298 (Part 1).( Composite upper material shall develop no cracks before 150 000 cycles when tested in accordance
with 6.5 of IS 15298 (Part 1).) |
- |
0 |
|
- |
| Cl.5.2.1.5( Inner layer of upper shall meet requirement of abrasion resistance as prescribed in 5.5.2 of IS 15298 (Part 2).) |
- |
0 |
|
- |
| Cl.5.2.3.1 In case of cotton black binding materia( the same shall be free from sulphur dyes when tested in
accordance with Annex B.) |
- |
0 |
|
- |
| 11(PACKING) |
- |
0 |
|
- |
| Cl.5.2.8.1( The boots shall be provided with laces having minimum length of 115 cm for Type 1 and minimum
100 cm for Type 2.) |
- |
100 |
|
- |
| Cl.5.2.8.2 (Minimum breaking load of 60 kg is to be
achieved when tested between 18 cm grip length in
accordance with Annex C.) |
- |
700 |
|
- |
| Cl.5.2.8.3( In case of cotton lace of black colour, the same
shall be free from sulphur dyes when tested in
accordance with Annex B. Two ends of the laces shall
be provided with plastic tips.) |
- |
0 |
|
- |
| Cl.5.12 Internal Length of Toe Cap(
For safety boots, internal length of the toe cap shall
meet the specification given in Table 5 of IS 15298
(Part 2) when tested as per 5.3 of IS 15298 (Part 1).) |
- |
0 |
|
- |
| Cl.6.3 Tear Strength of Compact Outsole(
When outsoles are tested in accordance to 8.2 of
IS 15298 (Part 1), the tear strength shall be not less
than 8 kN/m for material having density higher
than 0.9/cm³ and when density of material is less than
or equal to 0.9 g/cm³, tear strength shall not be less
than 5 kN/m.) |
- |
0 |
|
- |
| Cl.5.2.3 Coated Binding Material
IS 1954(
Coated binding materials shall conform to the
requirements given in col 3 of Table 1 when tested
according to the methods prescribed in col 4 of Table 1.
i)Width in mm,
) |
- |
0 |
|
- |
| Cl.5.2.1.4 ( Type 2 footwear, the composite upper
material shall comply with requirements of water coefficient as prescribed
in 5.4.6 of IS 15298 (Part 2).) |
- |
0 |
|
- |
| Cl.5.13 Energy Absorption Test(When footwear is tested in accordance with the method
prescribed in 5.14 of IS 15298 (Part 1), the energy
absorption of the seat region shall not be less than 20 J.) |
- |
0 |
|
- |
| Cl.5.2.3 Coated Binding Material
Annex C(ii) Breaking load in N, Min (50 cm grip length test specimen) ) |
- |
0 |
|
- |
| Cl.5.2.1.4 ( Type 2 footwear, the composite upper
material shall comply with requirements of water
vapour permeability as prescribed
in 5.4.6 of IS 15298 (Part 2).) |
- |
0 |
|
- |
| CL.5.2.10 Counter Stiffener(
A counter stiffener, made out of textile reinforced withpolymer/rubber including (thermoplastic) having
thickness not less than 1.5 mm is to be stitched at inside
of upper so as to fortify the back of the footwear at
joints of quarter.) |
- |
0 |
|
- |
| Cl.5.1.1 Fittings(Fittings of the footwear shall be in conformity to Table 9
of IS 1638 (measurement of men’s lasts) and Table 8
of IS 1638 (measurement of women’s lasts).) |
- |
0 |
|
- |
| Cl.5.2.1 Upper
Cl.5.2.1.1
IS 3400(Part 5)( Composite upper material shall comply with consolidation test as per 5.10.(IS 3400 (Part 5). There shall be no separation at a load
of 1.5 kg.)) |
- |
0 |
|
- |
| Cl.5.2.2 Compact Insole/Compact Insocks/Counter
Stiffener Lining(Textile material shall be used as lining material for
compact insole/compact insocks / counter stiffener. It
shall meet the requirement of tear strength as prescribed
in 5.6.1 of IS 15298 (Part 2).) |
- |
0 |
|
- |
| Cl.5.2.5 Compact Sole Heel
Cl. 5.2.5.1
(The compact sole heel shall be made out
of polymeric/rubber components and the typical design
recommendation (not mandatory) of compact sole heel
is as shown in Fig. 3. Sectional view of Type 1/Type 2
)
toe position is given in Fig. 4.) |
- |
0 |
|
- |
| Cl.5.2.5 Compact Sole Heel
5.2.5.1 IS 3400 (Part 4)(ii)*Change in hardness after
accelerated ageing at 100 ± 2
°C for 24 h
) |
- |
0 |
|
- |
| Cl.5.2.5.3 Ageing for whole footwear(When rubber is used for manufacturing boots or when
the outer sole heel is made of bi-polymer, the finished
boots shall be aged at 100 ± 2°C for 24 h. On completion of test, all rubber components shall not
develop any sign of tackiness or brittleness.) |
- |
0 |
|
- |
| Cl.5.2.5.4 Thickness of compact sole hee(Thickness of compact sole heel of the boots shall
comply with the thickness and material requirements
prescribed in Table 3.) |
- |
0 |
|
- |
| Cl.5.2.5.4 Thickness of compact sole hee(of black cotton thread, the same shall be free from
sulphur dyes when tested in accordance with
Annex B.) |
- |
0 |
|
- |
| Cl.5.2.6 Thread for Upper Closing(
The length (m/kg) and construction of sewing thread
shall conform to requirements as prescribed in
Table 4.) |
- |
0 |
|
- |
| Cl.5.2.7 Safety Toe Cap(Safety toe cap as per 3.6 shall be fitted into the footwear and must not come out while in use.) |
- |
0 |
|
- |
| Cl.5.2.8.3( In case of cotton lace of black colour, the same
shall be free from sulphur dyes when tested in
accordance with Annex B. Two ends of the laces shall
be provided with plastic tips.) |
- |
0 |
|
- |
| Cl.5.2.9 Eyelets(
Aluminum eyelets of external collar diameter not less
than 10 mm and wall thickness of 0.30 to 0.35 mm
shall be used.) |
- |
0 |
|
- |
| Cl.5.4 Finish(
In appearance, general workmanship and in all other
respects with regard to finish and get up of the footwear,
the footwear shall be matching to the approved sample
of the purchaser.) |
- |
0 |
|
- |
| Cl.5.5 Mass(The mass of one pair of finished footwear of size 8
shall not exceed 1 500 g for Type 1 and 1 400 g for
Type 2 with an increase or decrease of 100 g for each
bigger or smaller size, respectively.) |
- |
0 |
|
- |
| Cl.5.6( Height of Upper
Height of upper of the boots shall conform to column 5
(Design C) and column 4 (Design B) of 5.2.2, Table 4
of IS 15298 (Part 2) for Type 1 and Type 2, respectively
when measured as per 6.2 of IS 15298 (Part 1) on the
inside of the back of the footwear and from seat of the
insole to top edge of the upper.) |
- |
0 |
|
- |
| Cl.5.7 Performance Test(When safety footwear is tested in accordance with the
method described in 5.4 of IS 15298 (Part 1), at an
impact energy of (200 ± 4) J, the clearance under the
toecap at the moment of impact shall be in accordance
with Table 5. In addition, the toecap shall not develop
any cracks which go through the material, that is,
through which light can be seen.) |
- |
0 |
|
- |
| Cl.5.8 Upper/Outsole Bond Strength(When the footwear is tested in accordance with the
method prescribed in 5.2 of IS 15298 (Part 1), the bond
strength shall not be less than 4.0 N/mm, unless there
is tearing of the sole in which case the bond strength
shall not be less than 3.0 N/mm.) |
- |
0 |
|
- |
| Cl.5.9 Sole Interlayer Bond Strength for Bi-polymer(
and Bi-density Sole
When tested in accordance with 5.2 of IS 15298 (Part 1),
the bond strength between the outer or cleated layer
and the adjacent layer shall not be less than 4.0 N/mm
unless there is tearing of any part of the sole, in which
case the bond strength shall not be less than 3.0 N/mm.) |
- |
0 |
|
- |
| Cl.5.10 Consolidation Test(
Representative sample of width 25 ± 0.5 mm are cut
out from the quarter of the upper along the length of
boot. The plies are separated by breaking the bond.
Carry out the test on two specimens in accordance with
IS 3400 (Part 5). Th) |
- |
0 |
|
- |
| Cl.5.11 Compression Resistance(
5.11.1 When safety boots are tested in accordance
with 5.5 of IS 15298 (Part 1), the clearance under the
toe cap at a compression load of 15 kN ± 0.1 kN shall
be in accordance with Table 5.) |
- |
0 |
|
- |
| Cl.5.12 Internal Length of Toe Cap(
For safety boots, internal length of the toe cap shall
meet the specification given in Table 5 of IS 15298
(Part 2) when tested as per 5.3 of IS 15298 (Part 1).) |
- |
0 |
|
- |
| Cl.6.1 Abrasion Resistance of Compact Outsole(
When outsole is tested in accordance with 8.3 of
IS 15298 (Part 1), the relative volume loss shall not
be greater than 250 mm³ for materials having density
0.9 g/cm³ or less, and not greater than 150 mm³ for
materials with density greater than 0.9 g/cm³.) |
- |
0 |
|
- |
| Cl.6.2 Flexing Resistance of Compact Outsole(
When outsole is tested in accordance with 8.4 of
IS 15298 (Part 1), the cut growth shall not be greater
than 4 mm before 30 000 cycles.) |
- |
0 |
|
- |
| Cl.6.4 Resistance to Hot Contact( — Sole Heel
When sole heel is tested in accordance with 8.7 of IS 15298 (Part 1), the material shall not melt/deform
and shall not develop any cracks when bent around the
mandrel.) |
- |
0 |
|
- |
| Cl.6.5 Hydrolysis(
When bottom sole or other components are made out
of polyurethane, the same shall be tested in accordance
with 8.5 of IS 15298 (Part 1) and the same shall comply
with 5.8.5 of IS 15298 (Part 2).) |
- |
0 |
|
- |
| Cl.5.2.5 Compact Sole Heel
Cl.5.2.5.1 IS 3400 (Part 2)(requirements prescribed in col 3 of Table 2 when tested
as per corresponding test methods prescribed in col 4
of Table 2.
i)i) Hardness (IRHD) |
- |
0 |
|
- |
| Cl.6.3 Tear Strength of Compact Outsole(
When outsoles are tested in accordance to 8.2 of
IS 15298 (Part 1), the tear strength shall be not less
than 8 kN/m for material having density higher
than 0.9/cm³ and when density of material is less than
or equal to 0.9 g/cm³, tear strength shall not be less
than 5 kN/m.) |
- |
0 |
|
- |
| Cl.5.2.3 Coated Binding Material
IS 1954(
Coated binding materials shall conform to the
requirements given in col 3 of Table 1 when tested
according to the methods prescribed in col 4 of Table 1.
i)Width in mm,
) |
- |
0 |
|
- |
| Cl.5.2.1.4 ( Type 2 footwear, the composite upper
material shall comply with requirements of water coefficient as prescribed
in 5.4.6 of IS 15298 (Part 2).) |
- |
0 |
|
- |
| Cl.5.13 Energy Absorption Test(When footwear is tested in accordance with the method
prescribed in 5.14 of IS 15298 (Part 1), the energy
absorption of the seat region shall not be less than 20 J.) |
- |
0 |
|
- |
| Cl.5.2.3 Coated Binding Material
Annex C(ii) Breaking load in N, Min (50 cm grip length test specimen) ) |
- |
0 |
|
- |
| Cl.5.2.1.4 ( Type 2 footwear, the composite upper
material shall comply with requirements of water
vapour permeability as prescribed
in 5.4.6 of IS 15298 (Part 2).) |
- |
0 |
|
- |
| CL.5.2.10 Counter Stiffener(
A counter stiffener, made out of textile reinforced withpolymer/rubber including (thermoplastic) having
thickness not less than 1.5 mm is to be stitched at inside
of upper so as to fortify the back of the footwear at
joints of quarter.) |
- |
0 |
|
- |
| Cl.5.1.1 Fittings(Fittings of the footwear shall be in conformity to Table 9
of IS 1638 (measurement of men’s lasts) and Table 8
of IS 1638 (measurement of women’s lasts).) |
- |
0 |
|
- |
| Cl.5.2.1 Upper
Cl.5.2.1.1
IS 3400(Part 5)( Composite upper material shall comply with consolidation test as per 5.10.(IS 3400 (Part 5). There shall be no separation at a load
of 1.5 kg.)) |
- |
0 |
|
- |
| Cl.5.2.5.3 Ageing for whole footwear(When rubber is used for manufacturing boots or when
the outer sole heel is made of bi-polymer, the finished
boots shall be aged at 100 ± 2°C for 24 h. On completion of test, all rubber components shall not
develop any sign of tackiness or brittleness.) |
- |
0 |
|
- |
| Cl.5.2.5 Compact Sole Heel
5.2.5.1 IS 3400 (Part 4)(ii)*Change in hardness after
accelerated ageing at 100 ± 2
°C for 24 h
) |
- |
0 |
|
- |
| Cl.5.2.5 Compact Sole Heel
Cl. 5.2.5.1
(The compact sole heel shall be made out
of polymeric/rubber components and the typical design
recommendation (not mandatory) of compact sole heel
is as shown in Fig. 3. Sectional view of Type 1/Type 2
)
toe position is given in Fig. 4.) |
- |
0 |
|
- |
| Cl.5.2.2 Compact Insole/Compact Insocks/Counter
Stiffener Lining(Textile material shall be used as lining material for
compact insole/compact insocks / counter stiffener. It
shall meet the requirement of tear strength as prescribed
in 5.6.1 of IS 15298 (Part 2).) |
- |
0 |
|
- |
| Cl.5.2.5.4 Thickness of compact sole hee(Thickness of compact sole heel of the boots shall
comply with the thickness and material requirements
prescribed in Table 3.) |
- |
0 |
|
- |
| Cl.5.2.5.4 Thickness of compact sole hee(of black cotton thread, the same shall be free from
sulphur dyes when tested in accordance with
Annex B.) |
- |
0 |
|
- |
| Cl.5.2.6 Thread for Upper Closing(
The length (m/kg) and construction of sewing thread
shall conform to requirements as prescribed in
Table 4.) |
- |
0 |
|
- |
| Cl.5.2.7 Safety Toe Cap(Safety toe cap as per 3.6 shall be fitted into the footwear and must not come out while in use.) |
- |
0 |
|
- |
| Cl.5.2.8.1( The boots shall be provided with laces having minimum length of 115 cm for Type 1 and minimum
100 cm for Type 2.) |
- |
0 |
|
- |
| Cl.5.2.8.2 (Minimum breaking load of 60 kg is to be
achieved when tested between 18 cm grip length in
accordance with Annex C.) |
- |
0 |
|
- |
| Cl.5.2.8.3( In case of cotton lace of black colour, the same
shall be free from sulphur dyes when tested in
accordance with Annex B. Two ends of the laces shall
be provided with plastic tips.) |
- |
0 |
|
- |
| Cl.5.2.9 Eyelets(
Aluminum eyelets of external collar diameter not less
than 10 mm and wall thickness of 0.30 to 0.35 mm
shall be used.) |
- |
0 |
|
- |
| Cl.5.4 Finish(
In appearance, general workmanship and in all other
respects with regard to finish and get up of the footwear,
the footwear shall be matching to the approved sample
of the purchaser.) |
- |
0 |
|
- |
| Cl.5.5 Mass(The mass of one pair of finished footwear of size 8
shall not exceed 1 500 g for Type 1 and 1 400 g for
Type 2 with an increase or decrease of 100 g for each
bigger or smaller size, respectively.) |
- |
0 |
|
- |
| Cl.5.6( Height of Upper
Height of upper of the boots shall conform to column 5
(Design C) and column 4 (Design B) of 5.2.2, Table 4
of IS 15298 (Part 2) for Type 1 and Type 2, respectively
when measured as per 6.2 of IS 15298 (Part 1) on the
inside of the back of the footwear and from seat of the
insole to top edge of the upper.) |
- |
0 |
|
- |
| Cl.5.7 Performance Test(When safety footwear is tested in accordance with the
method described in 5.4 of IS 15298 (Part 1), at an
impact energy of (200 ± 4) J, the clearance under the
toecap at the moment of impact shall be in accordance
with Table 5. In addition, the toecap shall not develop
any cracks which go through the material, that is,
through which light can be seen.) |
- |
0 |
|
- |
| Cl.5.8 Upper/Outsole Bond Strength(When the footwear is tested in accordance with the
method prescribed in 5.2 of IS 15298 (Part 1), the bond
strength shall not be less than 4.0 N/mm, unless there
is tearing of the sole in which case the bond strength
shall not be less than 3.0 N/mm.) |
- |
0 |
|
- |
| Cl.5.9 Sole Interlayer Bond Strength for Bi-polymer(
and Bi-density Sole
When tested in accordance with 5.2 of IS 15298 (Part 1),
the bond strength between the outer or cleated layer
and the adjacent layer shall not be less than 4.0 N/mm
unless there is tearing of any part of the sole, in which
case the bond strength shall not be less than 3.0 N/mm.) |
- |
0 |
|
- |
| Cl.5.10 Consolidation Test(
Representative sample of width 25 ± 0.5 mm are cut
out from the quarter of the upper along the length of
boot. The plies are separated by breaking the bond.
Carry out the test on two specimens in accordance with
IS 3400 (Part 5). Th) |
- |
0 |
|
- |
| Cl.5.11 Compression Resistance(
5.11.1 When safety boots are tested in accordance
with 5.5 of IS 15298 (Part 1), the clearance under the
toe cap at a compression load of 15 kN ± 0.1 kN shall
be in accordance with Table 5.) |
- |
0 |
|
- |
| Cl.5.12 Internal Length of Toe Cap(
For safety boots, internal length of the toe cap shall
meet the specification given in Table 5 of IS 15298
(Part 2) when tested as per 5.3 of IS 15298 (Part 1).) |
- |
0 |
|
- |
| Cl.6.1 Abrasion Resistance of Compact Outsole(
When outsole is tested in accordance with 8.3 of
IS 15298 (Part 1), the relative volume loss shall not
be greater than 250 mm³ for materials having density
0.9 g/cm³ or less, and not greater than 150 mm³ for
materials with density greater than 0.9 g/cm³.) |
- |
0 |
|
- |
| Cl.6.2 Flexing Resistance of Compact Outsole(
When outsole is tested in accordance with 8.4 of
IS 15298 (Part 1), the cut growth shall not be greater
than 4 mm before 30 000 cycles.) |
- |
0 |
|
- |
| Cl.6.4 Resistance to Hot Contact( — Sole Heel
When sole heel is tested in accordance with 8.7 of IS 15298 (Part 1), the material shall not melt/deform
and shall not develop any cracks when bent around the
mandrel.) |
- |
0 |
|
- |
| Cl.6.5 Hydrolysis(
When bottom sole or other components are made out
of polyurethane, the same shall be tested in accordance
with 8.5 of IS 15298 (Part 1) and the same shall comply
with 5.8.5 of IS 15298 (Part 2).) |
- |
0 |
|
- |
| Cl.5.2.5 Compact Sole Heel
Cl.5.2.5.1 IS 3400 (Part 2)(requirements prescribed in col 3 of Table 2 when tested
as per corresponding test methods prescribed in col 4
of Table 2.
i)i) Hardness (IRHD) |
- |
0 |
|
- |
| Cl.6.3 Tear Strength of Compact Outsole(
When outsoles are tested in accordance to 8.2 of
IS 15298 (Part 1), the tear strength shall be not less
than 8 kN/m for material having density higher
than 0.9/cm³ and when density of material is less than
or equal to 0.9 g/cm³, tear strength shall not be less
than 5 kN/m.) |
- |
0 |
|
- |
| Cl.5.2.3 Coated Binding Material
IS 1954(
Coated binding materials shall conform to the
requirements given in col 3 of Table 1 when tested
according to the methods prescribed in col 4 of Table 1.
i)Width in mm,
) |
- |
0 |
|
- |
| Cl.5.2.1.4 ( Type 2 footwear, the composite upper
material shall comply with requirements of water coefficient as prescribed
in 5.4.6 of IS 15298 (Part 2).) |
- |
0 |
|
- |
| Cl.5.13 Energy Absorption Test(When footwear is tested in accordance with the method
prescribed in 5.14 of IS 15298 (Part 1), the energy
absorption of the seat region shall not be less than 20 J.) |
- |
0 |
|
- |
| Cl.5.2.3 Coated Binding Material
Annex C(ii) Breaking load in N, Min (50 cm grip length test specimen) ) |
- |
0 |
|
- |
| Cl.5.2.1.4 ( Type 2 footwear, the composite upper
material shall comply with requirements of water
vapour permeability as prescribed
in 5.4.6 of IS 15298 (Part 2).) |
- |
0 |
|
- |
| CL.5.2.10 Counter Stiffener(
A counter stiffener, made out of textile reinforced withpolymer/rubber including (thermoplastic) having
thickness not less than 1.5 mm is to be stitched at inside
of upper so as to fortify the back of the footwear at
joints of quarter.) |
- |
0 |
|
- |
| Cl.5.1.1 Fittings(Fittings of the footwear shall be in conformity to Table 9
of IS 1638 (measurement of men’s lasts) and Table 8
of IS 1638 (measurement of women’s lasts).) |
- |
0 |
|
- |
| Cl.5.2.1 Upper
Cl.5.2.1.1
IS 3400(Part 5)( Composite upper material shall comply with consolidation test as per 5.10.(IS 3400 (Part 5). There shall be no separation at a load
of 1.5 kg.)) |
- |
0 |
|
- |
| Cl.5.2.1.2( Composite upper material shall comply with
tear strength as per 5.4.3 of IS 15298 (Part 2).) |
- |
0 |
|
- |
| Cl.5.2.1.5( Inner layer of upper shall meet requirement of abrasion resistance as prescribed in 5.5.2 of IS 15298 (Part 2).) |
- |
0 |
|
- |
| Cl.5.2.2.1 Abrasion resistance of compact insole/insocks/
counter stiffener(
When textiles used as lining for all the above are tested
in accordance with 6.12 of IS 15298 (Part 1), the lining
shall not develop any holes before the following number
of cycles has been performed:) |
- |
0 |
|
- |
| Cl.5.2.2 Compact Insole/Compact Insocks/Counter
Stiffener Lining(Textile material shall be used as lining material for
compact insole/compact insocks / counter stiffener. It
shall meet the requirement of tear strength as prescribed
in 5.6.1 of IS 15298 (Part 2).) |
- |
0 |
|
- |
| Cl.5.2.2.1 Abrasion resistance of compact insole/insocks/
counter stiffener(
When textiles used as lining for all the above are tested
in accordance with 6.12 of IS 15298 (Part 1), the lining
shall not develop any holes before the following number
of cycles has been performed:) |
- |
0 |
|
- |
| Cl.5.2.5 Compact Sole Heel
Cl. 5.2.5.1
(The compact sole heel shall be made out
of polymeric/rubber components and the typical design
recommendation (not mandatory) of compact sole heel
is as shown in Fig. 3. Sectional view of Type 1/Type 2
)
toe position is given in Fig. 4.) |
- |
0 |
|
- |
| Cl.5.2.5 Compact Sole Heel
5.2.5.1 IS 3400 (Part 4)(ii)*Change in hardness after
accelerated ageing at 100 ± 2
°C for 24 h
) |
- |
0 |
|
- |
| Cl.5.2.5.3 Ageing for whole footwear(When rubber is used for manufacturing boots or when
the outer sole heel is made of bi-polymer, the finished
boots shall be aged at 100 ± 2°C for 24 h. On completion of test, all rubber components shall not
develop any sign of tackiness or brittleness.) |
- |
0 |
|
- |
| Cl.5.2.5.4 Thickness of compact sole hee(Thickness of compact sole heel of the boots shall
comply with the thickness and material requirements
prescribed in Table 3.) |
- |
0 |
|
- |
| Cl.5.2.5.4 Thickness of compact sole hee(of black cotton thread, the same shall be free from
sulphur dyes when tested in accordance with
Annex B.) |
- |
0 |
|
- |
| Cl.5.2.6 Thread for Upper Closing(
The length (m/kg) and construction of sewing thread
shall conform to requirements as prescribed in
Table 4.) |
- |
0 |
|
- |
| Cl.5.2.7 Safety Toe Cap(Safety toe cap as per 3.6 shall be fitted into the footwear and must not come out while in use.) |
- |
0 |
|
- |
| Cl.5.3.2 (The tongue shall be made out of composite upper
material and shall be half bellow type for Type 2 and
full bellow type for Type 1.) |
- |
0 |
|
- |
| Cl.5.2.9 Eyelets(
Aluminum eyelets of external collar diameter not less
than 10 mm and wall thickness of 0.30 to 0.35 mm
shall be used.) |
- |
0 |
|
- |
| Cl.5.3.5 Outer toe cap( shall be provided which is made
of polymer/rubber and it shall be strongly adhered such
that it shall not open up or come out while in use. Toe
of the boot shall be reinforced with safety toe cap) |
- |
0 |
|
- |
| Cl.5.3.6( A designed foxing of width of minimum 25 mm
and of thickness of minimum 2 mm is to be provided.
The foxing shall not extend the edges of the outer
sole.) |
- |
0 |
|
- |
| Cl.5.3.7( Two pairs of detachable insocks are to be
provided. The insocks shall be compact in nature having
thickness not less than 2 mm.) |
- |
0 |
|
- |
| Cl.5.4 Finish(
In appearance, general workmanship and in all other
respects with regard to finish and get up of the footwear,
the footwear shall be matching to the approved sample
of the purchaser.) |
- |
0 |
|
- |
| Cl.5.5 Mass(The mass of one pair of finished footwear of size 8
shall not exceed 1 500 g for Type 1 and 1 400 g for
Type 2 with an increase or decrease of 100 g for each
bigger or smaller size, respectively.) |
- |
0 |
|
- |
| Cl.5.6( Height of Upper
Height of upper of the boots shall conform to column 5
(Design C) and column 4 (Design B) of 5.2.2, Table 4
of IS 15298 (Part 2) for Type 1 and Type 2, respectively
when measured as per 6.2 of IS 15298 (Part 1) on the
inside of the back of the footwear and from seat of the
insole to top edge of the upper.) |
- |
0 |
|
- |
| Cl.5.7 Performance Test(When safety footwear is tested in accordance with the
method described in 5.4 of IS 15298 (Part 1), at an
impact energy of (200 ± 4) J, the clearance under the
toecap at the moment of impact shall be in accordance
with Table 5. In addition, the toecap shall not develop
any cracks which go through the material, that is,
through which light can be seen.) |
- |
0 |
|
- |
| Cl.5.8 Upper/Outsole Bond Strength(When the footwear is tested in accordance with the
method prescribed in 5.2 of IS 15298 (Part 1), the bond
strength shall not be less than 4.0 N/mm, unless there
is tearing of the sole in which case the bond strength
shall not be less than 3.0 N/mm.) |
- |
0 |
|
- |
| Cl.5.9 Sole Interlayer Bond Strength for Bi-polymer(
and Bi-density Sole
When tested in accordance with 5.2 of IS 15298 (Part 1),
the bond strength between the outer or cleated layer
and the adjacent layer shall not be less than 4.0 N/mm
unless there is tearing of any part of the sole, in which
case the bond strength shall not be less than 3.0 N/mm.) |
- |
0 |
|
- |
| Cl.5.2.3.1 In case of cotton black binding materia( the same shall be free from sulphur dyes when tested in
accordance with Annex B.) |
- |
0 |
|
- |
| Cl.5.2.8.1( The boots shall be provided with laces having minimum length of 115 cm for Type 1 and minimum
100 cm for Type 2.) |
- |
0 |
|
- |
| Cl. 8 (IS 17011, Table-1 (i))(Allergenic and carcinogenic disperse dyes) |
- |
0 |
|
- |
| Cl.5.3.5 Outer toe cap( shall be provided which is made
of polymer/rubber and it shall be strongly adhered such
that it shall not open up or come out while in use. Toe
of the boot shall be reinforced with safety toe cap) |
- |
0 |
|
- |
| Cl.5.10 Consolidation Test(
Representative sample of width 25 ± 0.5 mm are cut
out from the quarter of the upper along the length of
boot. The plies are separated by breaking the bond.
Carry out the test on two specimens in accordance with
IS 3400 (Part 5). Th) |
- |
0 |
|
- |
| Cl.5.11 Compression Resistance(
5.11.1 When safety boots are tested in accordance
with 5.5 of IS 15298 (Part 1), the clearance under the
toe cap at a compression load of 15 kN ± 0.1 kN shall
be in accordance with Table 5.) |
- |
0 |
|
- |
| Cl.6.1 Abrasion Resistance of Compact Outsole(
When outsole is tested in accordance with 8.3 of
IS 15298 (Part 1), the relative volume loss shall not
be greater than 250 mm³ for materials having density
0.9 g/cm³ or less, and not greater than 150 mm³ for
materials with density greater than 0.9 g/cm³.) |
- |
0 |
|
- |
| Cl.6.2 Flexing Resistance of Compact Outsole(
When outsole is tested in accordance with 8.4 of
IS 15298 (Part 1), the cut growth shall not be greater
than 4 mm before 30 000 cycles.) |
- |
0 |
|
- |
| Cl.6.4 Resistance to Hot Contact( — Sole Heel
When sole heel is tested in accordance with 8.7 of IS 15298 (Part 1), the material shall not melt/deform
and shall not develop any cracks when bent around the
mandrel.) |
- |
0 |
|
- |
| Cl.6.5 Hydrolysis(
When bottom sole or other components are made out
of polyurethane, the same shall be tested in accordance
with 8.5 of IS 15298 (Part 1) and the same shall comply
with 5.8.5 of IS 15298 (Part 2).) |
- |
0 |
|
- |
| 4(Types) |
- |
0 |
|
- |
| 5(Requirements) |
- |
0 |
|
- |
| 5.1(Design) |
- |
0 |
|
- |
| 5.10(consolidation test IS 3400 (Part 5)) |
- |
0 |
|
- |
| 5.2.4(Reinforcing Material) |
- |
0 |
|
- |
| 5.2.8.4(Colour of the lace) |
- |
0 |
|
- |
| 5.3, 5.3.1,5.3.3,5.3.4(Construction) |
- |
0 |
|
- |
| 5.10(Consolidation Test IS 3400 (Part 5) : 1986) |
- |
0 |
|
- |
| 8(CHEMICAL REQUIREMENTS) |
- |
0 |
|
- |
| 9, 9.1(BIS CERTIFICATION MARKING) |
- |
0 |
|
- |
| 10(Marking) |
- |
0 |
|
- |
| 11(Packing) |
- |
0 |
|
- |
| Cl. 5.2.4(Reinforcing Material) |
- |
0 |
|
- |
| Cl. 5.2.8.4(Colour of the lace) |
- |
0 |
|
- |
| Cl. 5.3(Construction 5.3.1,5.3.3,5.3.4) |
- |
0 |
|
- |
| 10(Marking) |
- |
0 |
|
- |
| 7.1(Resistance to fuel) |
- |
0 |
|
- |
| 9, 9.1(BIS CERTIFICATION MARKING) |
- |
0 |
|
- |
| Cl.5.2.1.3 ,
Cl.6.5 of IS 15298 (Part 1).( Composite upper material shall develop no cracks before 150 000 cycles when tested in accordance
with 6.5 of IS 15298 (Part 1).) |
- |
0 |
|
- |
| Cl.5.3.6( A designed foxing of width of minimum 25 mm
and of thickness of minimum 2 mm is to be provided.
The foxing shall not extend the edges of the outer
sole.) |
- |
0 |
|
- |
| Cl.5.3.7( Two pairs of detachable insocks are to be
provided. The insocks shall be compact in nature having
thickness not less than 2 mm.) |
- |
0 |
|
- |
| Cl.5.2.1.2( Composite upper material shall comply with
tear strength as per 5.4.3 of IS 15298 (Part 2).) |
- |
0 |
|
- |
| Cl.5.2.1.3 ,
Cl.6.5 of IS 15298 (Part 1).( Composite upper material shall develop no cracks before 150 000 cycles when tested in accordance
with 6.5 of IS 15298 (Part 1).) |
- |
0 |
|
- |
| Cl.5.2.1.5( Inner layer of upper shall meet requirement of abrasion resistance as prescribed in 5.5.2 of IS 15298 (Part 2).) |
- |
0 |
|
- |
| Cl.5.2.2.1 Abrasion resistance of compact insole/insocks/
counter stiffener(
When textiles used as lining for all the above are tested
in accordance with 6.12 of IS 15298 (Part 1), the lining
shall not develop any holes before the following number
of cycles has been performed:) |
- |
0 |
|
- |
| Cl.5.2.3.1 In case of cotton black binding materia( the same shall be free from sulphur dyes when tested in
accordance with Annex B.) |
- |
0 |
|
- |
| Cl.5.3.2 (The tongue shall be made out of composite upper
material and shall be half bellow type for Type 2 and
full bellow type for Type 1.) |
- |
0 |
|
- |
| Cl.5.3.5 Outer toe cap( shall be provided which is made
of polymer/rubber and it shall be strongly adhered such
that it shall not open up or come out while in use. Toe
of the boot shall be reinforced with safety toe cap) |
- |
0 |
|
- |
| Cl.5.3.6( A designed foxing of width of minimum 25 mm
and of thickness of minimum 2 mm is to be provided.
The foxing shall not extend the edges of the outer
sole.) |
- |
0 |
|
- |
| Cl.5.3.7( Two pairs of detachable insocks are to be
provided. The insocks shall be compact in nature having
thickness not less than 2 mm.) |
- |
0 |
|
- |
| Cl.5.2.1.2( Composite upper material shall comply with
tear strength as per 5.4.3 of IS 15298 (Part 2).) |
- |
0 |
|
- |
| Cl.5.2.1.3 ,
Cl.6.5 of IS 15298 (Part 1).( Composite upper material shall develop no cracks before 150 000 cycles when tested in accordance
with 6.5 of IS 15298 (Part 1).) |
- |
0 |
|
- |
| Cl.5.2.1.5( Inner layer of upper shall meet requirement of abrasion resistance as prescribed in 5.5.2 of IS 15298 (Part 2).) |
- |
0 |
|
- |
| Cl.5.2.3.1 In case of cotton black binding materia( the same shall be free from sulphur dyes when tested in
accordance with Annex B.) |
- |
0 |
|
- |
| 11(PACKING) |
- |
0 |
|
- |
| Cl.5.2.8.1( The boots shall be provided with laces having minimum length of 115 cm for Type 1 and minimum
100 cm for Type 2.) |
- |
0 |
|
- |
| Cl.5.2.8.2 (Minimum breaking load of 60 kg is to be
achieved when tested between 18 cm grip length in
accordance with Annex C.) |
- |
0 |
|
- |
| Cl.5.2.8.3( In case of cotton lace of black colour, the same
shall be free from sulphur dyes when tested in
accordance with Annex B. Two ends of the laces shall
be provided with plastic tips.) |
- |
0 |
|
- |
| Cl-8 (IS 17011, Table-1 (ii)(Aromatic amines released from Azo dyes (each individual amine)) |
- |
0 |
|
- |
| Cl-8 (IS 17011, Table-1 (iii)(Aromatic amines released from Azo dyes (each individual amine)) |
- |
0 |
|
- |
| Cl-8(IS 17011, Table-1 (iv)(Chromium (VI)) |
- |
0 |
|
- |
| Cl-8 (IS 17011, Table-1 (v)(Dimethyl fumarate (DMFU)) |
- |
0 |
|
- |
| Cl-8 (IS 17011, Table-1 (vi)(Formaldehyde (free or released by partial hydrolysis)) |
- |
0 |
|
- |
| Cl-8 (IS 17011, Table-1 (vii)(Formaldehyde) |
- |
0 |
|
- |
| Cl-8(IS 17011, Table-1 (viii)(Organotin compounds) |
- |
0 |
|
- |
| Cl-8 (IS 17011, Table-1 (ix)(PCP-TeCP-TriCP polychlorophenols) |
- |
0 |
|
- |
| Cl-8 (IS 17011, Table-1 (x)(pH) |
- |
0 |
|
- |
| Cl-8 (IS 17011, Table-1 (xi)(Phthalates (each individual phthalate)) |
- |
0 |
|
- |
| Cl-8 (IS 17011, Table-1 (xii)(Nickel, on skin contact) |
- |
0 |
|
- |
| Cl- 5.2.8.1 (Amendment No. 2)(General) |
- |
0 |
|
- |
| Cl- 5.2.8.2 (Amendment No. 2)(Internal length of toecap) |
- |
0 |
|
- |
| Cl- 5.2.8.3 (Amendment No. 2)(Corrosion resistance) |
- |
0 |
|
- |
| Cl- 5.2.9.5 (Amendment No. 2)(Breaking load and tag retention) |
- |
0 |
|
- |
| Cl- 5.2.9.6.1 (Amendment No. 2)(Abrasion resistance- Lace to lace) |
- |
0 |
|
- |
| Cl- 5.2.9.6.2 (Amendment No. 2)(Abrasion resistance- Lace to eyelet) |
- |
0 |
|
- |
| Cl- 5.2.10 (Amendment No. 2)(Force required to pull out the eyelets) |
- |
0 |
|
- |
| Cl- 5.2.12.1 (Amendment No. 2)(Insole- Material and thickness) |
- |
0 |
|
- |
| Cl- 5.2.12.2 (Amendment No. 2)(Insole- Abrasion resistance) |
- |
0 |
|
- |
| Cl- 5.2.12.3 (Amendment No. 2)(Insole- Water absorption and desorption) |
- |
0 |
|
- |
| Cl- 5.2.13.1 (Amendment No. 2)(Insock- Abrasion resistance) |
- |
0 |
|
- |
| Cl- 5.2.13.2 (Amendment No. 2)(Insock- Water absorption and desorption) |
- |
0 |
|
- |
| Cl.5.2.5 Compact Sole Heel
Cl.5.2.5.1 IS 3400 (Part 2)(requirements prescribed in col 3 of Table 2 when tested
as per corresponding test methods prescribed in col 4
of Table 2.
i)i) Hardness (IRHD) |
- |
0 |
|
- |
| Cl.5.2.8.2 (Minimum breaking load of 60 kg is to be
achieved when tested between 18 cm grip length in
accordance with Annex C.) |
- |
0 |
|
- |
| Cl.5.3.2 (The tongue shall be made out of composite upper
material and shall be half bellow type for Type 2 and
full bellow type for Type 1.) |
- |
0 |
|
- |
| 7.2(Resistance to electricity) |
- |
0 |
|
- |
| Cl.5.2.5 Compact Sole Heel
Cl.5.2.5.1 IS 3400 (Part 2)(requirements prescribed in col 3 of Table 2 when tested
as per corresponding test methods prescribed in col 4
of Table 2.
i)i) Hardness (IRHD) |
- |
0 |
|
- |
| Cl.6.3 Tear Strength of Compact Outsole(
When outsoles are tested in accordance to 8.2 of
IS 15298 (Part 1), the tear strength shall be not less
than 8 kN/m for material having density higher
than 0.9/cm³ and when density of material is less than
or equal to 0.9 g/cm³, tear strength shall not be less
than 5 kN/m.) |
- |
0 |
|
- |
| Cl.5.2.3 Coated Binding Material
IS 1954(
Coated binding materials shall conform to the
requirements given in col 3 of Table 1 when tested
according to the methods prescribed in col 4 of Table 1.
i)Width in mm,
) |
- |
0 |
|
- |
| Cl.5.2.1.4 ( Type 2 footwear, the composite upper
material shall comply with requirements of water coefficient as prescribed
in 5.4.6 of IS 15298 (Part 2).) |
- |
0 |
|
- |
| Cl.5.13 Energy Absorption Test(When footwear is tested in accordance with the method
prescribed in 5.14 of IS 15298 (Part 1), the energy
absorption of the seat region shall not be less than 20 J.) |
- |
0 |
|
- |
| Cl.5.2.3 Coated Binding Material
Annex C(ii) Breaking load in N, Min (50 cm grip length test specimen) ) |
- |
0 |
|
- |
| Cl.5.2.1.4 ( Type 2 footwear, the composite upper
material shall comply with requirements of water
vapour permeability as prescribed
in 5.4.6 of IS 15298 (Part 2).) |
- |
0 |
|
- |
| CL.5.2.10 Counter Stiffener(
A counter stiffener, made out of textile reinforced withpolymer/rubber including (thermoplastic) having
thickness not less than 1.5 mm is to be stitched at inside
of upper so as to fortify the back of the footwear at
joints of quarter.) |
- |
0 |
|
- |
| Cl.5.1.1 Fittings(Fittings of the footwear shall be in conformity to Table 9
of IS 1638 (measurement of men’s lasts) and Table 8
of IS 1638 (measurement of women’s lasts).) |
- |
0 |
|
- |
| Cl.5.2.1 Upper
Cl.5.2.1.1
IS 3400(Part 5)( Composite upper material shall comply with consolidation test as per 5.10.(IS 3400 (Part 5). There shall be no separation at a load
of 1.5 kg.)) |
- |
0 |
|
- |
| Cl.5.2.2 Compact Insole/Compact Insocks/Counter
Stiffener Lining(Textile material shall be used as lining material for
compact insole/compact insocks / counter stiffener. It
shall meet the requirement of tear strength as prescribed
in 5.6.1 of IS 15298 (Part 2).) |
- |
0 |
|
- |
| Cl.5.2.5 Compact Sole Heel
Cl. 5.2.5.1
(The compact sole heel shall be made out
of polymeric/rubber components and the typical design
recommendation (not mandatory) of compact sole heel
is as shown in Fig. 3. Sectional view of Type 1/Type 2
)
toe position is given in Fig. 4.) |
- |
0 |
|
- |
| Cl.5.2.5 Compact Sole Heel
5.2.5.1 IS 3400 (Part 4)(ii)*Change in hardness after
accelerated ageing at 100 ± 2
°C for 24 h
) |
- |
0 |
|
- |
| Cl.5.2.5.3 Ageing for whole footwear(When rubber is used for manufacturing boots or when
the outer sole heel is made of bi-polymer, the finished
boots shall be aged at 100 ± 2°C for 24 h. On completion of test, all rubber components shall not
develop any sign of tackiness or brittleness.) |
- |
0 |
|
- |
| Cl.5.2.5.4 Thickness of compact sole hee(Thickness of compact sole heel of the boots shall
comply with the thickness and material requirements
prescribed in Table 3.) |
- |
0 |
|
- |
| Cl.5.2.5.4 Thickness of compact sole hee(of black cotton thread, the same shall be free from
sulphur dyes when tested in accordance with
Annex B.) |
- |
0 |
|
- |
| Cl.5.2.6 Thread for Upper Closing(
The length (m/kg) and construction of sewing thread
shall conform to requirements as prescribed in
Table 4.) |
- |
0 |
|
- |
| Cl.5.2.7 Safety Toe Cap(Safety toe cap as per 3.6 shall be fitted into the footwear and must not come out while in use.) |
- |
0 |
|
- |
| Cl.5.2.8.3( In case of cotton lace of black colour, the same
shall be free from sulphur dyes when tested in
accordance with Annex B. Two ends of the laces shall
be provided with plastic tips.) |
- |
0 |
|
- |
| Cl.5.2.9 Eyelets(
Aluminum eyelets of external collar diameter not less
than 10 mm and wall thickness of 0.30 to 0.35 mm
shall be used.) |
- |
0 |
|
- |
| Cl.5.4 Finish(
In appearance, general workmanship and in all other
respects with regard to finish and get up of the footwear,
the footwear shall be matching to the approved sample
of the purchaser.) |
- |
0 |
|
- |
| Cl.5.5 Mass(The mass of one pair of finished footwear of size 8
shall not exceed 1 500 g for Type 1 and 1 400 g for
Type 2 with an increase or decrease of 100 g for each
bigger or smaller size, respectively.) |
- |
0 |
|
- |
| Cl.5.6( Height of Upper
Height of upper of the boots shall conform to column 5
(Design C) and column 4 (Design B) of 5.2.2, Table 4
of IS 15298 (Part 2) for Type 1 and Type 2, respectively
when measured as per 6.2 of IS 15298 (Part 1) on the
inside of the back of the footwear and from seat of the
insole to top edge of the upper.) |
- |
0 |
|
- |
| Cl.5.7 Performance Test(When safety footwear is tested in accordance with the
method described in 5.4 of IS 15298 (Part 1), at an
impact energy of (200 ± 4) J, the clearance under the
toecap at the moment of impact shall be in accordance
with Table 5. In addition, the toecap shall not develop
any cracks which go through the material, that is,
through which light can be seen.) |
- |
0 |
|
- |
| Cl.5.8 Upper/Outsole Bond Strength(When the footwear is tested in accordance with the
method prescribed in 5.2 of IS 15298 (Part 1), the bond
strength shall not be less than 4.0 N/mm, unless there
is tearing of the sole in which case the bond strength
shall not be less than 3.0 N/mm.) |
- |
0 |
|
- |
| Cl.5.9 Sole Interlayer Bond Strength for Bi-polymer(
and Bi-density Sole
When tested in accordance with 5.2 of IS 15298 (Part 1),
the bond strength between the outer or cleated layer
and the adjacent layer shall not be less than 4.0 N/mm
unless there is tearing of any part of the sole, in which
case the bond strength shall not be less than 3.0 N/mm.) |
- |
0 |
|
- |
| Cl.5.10 Consolidation Test(
Representative sample of width 25 ± 0.5 mm are cut
out from the quarter of the upper along the length of
boot. The plies are separated by breaking the bond.
Carry out the test on two specimens in accordance with
IS 3400 (Part 5). Th) |
- |
0 |
|
- |
| Cl.5.11 Compression Resistance(
5.11.1 When safety boots are tested in accordance
with 5.5 of IS 15298 (Part 1), the clearance under the
toe cap at a compression load of 15 kN ± 0.1 kN shall
be in accordance with Table 5.) |
- |
0 |
|
- |
| Cl.5.12 Internal Length of Toe Cap(
For safety boots, internal length of the toe cap shall
meet the specification given in Table 5 of IS 15298
(Part 2) when tested as per 5.3 of IS 15298 (Part 1).) |
- |
0 |
|
- |
| Cl.6.1 Abrasion Resistance of Compact Outsole(
When outsole is tested in accordance with 8.3 of
IS 15298 (Part 1), the relative volume loss shall not
be greater than 250 mm³ for materials having density
0.9 g/cm³ or less, and not greater than 150 mm³ for
materials with density greater than 0.9 g/cm³.) |
- |
0 |
|
- |
| Cl.6.2 Flexing Resistance of Compact Outsole(
When outsole is tested in accordance with 8.4 of
IS 15298 (Part 1), the cut growth shall not be greater
than 4 mm before 30 000 cycles.) |
- |
0 |
|
- |
| Cl.6.4 Resistance to Hot Contact( — Sole Heel
When sole heel is tested in accordance with 8.7 of IS 15298 (Part 1), the material shall not melt/deform
and shall not develop any cracks when bent around the
mandrel.) |
- |
0 |
|
- |
| Cl.6.5 Hydrolysis(
When bottom sole or other components are made out
of polyurethane, the same shall be tested in accordance
with 8.5 of IS 15298 (Part 1) and the same shall comply
with 5.8.5 of IS 15298 (Part 2).) |
- |
0 |
|
- |
| Cl.5.2.5 Compact Sole Heel
Cl.5.2.5.1 IS 3400 (Part 2)(requirements prescribed in col 3 of Table 2 when tested
as per corresponding test methods prescribed in col 4
of Table 2.
i)i) Hardness (IRHD) |
- |
0 |
|
- |
| Cl.6.3 Tear Strength of Compact Outsole(
When outsoles are tested in accordance to 8.2 of
IS 15298 (Part 1), the tear strength shall be not less
than 8 kN/m for material having density higher
than 0.9/cm³ and when density of material is less than
or equal to 0.9 g/cm³, tear strength shall not be less
than 5 kN/m.) |
- |
0 |
|
- |
| Cl.5.2.3 Coated Binding Material
IS 1954(
Coated binding materials shall conform to the
requirements given in col 3 of Table 1 when tested
according to the methods prescribed in col 4 of Table 1.
i)Width in mm,
) |
- |
0 |
|
- |
| Cl.5.2.1.4 ( Type 2 footwear, the composite upper
material shall comply with requirements of water coefficient as prescribed
in 5.4.6 of IS 15298 (Part 2).) |
- |
0 |
|
- |
| Cl.5.13 Energy Absorption Test(When footwear is tested in accordance with the method
prescribed in 5.14 of IS 15298 (Part 1), the energy
absorption of the seat region shall not be less than 20 J.) |
- |
0 |
|
- |
| Cl.5.2.3 Coated Binding Material
Annex C(ii) Breaking load in N, Min (50 cm grip length test specimen) ) |
- |
0 |
|
- |
| Cl.5.2.1.4 ( Type 2 footwear, the composite upper
material shall comply with requirements of water
vapour permeability as prescribed
in 5.4.6 of IS 15298 (Part 2).) |
- |
0 |
|
- |
| CL.5.2.10 Counter Stiffener(
A counter stiffener, made out of textile reinforced withpolymer/rubber including (thermoplastic) having
thickness not less than 1.5 mm is to be stitched at inside
of upper so as to fortify the back of the footwear at
joints of quarter.) |
- |
0 |
|
- |
| Cl.5.1.1 Fittings(Fittings of the footwear shall be in conformity to Table 9
of IS 1638 (measurement of men’s lasts) and Table 8
of IS 1638 (measurement of women’s lasts).) |
- |
0 |
|
- |
| Cl.5.2.1 Upper
Cl.5.2.1.1
IS 3400(Part 5)( Composite upper material shall comply with consolidation test as per 5.10.(IS 3400 (Part 5). There shall be no separation at a load
of 1.5 kg.)) |
- |
0 |
|
- |
| Cl.5.2.5.3 Ageing for whole footwear(When rubber is used for manufacturing boots or when
the outer sole heel is made of bi-polymer, the finished
boots shall be aged at 100 ± 2°C for 24 h. On completion of test, all rubber components shall not
develop any sign of tackiness or brittleness.) |
- |
0 |
|
- |
| Cl.5.2.5 Compact Sole Heel
5.2.5.1 IS 3400 (Part 4)(ii)*Change in hardness after
accelerated ageing at 100 ± 2
°C for 24 h
) |
- |
0 |
|
- |
| Cl.5.2.5 Compact Sole Heel
Cl. 5.2.5.1
(The compact sole heel shall be made out
of polymeric/rubber components and the typical design
recommendation (not mandatory) of compact sole heel
is as shown in Fig. 3. Sectional view of Type 1/Type 2
)
toe position is given in Fig. 4.) |
- |
0 |
|
- |
| Cl.5.2.2 Compact Insole/Compact Insocks/Counter
Stiffener Lining(Textile material shall be used as lining material for
compact insole/compact insocks / counter stiffener. It
shall meet the requirement of tear strength as prescribed
in 5.6.1 of IS 15298 (Part 2).) |
- |
0 |
|
- |
| Cl.5.2.5.4 Thickness of compact sole hee(Thickness of compact sole heel of the boots shall
comply with the thickness and material requirements
prescribed in Table 3.) |
- |
0 |
|
- |
| Cl.5.2.5.4 Thickness of compact sole hee(of black cotton thread, the same shall be free from
sulphur dyes when tested in accordance with
Annex B.) |
- |
0 |
|
- |
| Cl.5.2.6 Thread for Upper Closing(
The length (m/kg) and construction of sewing thread
shall conform to requirements as prescribed in
Table 4.) |
- |
0 |
|
- |
| Cl.5.2.7 Safety Toe Cap(Safety toe cap as per 3.6 shall be fitted into the footwear and must not come out while in use.) |
- |
0 |
|
- |
| Cl.5.2.8.1( The boots shall be provided with laces having minimum length of 115 cm for Type 1 and minimum
100 cm for Type 2.) |
- |
0 |
|
- |
| Cl.5.2.8.2 (Minimum breaking load of 60 kg is to be
achieved when tested between 18 cm grip length in
accordance with Annex C.) |
- |
0 |
|
- |
| Cl.5.2.8.3( In case of cotton lace of black colour, the same
shall be free from sulphur dyes when tested in
accordance with Annex B. Two ends of the laces shall
be provided with plastic tips.) |
- |
0 |
|
- |
| Cl.5.2.9 Eyelets(
Aluminum eyelets of external collar diameter not less
than 10 mm and wall thickness of 0.30 to 0.35 mm
shall be used.) |
- |
0 |
|
- |
| Cl.5.4 Finish(
In appearance, general workmanship and in all other
respects with regard to finish and get up of the footwear,
the footwear shall be matching to the approved sample
of the purchaser.) |
- |
0 |
|
- |
| Cl.5.5 Mass(The mass of one pair of finished footwear of size 8
shall not exceed 1 500 g for Type 1 and 1 400 g for
Type 2 with an increase or decrease of 100 g for each
bigger or smaller size, respectively.) |
- |
0 |
|
- |
| Cl.5.6( Height of Upper
Height of upper of the boots shall conform to column 5
(Design C) and column 4 (Design B) of 5.2.2, Table 4
of IS 15298 (Part 2) for Type 1 and Type 2, respectively
when measured as per 6.2 of IS 15298 (Part 1) on the
inside of the back of the footwear and from seat of the
insole to top edge of the upper.) |
- |
0 |
|
- |
| Cl.5.7 Performance Test(When safety footwear is tested in accordance with the
method described in 5.4 of IS 15298 (Part 1), at an
impact energy of (200 ± 4) J, the clearance under the
toecap at the moment of impact shall be in accordance
with Table 5. In addition, the toecap shall not develop
any cracks which go through the material, that is,
through which light can be seen.) |
- |
0 |
|
- |
| Cl.5.8 Upper/Outsole Bond Strength(When the footwear is tested in accordance with the
method prescribed in 5.2 of IS 15298 (Part 1), the bond
strength shall not be less than 4.0 N/mm, unless there
is tearing of the sole in which case the bond strength
shall not be less than 3.0 N/mm.) |
- |
0 |
|
- |
| Cl.5.9 Sole Interlayer Bond Strength for Bi-polymer(
and Bi-density Sole
When tested in accordance with 5.2 of IS 15298 (Part 1),
the bond strength between the outer or cleated layer
and the adjacent layer shall not be less than 4.0 N/mm
unless there is tearing of any part of the sole, in which
case the bond strength shall not be less than 3.0 N/mm.) |
- |
0 |
|
- |
| Cl.5.10 Consolidation Test(
Representative sample of width 25 ± 0.5 mm are cut
out from the quarter of the upper along the length of
boot. The plies are separated by breaking the bond.
Carry out the test on two specimens in accordance with
IS 3400 (Part 5). Th) |
- |
0 |
|
- |
| Cl.5.11 Compression Resistance(
5.11.1 When safety boots are tested in accordance
with 5.5 of IS 15298 (Part 1), the clearance under the
toe cap at a compression load of 15 kN ± 0.1 kN shall
be in accordance with Table 5.) |
- |
0 |
|
- |
| Cl.5.12 Internal Length of Toe Cap(
For safety boots, internal length of the toe cap shall
meet the specification given in Table 5 of IS 15298
(Part 2) when tested as per 5.3 of IS 15298 (Part 1).) |
- |
0 |
|
- |
| Cl.6.1 Abrasion Resistance of Compact Outsole(
When outsole is tested in accordance with 8.3 of
IS 15298 (Part 1), the relative volume loss shall not
be greater than 250 mm³ for materials having density
0.9 g/cm³ or less, and not greater than 150 mm³ for
materials with density greater than 0.9 g/cm³.) |
- |
0 |
|
- |
| Cl.6.2 Flexing Resistance of Compact Outsole(
When outsole is tested in accordance with 8.4 of
IS 15298 (Part 1), the cut growth shall not be greater
than 4 mm before 30 000 cycles.) |
- |
0 |
|
- |
| Cl.6.4 Resistance to Hot Contact( — Sole Heel
When sole heel is tested in accordance with 8.7 of IS 15298 (Part 1), the material shall not melt/deform
and shall not develop any cracks when bent around the
mandrel.) |
- |
0 |
|
- |
| Cl.6.5 Hydrolysis(
When bottom sole or other components are made out
of polyurethane, the same shall be tested in accordance
with 8.5 of IS 15298 (Part 1) and the same shall comply
with 5.8.5 of IS 15298 (Part 2).) |
- |
0 |
|
- |
| Cl.5.2.5 Compact Sole Heel
Cl.5.2.5.1 IS 3400 (Part 2)(requirements prescribed in col 3 of Table 2 when tested
as per corresponding test methods prescribed in col 4
of Table 2.
i)i) Hardness (IRHD) |
- |
0 |
|
- |
| Cl.6.3 Tear Strength of Compact Outsole(
When outsoles are tested in accordance to 8.2 of
IS 15298 (Part 1), the tear strength shall be not less
than 8 kN/m for material having density higher
than 0.9/cm³ and when density of material is less than
or equal to 0.9 g/cm³, tear strength shall not be less
than 5 kN/m.) |
- |
0 |
|
- |
| Cl.5.2.3 Coated Binding Material
IS 1954(
Coated binding materials shall conform to the
requirements given in col 3 of Table 1 when tested
according to the methods prescribed in col 4 of Table 1.
i)Width in mm,
) |
- |
0 |
|
- |
| Cl.5.2.1.4 ( Type 2 footwear, the composite upper
material shall comply with requirements of water coefficient as prescribed
in 5.4.6 of IS 15298 (Part 2).) |
- |
0 |
|
- |
| Cl.5.13 Energy Absorption Test(When footwear is tested in accordance with the method
prescribed in 5.14 of IS 15298 (Part 1), the energy
absorption of the seat region shall not be less than 20 J.) |
- |
0 |
|
- |
| Cl.5.2.3 Coated Binding Material
Annex C(ii) Breaking load in N, Min (50 cm grip length test specimen) ) |
- |
0 |
|
- |
| Cl.5.2.1.4 ( Type 2 footwear, the composite upper
material shall comply with requirements of water
vapour permeability as prescribed
in 5.4.6 of IS 15298 (Part 2).) |
- |
0 |
|
- |
| CL.5.2.10 Counter Stiffener(
A counter stiffener, made out of textile reinforced withpolymer/rubber including (thermoplastic) having
thickness not less than 1.5 mm is to be stitched at inside
of upper so as to fortify the back of the footwear at
joints of quarter.) |
- |
0 |
|
- |
| Cl.5.1.1 Fittings(Fittings of the footwear shall be in conformity to Table 9
of IS 1638 (measurement of men’s lasts) and Table 8
of IS 1638 (measurement of women’s lasts).) |
- |
0 |
|
- |
| Cl.5.2.1 Upper
Cl.5.2.1.1
IS 3400(Part 5)( Composite upper material shall comply with consolidation test as per 5.10.(IS 3400 (Part 5). There shall be no separation at a load
of 1.5 kg.)) |
- |
0 |
|
- |
| Cl.5.2.1.2( Composite upper material shall comply with
tear strength as per 5.4.3 of IS 15298 (Part 2).) |
- |
0 |
|
- |
| Cl.5.2.1.5( Inner layer of upper shall meet requirement of abrasion resistance as prescribed in 5.5.2 of IS 15298 (Part 2).) |
- |
0 |
|
- |
| Cl.5.2.2.1 Abrasion resistance of compact insole/insocks/
counter stiffener(
When textiles used as lining for all the above are tested
in accordance with 6.12 of IS 15298 (Part 1), the lining
shall not develop any holes before the following number
of cycles has been performed:) |
- |
0 |
|
- |
| Cl.5.2.2 Compact Insole/Compact Insocks/Counter
Stiffener Lining(Textile material shall be used as lining material for
compact insole/compact insocks / counter stiffener. It
shall meet the requirement of tear strength as prescribed
in 5.6.1 of IS 15298 (Part 2).) |
- |
0 |
|
- |
| Cl.5.2.2.1 Abrasion resistance of compact insole/insocks/
counter stiffener(
When textiles used as lining for all the above are tested
in accordance with 6.12 of IS 15298 (Part 1), the lining
shall not develop any holes before the following number
of cycles has been performed:) |
- |
0 |
|
- |
| Cl.5.2.5 Compact Sole Heel
Cl. 5.2.5.1
(The compact sole heel shall be made out
of polymeric/rubber components and the typical design
recommendation (not mandatory) of compact sole heel
is as shown in Fig. 3. Sectional view of Type 1/Type 2
)
toe position is given in Fig. 4.) |
- |
0 |
|
- |
| Cl.5.2.5 Compact Sole Heel
5.2.5.1 IS 3400 (Part 4)(ii)*Change in hardness after
accelerated ageing at 100 ± 2
°C for 24 h
) |
- |
0 |
|
- |
| Cl.5.2.5.3 Ageing for whole footwear(When rubber is used for manufacturing boots or when
the outer sole heel is made of bi-polymer, the finished
boots shall be aged at 100 ± 2°C for 24 h. On completion of test, all rubber components shall not
develop any sign of tackiness or brittleness.) |
- |
0 |
|
- |
| Cl.5.2.5.4 Thickness of compact sole hee(Thickness of compact sole heel of the boots shall
comply with the thickness and material requirements
prescribed in Table 3.) |
- |
0 |
|
- |
| Cl.5.2.5.4 Thickness of compact sole hee(of black cotton thread, the same shall be free from
sulphur dyes when tested in accordance with
Annex B.) |
- |
0 |
|
- |
| Cl.5.2.6 Thread for Upper Closing(
The length (m/kg) and construction of sewing thread
shall conform to requirements as prescribed in
Table 4.) |
- |
0 |
|
- |
| Cl.5.2.7 Safety Toe Cap(Safety toe cap as per 3.6 shall be fitted into the footwear and must not come out while in use.) |
- |
0 |
|
- |
| Cl.5.3.2 (The tongue shall be made out of composite upper
material and shall be half bellow type for Type 2 and
full bellow type for Type 1.) |
- |
0 |
|
- |
| Cl.5.2.9 Eyelets(
Aluminum eyelets of external collar diameter not less
than 10 mm and wall thickness of 0.30 to 0.35 mm
shall be used.) |
- |
0 |
|
- |
| Cl.5.3.5 Outer toe cap( shall be provided which is made
of polymer/rubber and it shall be strongly adhered such
that it shall not open up or come out while in use. Toe
of the boot shall be reinforced with safety toe cap) |
- |
0 |
|
- |
| Cl.5.3.6( A designed foxing of width of minimum 25 mm
and of thickness of minimum 2 mm is to be provided.
The foxing shall not extend the edges of the outer
sole.) |
- |
0 |
|
- |
| Cl.5.3.7( Two pairs of detachable insocks are to be
provided. The insocks shall be compact in nature having
thickness not less than 2 mm.) |
- |
0 |
|
- |
| Cl.5.4 Finish(
In appearance, general workmanship and in all other
respects with regard to finish and get up of the footwear,
the footwear shall be matching to the approved sample
of the purchaser.) |
- |
0 |
|
- |
| Cl.5.5 Mass(The mass of one pair of finished footwear of size 8
shall not exceed 1 500 g for Type 1 and 1 400 g for
Type 2 with an increase or decrease of 100 g for each
bigger or smaller size, respectively.) |
- |
0 |
|
- |
| Cl.5.6( Height of Upper
Height of upper of the boots shall conform to column 5
(Design C) and column 4 (Design B) of 5.2.2, Table 4
of IS 15298 (Part 2) for Type 1 and Type 2, respectively
when measured as per 6.2 of IS 15298 (Part 1) on the
inside of the back of the footwear and from seat of the
insole to top edge of the upper.) |
- |
0 |
|
- |
| Cl.5.7 Performance Test(When safety footwear is tested in accordance with the
method described in 5.4 of IS 15298 (Part 1), at an
impact energy of (200 ± 4) J, the clearance under the
toecap at the moment of impact shall be in accordance
with Table 5. In addition, the toecap shall not develop
any cracks which go through the material, that is,
through which light can be seen.) |
- |
0 |
|
- |
| Cl.5.8 Upper/Outsole Bond Strength(When the footwear is tested in accordance with the
method prescribed in 5.2 of IS 15298 (Part 1), the bond
strength shall not be less than 4.0 N/mm, unless there
is tearing of the sole in which case the bond strength
shall not be less than 3.0 N/mm.) |
- |
0 |
|
- |
| Cl.5.9 Sole Interlayer Bond Strength for Bi-polymer(
and Bi-density Sole
When tested in accordance with 5.2 of IS 15298 (Part 1),
the bond strength between the outer or cleated layer
and the adjacent layer shall not be less than 4.0 N/mm
unless there is tearing of any part of the sole, in which
case the bond strength shall not be less than 3.0 N/mm.) |
- |
0 |
|
- |
| Cl.5.2.3.1 In case of cotton black binding materia( the same shall be free from sulphur dyes when tested in
accordance with Annex B.) |
- |
0 |
|
- |
| Cl.5.2.8.1( The boots shall be provided with laces having minimum length of 115 cm for Type 1 and minimum
100 cm for Type 2.) |
- |
0 |
|
- |
| Cl. 8 (IS 17011, Table-1 (i))(Allergenic and carcinogenic disperse dyes) |
- |
0 |
|
- |
| Cl.5.3.5 Outer toe cap( shall be provided which is made
of polymer/rubber and it shall be strongly adhered such
that it shall not open up or come out while in use. Toe
of the boot shall be reinforced with safety toe cap) |
- |
0 |
|
- |
| Cl.5.10 Consolidation Test(
Representative sample of width 25 ± 0.5 mm are cut
out from the quarter of the upper along the length of
boot. The plies are separated by breaking the bond.
Carry out the test on two specimens in accordance with
IS 3400 (Part 5). Th) |
- |
0 |
|
- |
| Cl.5.11 Compression Resistance(
5.11.1 When safety boots are tested in accordance
with 5.5 of IS 15298 (Part 1), the clearance under the
toe cap at a compression load of 15 kN ± 0.1 kN shall
be in accordance with Table 5.) |
- |
0 |
|
- |
| Cl.5.12 Internal Length of Toe Cap(
For safety boots, internal length of the toe cap shall
meet the specification given in Table 5 of IS 15298
(Part 2) when tested as per 5.3 of IS 15298 (Part 1).) |
- |
0 |
|
- |
| Cl.6.1 Abrasion Resistance of Compact Outsole(
When outsole is tested in accordance with 8.3 of
IS 15298 (Part 1), the relative volume loss shall not
be greater than 250 mm³ for materials having density
0.9 g/cm³ or less, and not greater than 150 mm³ for
materials with density greater than 0.9 g/cm³.) |
- |
0 |
|
- |
| Cl.6.2 Flexing Resistance of Compact Outsole(
When outsole is tested in accordance with 8.4 of
IS 15298 (Part 1), the cut growth shall not be greater
than 4 mm before 30 000 cycles.) |
- |
0 |
|
- |
| Cl.6.4 Resistance to Hot Contact( — Sole Heel
When sole heel is tested in accordance with 8.7 of IS 15298 (Part 1), the material shall not melt/deform
and shall not develop any cracks when bent around the
mandrel.) |
- |
0 |
|
- |
| Cl.6.5 Hydrolysis(
When bottom sole or other components are made out
of polyurethane, the same shall be tested in accordance
with 8.5 of IS 15298 (Part 1) and the same shall comply
with 5.8.5 of IS 15298 (Part 2).) |
- |
0 |
|
- |
| 4(Types) |
- |
0 |
|
- |
| 5(Requirements) |
- |
0 |
|
- |
| 5.1(Design) |
- |
0 |
|
- |
| 5.10(consolidation test IS 3400 (Part 5)) |
- |
0 |
|
- |
| 5.2.4(Reinforcing Material) |
- |
0 |
|
- |
| 5.2.8.4(Colour of the lace) |
- |
0 |
|
- |
| 5.3, 5.3.1,5.3.3,5.3.4(Construction) |
- |
0 |
|
- |
| 5.10(Consolidation Test IS 3400 (Part 5) : 1986) |
- |
0 |
|
- |
| 8(CHEMICAL REQUIREMENTS) |
- |
0 |
|
- |
| 9, 9.1(BIS CERTIFICATION MARKING) |
- |
0 |
|
- |
| 10(Marking) |
- |
0 |
|
- |
| 11(Packing) |
- |
0 |
|
- |
| Cl. 5.2.4(Reinforcing Material) |
- |
0 |
|
- |
| Cl. 5.2.8.4(Colour of the lace) |
- |
0 |
|
- |
| Cl. 5.3(Construction 5.3.1,5.3.3,5.3.4) |
- |
0 |
|
- |
| 10(Marking) |
- |
0 |
|
- |
| 7.1(Resistance to fuel) |
- |
0 |
|
- |
| 9, 9.1(BIS CERTIFICATION MARKING) |
- |
0 |
|
- |
| Cl.5.2.1.3 ,
Cl.6.5 of IS 15298 (Part 1).( Composite upper material shall develop no cracks before 150 000 cycles when tested in accordance
with 6.5 of IS 15298 (Part 1).) |
- |
0 |
|
- |
| Cl.5.3.6( A designed foxing of width of minimum 25 mm
and of thickness of minimum 2 mm is to be provided.
The foxing shall not extend the edges of the outer
sole.) |
- |
0 |
|
- |
| Cl.5.3.7( Two pairs of detachable insocks are to be
provided. The insocks shall be compact in nature having
thickness not less than 2 mm.) |
- |
0 |
|
- |
| Cl.5.2.1.2( Composite upper material shall comply with
tear strength as per 5.4.3 of IS 15298 (Part 2).) |
- |
0 |
|
- |
| Cl.5.2.1.3 ,
Cl.6.5 of IS 15298 (Part 1).( Composite upper material shall develop no cracks before 150 000 cycles when tested in accordance
with 6.5 of IS 15298 (Part 1).) |
- |
0 |
|
- |
| Cl.5.2.1.5( Inner layer of upper shall meet requirement of abrasion resistance as prescribed in 5.5.2 of IS 15298 (Part 2).) |
- |
0 |
|
- |
| Cl.5.2.2.1 Abrasion resistance of compact insole/insocks/
counter stiffener(
When textiles used as lining for all the above are tested
in accordance with 6.12 of IS 15298 (Part 1), the lining
shall not develop any holes before the following number
of cycles has been performed:) |
- |
0 |
|
- |
| Cl.5.2.3.1 In case of cotton black binding materia( the same shall be free from sulphur dyes when tested in
accordance with Annex B.) |
- |
0 |
|
- |
| Cl.5.3.2 (The tongue shall be made out of composite upper
material and shall be half bellow type for Type 2 and
full bellow type for Type 1.) |
- |
0 |
|
- |
| Cl.5.3.5 Outer toe cap( shall be provided which is made
of polymer/rubber and it shall be strongly adhered such
that it shall not open up or come out while in use. Toe
of the boot shall be reinforced with safety toe cap) |
- |
0 |
|
- |
| Cl.5.3.6( A designed foxing of width of minimum 25 mm
and of thickness of minimum 2 mm is to be provided.
The foxing shall not extend the edges of the outer
sole.) |
- |
0 |
|
- |
| Cl.5.3.7( Two pairs of detachable insocks are to be
provided. The insocks shall be compact in nature having
thickness not less than 2 mm.) |
- |
0 |
|
- |
| Cl.5.2.1.2( Composite upper material shall comply with
tear strength as per 5.4.3 of IS 15298 (Part 2).) |
- |
0 |
|
- |
| Cl.5.2.1.3 ,
Cl.6.5 of IS 15298 (Part 1).( Composite upper material shall develop no cracks before 150 000 cycles when tested in accordance
with 6.5 of IS 15298 (Part 1).) |
- |
0 |
|
- |
| Cl.5.2.1.5( Inner layer of upper shall meet requirement of abrasion resistance as prescribed in 5.5.2 of IS 15298 (Part 2).) |
- |
0 |
|
- |
| Cl.5.2.3.1 In case of cotton black binding materia( the same shall be free from sulphur dyes when tested in
accordance with Annex B.) |
- |
0 |
|
- |
| 11(PACKING) |
- |
0 |
|
- |
| Cl.5.2.8.1( The boots shall be provided with laces having minimum length of 115 cm for Type 1 and minimum
100 cm for Type 2.) |
- |
0 |
|
- |
| Cl.5.2.8.2 (Minimum breaking load of 60 kg is to be
achieved when tested between 18 cm grip length in
accordance with Annex C.) |
- |
0 |
|
- |
| Cl.5.2.8.3( In case of cotton lace of black colour, the same
shall be free from sulphur dyes when tested in
accordance with Annex B. Two ends of the laces shall
be provided with plastic tips.) |
- |
0 |
|
- |
| Cl-8 (IS 17011, Table-1 (ii)(Aromatic amines released from Azo dyes (each individual amine)) |
- |
0 |
|
- |
| Cl-8 (IS 17011, Table-1 (iii)(Aromatic amines released from Azo dyes (each individual amine)) |
- |
0 |
|
- |
| Cl-8(IS 17011, Table-1 (iv)(Chromium (VI)) |
- |
0 |
|
- |
| Cl-8 (IS 17011, Table-1 (v)(Dimethyl fumarate (DMFU)) |
- |
0 |
|
- |
| Cl-8 (IS 17011, Table-1 (vi)(Formaldehyde (free or released by partial hydrolysis)) |
- |
0 |
|
- |
| Cl-8 (IS 17011, Table-1 (vii)(Formaldehyde) |
- |
0 |
|
- |
| Cl-8(IS 17011, Table-1 (viii)(Organotin compounds) |
- |
0 |
|
- |
| Cl-8 (IS 17011, Table-1 (ix)(PCP-TeCP-TriCP polychlorophenols) |
- |
0 |
|
- |
| Cl-8 (IS 17011, Table-1 (x)(pH) |
- |
0 |
|
- |
| Cl-8 (IS 17011, Table-1 (xi)(Phthalates (each individual phthalate)) |
- |
0 |
|
- |
| Cl-8 (IS 17011, Table-1 (xii)(Nickel, on skin contact) |
- |
0 |
|
- |
| Cl- 5.2.8.1 (Amendment No. 2)(General) |
- |
0 |
|
- |
| Cl- 5.2.8.2 (Amendment No. 2)(Internal length of toecap) |
- |
0 |
|
- |
| Cl- 5.2.8.3 (Amendment No. 2)(Corrosion resistance) |
- |
0 |
|
- |
| Cl- 5.2.9.5 (Amendment No. 2)(Breaking load and tag retention) |
- |
0 |
|
- |
| Cl- 5.2.9.6.1 (Amendment No. 2)(Abrasion resistance- Lace to lace) |
- |
0 |
|
- |
| Cl- 5.2.9.6.2 (Amendment No. 2)(Abrasion resistance- Lace to eyelet) |
- |
0 |
|
- |
| Cl- 5.2.10 (Amendment No. 2)(Force required to pull out the eyelets) |
- |
0 |
|
- |
| Cl- 5.2.12.1 (Amendment No. 2)(Insole- Material and thickness) |
- |
0 |
|
- |
| Cl- 5.2.12.2 (Amendment No. 2)(Insole- Abrasion resistance) |
- |
0 |
|
- |
| Cl- 5.2.12.3 (Amendment No. 2)(Insole- Water absorption and desorption) |
- |
0 |
|
- |
| Cl- 5.2.13.1 (Amendment No. 2)(Insock- Abrasion resistance) |
- |
0 |
|
- |
| Cl- 5.2.13.2 (Amendment No. 2)(Insock- Water absorption and desorption) |
- |
0 |
|
- |
| Cl.5.2.8.2 (Minimum breaking load of 60 kg is to be
achieved when tested between 18 cm grip length in
accordance with Annex C.) |
- |
0 |
|
- |
| Cl.5.3.2 (The tongue shall be made out of composite upper
material and shall be half bellow type for Type 2 and
full bellow type for Type 1.) |
- |
0 |
|
- |
| 7.2(Resistance to electricity) |
- |
0 |
|
- |
