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11262 Results

S.No.

Lab Name

Indian Standard No.

Product

Grade / Type / Size / Designation etc.

Testing Charges (Excl. Of Taxes)

Validity Date

Remark

1051

CENTRAL LEATHER RESEARCH INSTITUTE

IS 5557 (2004)

Industrial and protective rubber knee and ankle boots - Specification (Fourth Revision)

8200 View breakup
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Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
5/5.1.7/5.1.7.8(REQUIREMENTS- Physical Requirements-Resistance to oil)	-	500	-
5/5.1.1-Fig. 1, Fig. 2 and Fig. 3(REQUIREMENTS-Design)	-	0	-
5/5.1.2 -IS 1638(REQUIREMENTS-Size)	-	0	-
5/5.1.3-Table1(REQUIREMENTS-Thickness)	-	0	-
5/5.1.4/5.1.4.1-Table2(REQUIREMENTS-Materials-Rubber components)	-	3000	-
5/5.1.4/5.1.4.2(REQUIREMENTS-Materials-Fabric- accordance with IS 1969)	-	600	-
5/5.1.4/5.1.4.3(REQUIREMENTS-Materials-Protective Steel Toe Cap- an per IS 5852)	-	0	-
5/5.1.6/5.1.6.1-Fig. 1, Fig. 2, Fig. 3, .Fig. 4, Fig. 5 and Table 3.(REQUIREMENTS- Construction)	-	0	-
5/5.1.6/5.1.6.2(REQUIREMENTS- Construction)	-	0	-
5/5.1.7/5.1.7.1(REQUIREMENTS- Physical Requirements-Heat treatment- as per IS 3400 (Part 4))	-	400	-
5/5.1.7/5.1.7.2(REQUIREMENTS- Physical Requirements-Composite strength)	-	400	-
5/5.1.7/5.1.7.3-Table 4(REQUIREMENTS- Physical Requirements-Flexing endurance- as per Annex B.)	-	600	-
5/5.1.7/5.1.7.4(REQUIREMENTS- Physical Requirements- Leakage resistance test)	-	400	-
5/5.1.7/5.1.7.5(REQUIREMENTS- Physical Requirements- Consolidation test- as per IS IS 3400 (Part 5))	-	600	-
5/5.1.7/5.1.7.6(REQUIREMENTS- Physical Requirements- Performance test- as per Annex C)	-	0	-
5/5.1.7/5.1.7.7(REQUIREMENTS- Physical Requirements-Height of the boots)	-	200	-
5/5.1.7/5.1.7.8(REQUIREMENTS- Physical Requirements-Resistance to oil)	-	500	-
5/5.1.1-Fig. 1, Fig. 2 and Fig. 3(REQUIREMENTS-Design)	-	0	-
5/5.1.2 -IS 1638(REQUIREMENTS-Size)	-	0	-
5/5.1.3-Table1(REQUIREMENTS-Thickness)	-	0	-
5/5.1.4/5.1.4.1-Table2(REQUIREMENTS-Materials-Rubber components)	-	0	-
5/5.1.4/5.1.4.2(REQUIREMENTS-Materials-Fabric- accordance with IS 1969)	-	0	-
5/5.1.4/5.1.4.3(REQUIREMENTS-Materials-Protective Steel Toe Cap- an per IS 5852)	-	0	-
5/5.1.6/5.1.6.1-Fig. 1, Fig. 2, Fig. 3, .Fig. 4, Fig. 5 and Table 3.(REQUIREMENTS- Construction)	-	0	-
5/5.1.7/5.1.7.1(REQUIREMENTS- Physical Requirements-Heat treatment- as per IS 3400 (Part 4))	-	0	-
5/5.1.7/5.1.7.2(REQUIREMENTS- Physical Requirements-Composite strength)	-	0	-
5/5.1.7/5.1.7.3-Table 4(REQUIREMENTS- Physical Requirements-Flexing endurance- as per Annex B.)	-	0	-
5/5.1.7/5.1.7.4(REQUIREMENTS- Physical Requirements- Leakage resistance test)	-	0	-
5/5.1.7/5.1.7.5(REQUIREMENTS- Physical Requirements- Consolidation test- as per IS IS 3400 (Part 5))	-	0	-
5/5.1.7/5.1.7.6(REQUIREMENTS- Physical Requirements- Performance test- as per Annex C)	-	0	-
5/5.1.7/5.1.7.7(REQUIREMENTS- Physical Requirements-Height of the boots)	-	0	-
5/5.1.7/5.1.7.8(REQUIREMENTS- Physical Requirements-Resistance to oil)	-	0	-
5/5.1.1-Fig. 1, Fig. 2 and Fig. 3(REQUIREMENTS-Design)	-	0	-
5/5.1.2 -IS 1638(REQUIREMENTS-Size)	-	0	-
5/5.1.3-Table1(REQUIREMENTS-Thickness)	-	0	-
5/5.1.4/5.1.4.1-Table2(REQUIREMENTS-Materials-Rubber components)	-	0	-
5/5.1.4/5.1.4.2(REQUIREMENTS-Materials-Fabric- accordance with IS 1969)	-	0	-
5/5.1.4/5.1.4.3(REQUIREMENTS-Materials-Protective Steel Toe Cap- an per IS 5852)	-	1000	-
5/5.1.6/5.1.6.1-Fig. 1, Fig. 2, Fig. 3, .Fig. 4, Fig. 5 and Table 3.(REQUIREMENTS- Construction)	-	0	-
5/5.1.6/5.1.6.2(REQUIREMENTS- Construction)	-	0	-
5/5.1.7/5.1.7.2(REQUIREMENTS- Physical Requirements-Composite strength)	-	0	-
5/5.1.7/5.1.7.3-Table 4(REQUIREMENTS- Physical Requirements-Flexing endurance- as per Annex B.)	-	0	-
5/5.1.7/5.1.7.4(REQUIREMENTS- Physical Requirements- Leakage resistance test)	-	0	-
5/5.1.7/5.1.7.5(REQUIREMENTS- Physical Requirements- Consolidation test- as per IS IS 3400 (Part 5))	-	0	-
5/5.1.7/5.1.7.6(REQUIREMENTS- Physical Requirements- Performance test- as per Annex C)	-	0	-
5/5.1.7/5.1.7.7(REQUIREMENTS- Physical Requirements-Height of the boots)	-	0	-

02 May, 2027

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1052

CENTRAL LEATHER RESEARCH INSTITUTE

IS 17043 (2018)

Derby shoes - Specification

38000 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
5.0(Innocuosness test IS 17011)	-	23100	2100 FOR 1 PARAMETER TOTAL 11 PARAMETER 11*2100=23100
4.15.2(Breaking load & tag retention)	-	0	-
4.15.1(Length of laces )	-	0	-
4.14(Eyelet pull out test)	-	1600	-
4.13.8(Flex resistance )	-	600	-
4.13.7(Abrasion resistance )	-	0	-
4.13.6(Tear Strength)	-	0	-
4.13.5(Ageing test)	-	1000	-
4.13.4(Hardness (IRHD))	-	500	-
4.13.3(Density )	-	400	-
4.13.2(Thickness )	-	0	-
4.13.1(Meterial)	-	0	-
4.12(Breaking Strength of thread)	-	600	-
4.11.2(Tear Strength)	-	0	-
4.11.1(Thickness )	-	0	-
4.10(Toe Puff & counter stiffener thickness )	-	0	-
4.9.3(Abrasion resistance )	-	0	-
4.9.2(Water absorption & desorption )	-	0	-
4.9.1(Thickness )	-	0	-
4.8.3(Water absorption & desorption )	-	500	-
4.8.2(Abrasion )	-	0	-
4.8.1(Thickness )	-	0	-
4.7.4(Water vapour permeability & coefficent )	-	0	-
4.7.3(Abrasion resistance )	-	700	-
4.7.2(Tear Strength)	-	0	-
4.7.1(Thickness )	-	0	-
4.6.4(Water penetration and water absorption)	-	800	-
4.6.3(Water vapour permeability & coefficent )	-	600	-
4.6.2(Tear Strength)	-	600	-
4.6.1(Thickness )	-	0	-
4.5.8(Energy absorption of seat region )	-	500	-
4.5.7(Cold insulation tester )	-	2000	-
4.5.6(Heat insulation of sole complex)	-	1000	-
4.5.5.1(Electrical Properties Antistatic )	-	500	-
4.5.4(Slip Resitance)	-	1500	-
4.5.3.2(Interayer bond strength)	-	600	-
4.5.3.1(Upper/outsole bond strength)	-	0	-
4.5.2(Ergonomic Feature)	-	500	-
4.5.1(Contruction)	-	0	-
4.4(Height of upper )	-	200	-
4.3.2(Weight)	-	200	-
4.4, Table 3(Height of the Upper)	-	0	-
4.5.3(Bond Strength)	-	0	-
4.9(Insocks)	-	0	-
6.1(Scale of Sampling)	-	0	-
6.2(Methods of Selecting Footwear)	-	0	-
6.3.1(Visual and Tactile Examination)	-	0	-
6.3.2(Dimensional Characteristics)	-	0	-
6.3.3.1(Tests for physical requirements)	-	0	-
6.3.3.2(Tests for chemical requirements)	-	0	-
7(Marking)	-	0	-
6.1.3, Table 4(Scale of Sampling and Permissible Number of Defectives for Tests on Whole Footwear)	-	0	-

02 May, 2027

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1053

CENTRAL LEATHER RESEARCH INSTITUTE

IS 17037 (2018)

Anti riot shoes - Specification

39500 View breakup
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Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
5.0(Innocuosness test IS 17011)	-	23100	2100 FOR 1 PARAMETER TOTSL 11 PARAMETER 11 X 2100=23100
4.16.2(Breaking load & lag retention)	-	0	-
4.16.1(Length of laces )	-	0	-
4.15(D-ring and Hooks )	-	0	-
4.14.10(Resistance to fuel oil)	-	600	-
4.14.9(Resistance to hot contact)	-	600	-
4.14.8(Flex resistance)	-	0	-
4.14.7(Abrasion resistance)	-	0	-
4.14.6(Tear Strength)	-	0	-
4.14.5(Ageing test)	-	0	-
4.14.4(Hardness (IRHD))	-	500	-
4.14.3(Density )	-	400	-
4.14.2(Thickness )	-	0	-
4.14.1(Meterial)	-	0	-
4.13(Breaking Strength of thread)	-	600	-
4.12.2(Tear Strength)	-	0	-
4.12.1(Thickness )	-	0	-
4.11.2(Tear Strength)	-	0	-
4.11.1(Thickness)	-	0	-
4.10(Counter stiffener thickness)	-	0	-
4.9.3(Water absorption & desorption )	-	0	-
4.9.2(Abrasion resistance )	-	0	-
4.9.1(Meterial)	-	0	-
4.8.3(Water absorption & desorption )	-	0	-
4.8.2(Abrasion resistance )	-	0	-
4.8.1(Meterial)	-	0	-
4.7.5(Water vapour permeability & coefficent )	-	0	-
4.7.4(Abrasion resistance )	-	700	-
4.7.3(Tear Strength)	-	0	-
4.7.1(Meterial)	-	800	-
4.6.4(Water penetration and water absorption)	-	800	-
4.6.3(Water vapour permeability & coefficent )	-	600	-
4.6.2(Tear Strength)	-	600	-
4.6.1(Thickness )	-	0	-
4.5.11(Water resistance machine method)	-	500	-
4.5.11(Water Resistance Tray method )	-	0	-
4.5.11(Thickness Toe puff & counter stiffener)	-	0	-
4.5.10(Energy absorption of seat region )	-	500	-
4.5.9(Cold insulation of sole complex)	-	2000	-
4.5.8(Heat insulation of sole complex)	-	1000	-
4.5.7.1(Antistatic test)	-	500	-
4.5.6.4(Compression resistance)	-	600	-
4.5.6.3(Impact resistance )	-	1000	-
4.5.6.2(Internal Toe cap length)	-	200	-
4.5.6.1(General)	-	0	-
4.5.5.4(Ageing test)	-	0	-
4.5.5.3(Nail penetraion Insert )	-	800	-
4.5.5.2(Flex resistance )	-	600	-
4.5.5.1(Dimension)	-	0	-
4.5.4(Slip Resitance)	-	1500	-
4.5.3.2(Interayer bond strength)	-	600	-
4.5.3.1(Upper/outsole bond strength)	-	0	-
4.5.2(Ergonomic Feature)	-	0	-
4.5.1(Contruction)	-	0	-
4.4(Height of upper )	-	200	-
4.3.2(Weight)	-	200	-
4.3.1(Size)	-	0	-
4.2(Design )	-	0	-
4.1(General)	-	0	-
4.5.3(Bond strength)	-	0	-
4.9(Insocks)	-	0	-
5(Chemical Requirements)	-	0	-
6.1(Scale of Sampling)	-	0	-
6.2(Methods of Selecting Footwear)	-	0	-
6.3.1(Visual and Tactile Examination)	-	0	-
6.3.2(Dimensional Characteristics)	-	0	-
6.3.3.1(Tests for physical requirements)	-	0	-
6.3.3.2(Tests for chemical requirements)	-	0	-
7(Marking)	-	0	-
4.4, Table 2(Shoe size)	-	0	-
4.4, Table 2(Height)	-	0	-
6.1.3, Table 3(Scale of Sampling and Permissible Number of Defectives for Tests on Whole Footwear)	-	0	-

02 May, 2027

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1054

CENTRAL LEATHER RESEARCH INSTITUTE

IS 17012 (2018)

High ankle tactical boots with pu - Rubber sole - Specification

36900 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
5.0(Innocuousness Test IS 17011)	-	23100	2100 for 1 parameter total 11 parameter 2100*11=23100
4.16.2(Breaking Strength of lace )	-	600	-
4.16.1(Length of lace )	-	0	-
4.15(D-ring & Hooks )	-	0	-
6.1(Resistance to Fuel Oil)	-	600	-
4.14.9(Resistance to hot contact )	-	600	-
4.14.8(Flexing resistance )	-	600	-
4.14.7(Ageing test)	-	500	-
4.14.6(Hardness (IRHD))	-	500	-
4.14.5(Abrasion resistance )	-	0	-
4.14.4(Tear Strength)	-	0	-
4.14.3(Sole Density )	-	400	-
4.14.2(Thickness)	-	0	-
4.14.1(Meterial)	-	0	-
4.13(Breaking Strength of thread )	-	600	-
4.12.2(Tear Strength)	-	0	-
4.12.1(Thickness )	-	0	-
4.11.2(Tear Strength)	-	0	-
4.11.1(Thickness )	-	0	-
4.10.3(Water absorption & desorption percent)	-	0	-
4.10.2(Abrasion resistance )	-	0	-
4.10.1(Meterial )	-	0	-
4.9.3(Water absorption & desorption percent)	-	0	-
4.9.2(Abrasion resistance )	-	0	-
4.9.1(Thickness)	-	0	-
4.8(Thickness Toe puff & counter stiffener)	-	0	-
4.7.5(Water Vapour permeability & coefficient )	-	600	-
4.7.4(Abrasion resistance )	-	700	-
4.7.3(Tear Strength)	-	0	-
4.7.2(Meterial Counter & Toungue)	-	0	-
4.7.1(Meterial vamp & Quarter)	-	0	-
4.6.3(Water Penetration and water absorption )	-	800	-
4.6.2(Tear Strength)	-	600	-
4.6.1(Thickness )	-	0	-
4.5.8(Energy absorption of seat region )	-	500	-
4.5.7(Cold Insulation of sole complex)	-	2000	-
4.5.6(Heat Insulation of sole Complex)	-	1000	-
4.5.5(Antistatic test)	-	500	-
4.5.4(Slip Resitance)	-	1500	-
4.5.3.2(Interayer bond strength)	-	1200	-
4.5.3.1(Upper/outsole bond strength)	-	0	-
4.5.2(Ergonomic Feature)	-	0	-
4.5.1(Contruction)	-	0	-
4.4(Height of upper )	-	200	-
4.3.2(Weight)	-	200	-
4.3.1(Size)	-	0.01	-
4.2(Design )	-	0	-

02 May, 2027

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1055

CENTRAL LEATHER RESEARCH INSTITUTE

IS 15844 (2010)

Sports Footwear Specification

17150 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
3.11(Corrosion resistance)	-	800	-
3.10(Ross Flex test)	-	600	-
3.10(Shape retention percent )	-	0	-
3.10(Collapsing load )	-	0	-
3.10(Crush load )	-	800	-
3.9(Lace abrasion test)	-	700	-
3.9(Griping Strength of Tags)	-	0	-
3.9(Colour migration / Colour fastness)	-	1000	-
3.9(Breaking Strength )	-	800	-
3.8(Heat resistance tester )	-	600	-
3.8(Compression set )	-	0	-
3.8(Die-C tear Strength )	-	0	-
3.8(Elongation at Break )	-	0	-
3.8(Tensile Strength)	-	0	-
3.7(Flexing index)	-	400	-
3.7(Abrasion resistance )	-	600	-
3.7(Water absorption & loss percent )	-	800	-
3.7(Tensile Strength)	-	0	-
3.6(Ross flexing )	-	600	-
3.6(Adhesion to mid sole )	-	0	-
3.6(Abrasion resistance )	-	700	-
3.6(Die-C tear Strength )	-	0	-
3.6(Trouser tear strength )	-	0	-
3.5(Heat resistance tester )	-	500	-
3.5(Adhesive to sole)	-	0	-
3.5(Compression set )	-	1000	-
3.5(Die-C tear Strength )	-	600	-
3.5(Split tear strength )	-	0	-
3.5(Elongation at Break )	-	0	-
3.5(Tensile Strength)	-	600	-
3.4(Colorfastness to light )	-	0	-
3.4(Colour fastness to crocking )	-	3000	-
3.4(Tear Strength)	-	600	-
3.4(Adhesive Strength )	-	1200	-
3.4(Hydrolysis )	-	0	-
3.4(Upper flexing resistance )	-	600	-
3.3.4(Energy absorption of seat region )	-	500	-
3.3.3(Sole /midsole bond strength )	-	0	-
3.3.2(Upper/outsole bond strength)	-	600	-
3.3.1(Contruction)	-	0	-
3.2.3 & 3.2.4(Visual )	-	0	-
3.2.1(Design )	-	0	-

02 May, 2027

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1056

CENTRAL LEATHER RESEARCH INSTITUTE

IS 14544 (1998)

Leather safety foot wear with direct moulded polyvinyl chloride (PVC) sole - Specification

12650 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
4(Types)	-	0	-
5, 5.1(Requirements )	-	0	-
5.2, 5.2.1, 5.2.1.1(Materials - Upper Leather )	-	3000	-
5.2.2(Materials - Insole Material )	-	2400	-
5.2.3(Materials - Stiffener )	-	1600	-
5.2.4(Materials - Lining Material )	-	2100	-
5.2.5(Materials - Threads )	-	0	-
5.2.6, 5.2.6.1(Materials - Grinderies - Lasting tacks )	-	0	-
5.2.6, 5.2.6.2(Materials - Grinderies - Shanks)	-	0	-
5.2.6, 5.2.6.3(Materials - Grinderies - Eyelets)	-	0	-
5.2.7(Materials - Cotton NEWAR)	-	0	-
5.2.8(Materials - Toe-Compound)	-	0	-
5.2.9(Materials - Laces)	-	0	-
5.2.10(Materials - Steel Toe Cap)	-	0	-
5.2.11.1 (Table 1)(Sole and Heel )	-	0	-
5.2.11.2(Sole and Heel )	-	0	-
5.3 (Table 3)(Components)	-	0	-
5.4.8(Workmanship and Finish)	-	0	-
5.4.8.2(Workmanship and Finish)	-	0	-
5.4.8.3(Workmanship and Finish)	-	0	-
5.5, 5.5.1(Mass)	-	0	-
5.5, 5.5.2(Mass)	-	0	-
5.5, 5.5.3(Mass)	-	0	-
5.6(Performance Test)	-	0	-
5.7, 5.7.1(Adhesion Test on Moulded Bottoms)	-	0	-
5.7, 5.7.2(Adhesion Test on Moulded Bottoms)	-	0	-
7, 7.1(Marking)	-	0	-
5.7(Adhesion Test )	-	1200	-
5.6(Impact resistance )	-	1000	-
5.5(Mass per pairs)	-	0	-
5.4(Construction)	-	0	-
5.3(Thickness of components )	-	0	-
5.2.11.4(Ageing Test)	-	0	-
5.2.11.2(Mass after resistance to chemical effect)	-	0	-
5.2.11.2(Tensile Strength after resistance to chemical effect)	-	600	-
5.2.11.2(Elongation at break after Resistance to chemical effect)	-	0	-
5.2.11.2(Hardness after Resistance to chemical effect )	-	500	-
5.2.11(Flexing Resistance )	-	600	-
5.2.11(Tensile Strength )	-	0	-
5.2.11(Elongation at break)	-	0	-
5.2.11(Hardness (IRHD))	-	500	-
5.2.11(Material Sole & heel )	-	0	-
5.2.10(Impact resistance )	-	0	-
5.2.9(Length )	-	0	-
5.2.8(Toe-compound )	-	0	-
5.2.7(Width of fabric)	-	0	-
5.2.6.3(Eyelets diameter)	-	0	-
5.2.6.2(Corrosion Shanks )	-	0	-
5.2.6.1(Corrosion test Lasting tacks)	-	0	-
5.2.5(Breaking Strength )	-	0	-
5.2.5(Twist)	-	0	-
5.2.5(Count)	-	0	-
5.2.5(Composition )	-	0	-
5.2.4(Lining Material )	-	0	-
5.2.3(Peel Strength )	-	600	-
5.2.3(Shape Retention)	-	0	-
5.2.3(Moisture)	-	0	-
5.2.3(Resilience Test)	-	1000	-
5.2.3(Hardness )	-	0	-
5.2.3(Dry collapsing)	-	0	-
5.2.2(Insole Material )	-	0	-
5.2(Material )	-	0	-

02 May, 2027

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1057

CENTRAL LEATHER RESEARCH INSTITUTE

IS 3736 (1995)

Canvas boots, rubber sole - Specification (Second Revision)

12500 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
Cl.4.1.7.4 Ageing(The boots shall be also aged at 70 ± 1°C for 168 h, on completion of which the test pieces taken from the soles and heels of the boots shall conform to the physical requirements prescribed in Table 5. i) Tensile Length)	-	0	-
Cl.4.1.7.4 Ageing(ii) Elongation at break)	-	0	-
Cl.4.1.7.2 IS 3400 (Part 2) : 1980(2)Hardness, IRHD)	-	0	-
4.1.6 Fabric Laces Cl.4.1.6.1( The boots shall be provided with braided of cotton or man made or blended fabric laces 115 ± 5 cm in length, matching the colour of the upper. )	-	0	-
Cl.4.1.1 upper IS 1969(d) Picks/dm)	-	600	-
Cl.4.4.5 ( Table 1.)(d) Picks/dm)	-	0	-
4.1.2 Lining Material(195 ± 5 picks/dm shall be used.)	-	0	-
Cl.4.1.1 upper IS 1969(c) Ends/dm )	-	0	-
Cl.4.4.5 ( Table 1.)(c) Ends/dm )	-	0	-
4.1.2 Lining Material(having 390 ± 10 ends/dm and )	-	0	-
Cl.4.1.7.2 IS 3400 (Part 4) : 1987 IS 3400 (Part 2) : 1980(Change in initial hardness after accelerated ageing for 24 h at l00 ± 1°C)	-	0	-
Cl.4.8 Adhesion Test(From the upper foxing portion where it is adhered to the canvas cut a strip of 8.0 ± 0.5 mm width along with the length of the sole at the waist portion and of sufficient lengh to permit separation over a length of at least 75 mm. Carry out the test on two test pieces (one from each odd) at the rate of traverse of 100 ± 10 mm per minute in accordance with IS 3400 (Part 5):1986 or the Static Dead Load Method as given in Annex C. The individual adhesion value noted/recorded shall not be less than 8 N (0.8 kgf) for each of the test pieces ( see Note under 4.7 ).')	-	0	-
Cl.4.4.9(From the upper of made up footwear representative sample of width 25 ± 0.5 mm width strip is to be cut along the length of the boot of enough length so as to make it convenient to allow a distance of minimum 30 mm between the jaws of the tensile machine)	-	0	-
Cl.4.1.7.2 IS 3400 (Part 1) : 1987(Tensile strength in MPa, Min)	-	0	-
Cl.4.1.3 Binding Material IS 1954:1990(Cotton tape NEWAR used as binding material shall conform to the requirements as mentioned in Table 2, when tested in accordance with the methods referred to in col 4 of Table 2. 1)Width, mm. Min )	-	0	-
Cl.4.4.3(The top, side and front edges of the quarters and tongue shall be bound with cotton tape NEWAR of not less than 13 mm width using variety No. 29 thread.)	-	0	-
Cl.4.1.7.3 IS 3400 (Part 10) : 1977(Compression set, in percent. Max)	-	4500	-
Cl.4.4.4( The back of the quarter shall be reinforced with a strip, not less than 25 mm wide,of either upper material or canvas. In case of composite upper material the edges of the strip shall be bound by cotton tape ( NEWAR ). When canvas cloth is used the edges shall be folded and shall be stitched with two rows of stitching.)	-	0	-
Cl.4.7 Consolidation Test(From the quarter, cut a strip of 25.0 ± 0. 5 mm width along the length of the boot and of sufficient length to permit separation over a length of 75 mm. Carry out the test on two test pieces (one from each odd) at the rate of traverse of 100 ± 10mm per minute in accordance with IS 3400 (Part 5): 1986 or Static Dead Load Method as given in Annex C. The individual adhesion value for consolidation test shall not be less than 30 N (3.0 kgf) for each of the test pieces)	-	0	-
Cl.4.1.7.2 IS 3400 (Part 1) : 1987(Elongation at break, in percent, Min)	-	0	-
IS 1969:1985(Breaking load on 50 cm test length. N, Min)	-	0	-
4.1.6 Fabric Laces Cl.4.1.6.1(The laces shall have a minimum breaking load of 450 N, when tested between 18 cm grips, the rate of traverse of power actuated grip being 30 cm/min.)	-	400	SULPHUR DYES
Cl.4.1.7.2 IS 3400 (Part 16) : 1974(iii)Flexing resistance, number of cycles b)Cut growth at the end of 150 000 cycles, Percent, Max)	-	0	-
Cl.4.4.5 ( Table 1.)(b) Weft )	-	0	-
Cl.4.4.5 ( Table 1.)( in case of half bellow. Thefull bellow tongue shall be made out of canvas cloth as prescribed in Sl No. (i) of Table 1. Breaking load in N, Min a) Warp )	-	0	-
Cl.4.1.1 upper IS 1969(b)Weft)	-	0	-
Cl.4.1.1 upper IS 1969(Breaking load in N.Min (5 × 20 cm grip): a) Wrap)	-	0	-
Cl.4.1.7.2 IS 3400 (Part 16) : 1974(iii)Flexing resistance, number of cycles a)Initial crack, Min)	-	0	-
4.1.2 Lining Material( 200 N Minin weft way (when tested in accordance with IS 1969 : 1985) )	-	0	-
4.1.2 Lining Material(For covering of the insole, cotton drill conforming to Table 1, Sl No. (ii) shall be used. For detachable insole, bleached cotton twill of breaking load 390 N Min in warp way and)	-	0	-
Cl.4.1.1 upper(The upper shall consist of Rip Stop Fabric of cotton or manmade or its blend being the over layer and cotton drill as an inner layer and shall conform to the requirements given at Sl No. (i) of Table 1. Sr.no 1.Overlayer Construction )	-	0	-
4.1.1.1 Colour fastness(The dyed fabrics prescribed in 4.1.1 shall be fast to daylight and mechanical washing. Fastness to daylight shall be of rating 4 or better, when tested in accordance with IS 686 : 1985 or IS 2454 : 1985.)	-	0	-
Cl.4.1.1.2( Fastness to mechanical washing (mild) shall be of rating 4 or better, when tested in accordance with IS 764 : 1979)	-	0	-
Cl.4.1.3.3( Black tapes shall be free from sulphur dyes when tested in accordance with Annex B.)	-	0	-
Cl.4.1.4 Reinforcement Material(The back seam, joining two quarters at the back of the heel shall be reinforced with a not less than 25 mm wide tape made out of material conforming to Sl No. (i) of Table 1)	-	0	-
Cl.4.1.5 Thread for Upper Closing Cl.4.1.5.1 (IS 1670:1991)(Sewing thread cotton, man made or blended shall be used for stitching of upper. For cotton variety thread shall conform to variety No. 28 of IS 1720. Polyester variety thread shall conform to variety No. 9 of IS 9543. Any other blend of thread would have breaking load not less than above referred requirements. Sewing thread cotton, manmade or blended shall be used for binding of upper. For cotton variety thread shall conform to variety No. 32 of IS 1720. Polyester variety thread shall conform to variety No. 5 of IS 9543. Any other blend of thread would have breaking load not less than above referred requirement of specification.')	-	0	-
Cl.4.1.5.2( The colour of the threads shall be asagreed to between the purchaser and the supplier. The dyed threads shall conform to the following requirements)	-	4600	IT INCLUDES WASHING,PERSPIRATION AND LIGHT FASTNESS
4.1.6 Fabric Laces Cl.4.1.6.1(The two ends of the lace shall be provided with suitable metal or plastic tips. Black laces shall be free from sulphur dyes when tested in accordance with Annex B.)	-	0	-
Cl.4.1.7 Rubber Components Cl.4.1.7.1( the soles and heels shall conform to Type 2 of IS 5676:1995.)	-	0	-
Cl.4.1.7.2 IS 3400 (Part 9) : 1978( The rubber components shall conform to Table 4 when tested.' ( Page 3, Table 4, Note 1) — 'However in case it is not possible then 4.2.5.3 of IS 13695:1993 shall be followed. 1)Relative density, Max)	-	0	-
Cl.4.1.7.5 Thickness of components(Individual components of the boots shall comply with the thickness and material requirements prescribed in Table 6.)	-	0	-
Cl.4.3 Leg Height(The leg height of the boots for size 8 shall be 160 ± 2 mm with an increase or decrease of 4 mm of the nominal height for each bigger or smaller sizes respectively when measured at the inside from the back of the boot from insole to the top.)	-	0	-
Cl.4.4.2( The canvas upper shall be lined with bleached drill cloth.)	-	0	-
Cl.4.4.3( The upper shall be stitched on a lockstitch machine, with 30 to 40 stitches per decimetre by thread of variety No. 8 and variety No. 29 cotton sewing thread conforming to 4.1.5 using variety No. 29 for taping and binding and variety No. 8 for remaining seams. )	-	0	-
Cl.4.4.5 ( The tongue shall be either half or full bellow depending on the requirement of the purchaser andshall be made from composite material prescribed for the upper in 4.1.1.)	-	0	-
Cl.4.4.6( A minimum of seven aluminium, brass or steel eyelets having 10 mm diameter and wall thickness 0.30 to 0.35 mm shall be fitted in each face.')	-	0	-
Cl.4.4.7( The toe shall be reinforced with a toe puff cemented inside and outside with rubber toe cap. The heel piece (counter) or stiffener shall be set from the bottom of the lining and bound flat on the top edge with white cloth for binding of countertop edge with white clothfor binding of counter)	-	0	-
Cl.4.4.8( A strengthening rubber arch piece shall be firmly pasted and stitched at the middle arch of the inside quarter. Another strengthening rubber piece, circular in shape 35 ± 1 mm in diameter, may bepasted and stitched at the centre of the inside)	-	0	-
Cl.4.4.10( A 25 mm Min wide and 2 mm Min thick rubber golosh in serrated, diamond or any otherdesign, as agreed to between the purchaser and thesupplier, shall be fitted all round the sole edge of the boot. The golosh shall not extend below the edge of the sole.)	-	0	-
Cl.4.5.1(Cl.4.1.6.)( Each pair of boot shall be provided with a pair of braided fabric laces of the quality as prescribed in 4.1.6.)	-	0	-
Cl.4.5.2( In appearance, general workmanship, finish and in all other respects, not defined in this standard, the boot shall be similar to those of the sample approved by the purchaser, if any.)	-	0	-
Cl.4.6 Mass(The mass of finished boots, rubber sole, of size 8 shall not exceed 1130 g per pair, and the mass shall increase or decrease by 75 g per pair for each bigger or smaller size respectively.)	-	0	-
Cl.4.9 Composite Breaking Strength Test( From the upper of made up footwear representative sample of width 25 ± 0.5 mm width strip is to be cut along the length of the boot of enough length so as to make it convenient to allow a distance of minimum 30 mm between the jaws of the tensile machine.Rate of traverse of pulling jaw shall be 100 ± 5 mm per minute. Two such test pieces will be required to be obtained from the made up footwear and will be subjected to test to break each test piece. Mean value of each set of test pieces comprising of length wise and height wise test pieces will be 1 000 N/25 mm width minimum.')	-	1200	-
Cl.4.1.7.4 Ageing(The boots shall be also aged at 70 ± 1°C for 168 h, on completion of which the test pieces taken from the soles and heels of the boots shall conform to the physical requirements prescribed in Table 5. i) Tensile Length)	-	0	-
Cl.4.1.7.4 Ageing(ii) Elongation at break)	-	0	-
Cl.4.1.7.2 IS 3400 (Part 2) : 1980(2)Hardness, IRHD)	-	0	-
4.1.6 Fabric Laces Cl.4.1.6.1( The boots shall be provided with braided of cotton or man made or blended fabric laces 115 ± 5 cm in length, matching the colour of the upper. )	-	0	-
Cl.4.1.1 upper IS 1969(d) Picks/dm)	-	0	-
Cl.4.4.5 ( Table 1.)(d) Picks/dm)	-	0	-
4.1.2 Lining Material(195 ± 5 picks/dm shall be used.)	-	0	-
Cl.4.1.1 upper IS 1969(c) Ends/dm )	-	0	-
Cl.4.4.5 ( Table 1.)(c) Ends/dm )	-	0	-
4.1.2 Lining Material(having 390 ± 10 ends/dm and )	-	0	-
Cl.4.1.7.2 IS 3400 (Part 4) : 1987 IS 3400 (Part 2) : 1980(Change in initial hardness after accelerated ageing for 24 h at l00 ± 1°C)	-	0	-
Cl.4.8 Adhesion Test(From the upper foxing portion where it is adhered to the canvas cut a strip of 8.0 ± 0.5 mm width along with the length of the sole at the waist portion and of sufficient lengh to permit separation over a length of at least 75 mm. Carry out the test on two test pieces (one from each odd) at the rate of traverse of 100 ± 10 mm per minute in accordance with IS 3400 (Part 5):1986 or the Static Dead Load Method as given in Annex C. The individual adhesion value noted/recorded shall not be less than 8 N (0.8 kgf) for each of the test pieces ( see Note under 4.7 ).')	-	1200	-
Cl.4.4.9(From the upper of made up footwear representative sample of width 25 ± 0.5 mm width strip is to be cut along the length of the boot of enough length so as to make it convenient to allow a distance of minimum 30 mm between the jaws of the tensile machine)	-	0	-
Cl.4.1.7.2 IS 3400 (Part 1) : 1987(Tensile strength in MPa, Min)	-	0	-
Cl.4.1.3 Binding Material IS 1954:1990(Cotton tape NEWAR used as binding material shall conform to the requirements as mentioned in Table 2, when tested in accordance with the methods referred to in col 4 of Table 2. 1)Width, mm. Min )	-	0	-
Cl.4.4.3(The top, side and front edges of the quarters and tongue shall be bound with cotton tape NEWAR of not less than 13 mm width using variety No. 29 thread.)	-	0	-
Cl.4.1.7.3 IS 3400 (Part 10) : 1977(Compression set, in percent. Max)	-	0	-
Cl.4.4.4( The back of the quarter shall be reinforced with a strip, not less than 25 mm wide,of either upper material or canvas. In case of composite upper material the edges of the strip shall be bound by cotton tape ( NEWAR ). When canvas cloth is used the edges shall be folded and shall be stitched with two rows of stitching.)	-	0	-
Cl.4.7 Consolidation Test(From the quarter, cut a strip of 25.0 ± 0. 5 mm width along the length of the boot and of sufficient length to permit separation over a length of 75 mm. Carry out the test on two test pieces (one from each odd) at the rate of traverse of 100 ± 10mm per minute in accordance with IS 3400 (Part 5): 1986 or Static Dead Load Method as given in Annex C. The individual adhesion value for consolidation test shall not be less than 30 N (3.0 kgf) for each of the test pieces)	-	0	-
Cl.4.1.7.2 IS 3400 (Part 1) : 1987(Elongation at break, in percent, Min)	-	0	-
IS 1969:1985(Breaking load on 50 cm test length. N, Min)	-	0	-
4.1.6 Fabric Laces Cl.4.1.6.1(The laces shall have a minimum breaking load of 450 N, when tested between 18 cm grips, the rate of traverse of power actuated grip being 30 cm/min.)	-	0	-
Cl.4.1.7.2 IS 3400 (Part 16) : 1974(iii)Flexing resistance, number of cycles b)Cut growth at the end of 150 000 cycles, Percent, Max)	-	0	-
Cl.4.4.5 ( Table 1.)(b) Weft )	-	0	-
Cl.4.4.5 ( Table 1.)( in case of half bellow. Thefull bellow tongue shall be made out of canvas cloth as prescribed in Sl No. (i) of Table 1. Breaking load in N, Min a) Warp )	-	0	-
Cl.4.1.1 upper IS 1969(b)Weft)	-	0	-
Cl.4.1.1 upper IS 1969(Breaking load in N.Min (5 × 20 cm grip): a) Wrap)	-	0	-
Cl.4.1.7.2 IS 3400 (Part 16) : 1974(iii)Flexing resistance, number of cycles a)Initial crack, Min)	-	0	-
4.1.2 Lining Material( 200 N Minin weft way (when tested in accordance with IS 1969 : 1985) )	-	0	-
4.1.2 Lining Material(For covering of the insole, cotton drill conforming to Table 1, Sl No. (ii) shall be used. For detachable insole, bleached cotton twill of breaking load 390 N Min in warp way and)	-	0	-
Cl.4.1.1 upper(The upper shall consist of Rip Stop Fabric of cotton or manmade or its blend being the over layer and cotton drill as an inner layer and shall conform to the requirements given at Sl No. (i) of Table 1. Sr.no 1.Overlayer Construction )	-	0	-
4.1.1.1 Colour fastness(The dyed fabrics prescribed in 4.1.1 shall be fast to daylight and mechanical washing. Fastness to daylight shall be of rating 4 or better, when tested in accordance with IS 686 : 1985 or IS 2454 : 1985.)	-	0	-
Cl.4.1.1.2( Fastness to mechanical washing (mild) shall be of rating 4 or better, when tested in accordance with IS 764 : 1979)	-	0	-
Cl.4.1.3.3( Black tapes shall be free from sulphur dyes when tested in accordance with Annex B.)	-	0	-
Cl.4.1.4 Reinforcement Material(The back seam, joining two quarters at the back of the heel shall be reinforced with a not less than 25 mm wide tape made out of material conforming to Sl No. (i) of Table 1)	-	0	-
Cl.4.1.5 Thread for Upper Closing Cl.4.1.5.1 (IS 1670:1991)(Sewing thread cotton, man made or blended shall be used for stitching of upper. For cotton variety thread shall conform to variety No. 28 of IS 1720. Polyester variety thread shall conform to variety No. 9 of IS 9543. Any other blend of thread would have breaking load not less than above referred requirements. Sewing thread cotton, manmade or blended shall be used for binding of upper. For cotton variety thread shall conform to variety No. 32 of IS 1720. Polyester variety thread shall conform to variety No. 5 of IS 9543. Any other blend of thread would have breaking load not less than above referred requirement of specification.')	-	0	-
Cl.4.1.5.2( The colour of the threads shall be asagreed to between the purchaser and the supplier. The dyed threads shall conform to the following requirements)	-	0	-
4.1.6 Fabric Laces Cl.4.1.6.1(The two ends of the lace shall be provided with suitable metal or plastic tips. Black laces shall be free from sulphur dyes when tested in accordance with Annex B.)	-	0	-
Cl.4.1.7 Rubber Components Cl.4.1.7.1( the soles and heels shall conform to Type 2 of IS 5676:1995.)	-	0	-
Cl.4.1.7.2 IS 3400 (Part 9) : 1978( The rubber components shall conform to Table 4 when tested.' ( Page 3, Table 4, Note 1) — 'However in case it is not possible then 4.2.5.3 of IS 13695:1993 shall be followed. 1)Relative density, Max)	-	0	-
Cl.4.1.7.5 Thickness of components(Individual components of the boots shall comply with the thickness and material requirements prescribed in Table 6.)	-	0	-
Cl.4.3 Leg Height(The leg height of the boots for size 8 shall be 160 ± 2 mm with an increase or decrease of 4 mm of the nominal height for each bigger or smaller sizes respectively when measured at the inside from the back of the boot from insole to the top.)	-	0	-
Cl.4.4.2( The canvas upper shall be lined with bleached drill cloth.)	-	0	-
Cl.4.4.3( The upper shall be stitched on a lockstitch machine, with 30 to 40 stitches per decimetre by thread of variety No. 8 and variety No. 29 cotton sewing thread conforming to 4.1.5 using variety No. 29 for taping and binding and variety No. 8 for remaining seams. )	-	0	-
Cl.4.4.5 ( The tongue shall be either half or full bellow depending on the requirement of the purchaser andshall be made from composite material prescribed for the upper in 4.1.1.)	-	0	-
Cl.4.4.6( A minimum of seven aluminium, brass or steel eyelets having 10 mm diameter and wall thickness 0.30 to 0.35 mm shall be fitted in each face.')	-	0	-
Cl.4.4.7( The toe shall be reinforced with a toe puff cemented inside and outside with rubber toe cap. The heel piece (counter) or stiffener shall be set from the bottom of the lining and bound flat on the top edge with white cloth for binding of countertop edge with white clothfor binding of counter)	-	0	-
Cl.4.4.8( A strengthening rubber arch piece shall be firmly pasted and stitched at the middle arch of the inside quarter. Another strengthening rubber piece, circular in shape 35 ± 1 mm in diameter, may bepasted and stitched at the centre of the inside)	-	0	-
Cl.4.4.10( A 25 mm Min wide and 2 mm Min thick rubber golosh in serrated, diamond or any otherdesign, as agreed to between the purchaser and thesupplier, shall be fitted all round the sole edge of the boot. The golosh shall not extend below the edge of the sole.)	-	0	-
Cl.4.5.1(Cl.4.1.6.)( Each pair of boot shall be provided with a pair of braided fabric laces of the quality as prescribed in 4.1.6.)	-	0	-
Cl.4.5.2( In appearance, general workmanship, finish and in all other respects, not defined in this standard, the boot shall be similar to those of the sample approved by the purchaser, if any.)	-	0	-
Cl.4.6 Mass(The mass of finished boots, rubber sole, of size 8 shall not exceed 1130 g per pair, and the mass shall increase or decrease by 75 g per pair for each bigger or smaller size respectively.)	-	0	-
Cl.4.9 Composite Breaking Strength Test( From the upper of made up footwear representative sample of width 25 ± 0.5 mm width strip is to be cut along the length of the boot of enough length so as to make it convenient to allow a distance of minimum 30 mm between the jaws of the tensile machine.Rate of traverse of pulling jaw shall be 100 ± 5 mm per minute. Two such test pieces will be required to be obtained from the made up footwear and will be subjected to test to break each test piece. Mean value of each set of test pieces comprising of length wise and height wise test pieces will be 1 000 N/25 mm width minimum.')	-	0	-
Cl.4.1.7.4 Ageing(The boots shall be also aged at 70 ± 1°C for 168 h, on completion of which the test pieces taken from the soles and heels of the boots shall conform to the physical requirements prescribed in Table 5. i) Tensile Length)	-	0	-
Cl.4.1.7.4 Ageing(ii) Elongation at break)	-	0	-
Cl.4.1.7.2 IS 3400 (Part 2) : 1980(2)Hardness, IRHD)	-	0	-
4.1.6 Fabric Laces Cl.4.1.6.1( The boots shall be provided with braided of cotton or man made or blended fabric laces 115 ± 5 cm in length, matching the colour of the upper. )	-	0	-
Cl.4.1.1 upper IS 1969(d) Picks/dm)	-	0	-
Cl.4.4.5 ( Table 1.)(d) Picks/dm)	-	0	-
Cl.4.1.3.3( Black tapes shall be free from sulphur dyes when tested in accordance with Annex B.)	-	0	-
Cl.4.1.4 Reinforcement Material(The back seam, joining two quarters at the back of the heel shall be reinforced with a not less than 25 mm wide tape made out of material conforming to Sl No. (i) of Table 1)	-	0	-
Cl.4.1.5 Thread for Upper Closing Cl.4.1.5.1 (IS 1670:1991)(Sewing thread cotton, man made or blended shall be used for stitching of upper. For cotton variety thread shall conform to variety No. 28 of IS 1720. Polyester variety thread shall conform to variety No. 9 of IS 9543. Any other blend of thread would have breaking load not less than above referred requirements. Sewing thread cotton, manmade or blended shall be used for binding of upper. For cotton variety thread shall conform to variety No. 32 of IS 1720. Polyester variety thread shall conform to variety No. 5 of IS 9543. Any other blend of thread would have breaking load not less than above referred requirement of specification.')	-	0	-
Cl.4.1.5.2( The colour of the threads shall be asagreed to between the purchaser and the supplier. The dyed threads shall conform to the following requirements)	-	0	-
4.1.6 Fabric Laces Cl.4.1.6.1(The two ends of the lace shall be provided with suitable metal or plastic tips. Black laces shall be free from sulphur dyes when tested in accordance with Annex B.)	-	0	-
Cl.4.1.7 Rubber Components Cl.4.1.7.1( the soles and heels shall conform to Type 2 of IS 5676:1995.)	-	0	-
Cl.4.1.7.2 IS 3400 (Part 9) : 1978( The rubber components shall conform to Table 4 when tested.' ( Page 3, Table 4, Note 1) — 'However in case it is not possible then 4.2.5.3 of IS 13695:1993 shall be followed. 1)Relative density, Max)	-	0	-
Cl.4.1.7.5 Thickness of components(Individual components of the boots shall comply with the thickness and material requirements prescribed in Table 6.)	-	0	-
Cl.4.4.2( The canvas upper shall be lined with bleached drill cloth.)	-	0	-
Cl.4.4.3( The upper shall be stitched on a lockstitch machine, with 30 to 40 stitches per decimetre by thread of variety No. 8 and variety No. 29 cotton sewing thread conforming to 4.1.5 using variety No. 29 for taping and binding and variety No. 8 for remaining seams. )	-	0	-
Cl.4.4.5 ( The tongue shall be either half or full bellow depending on the requirement of the purchaser andshall be made from composite material prescribed for the upper in 4.1.1.)	-	0	-
Cl.4.4.6( A minimum of seven aluminium, brass or steel eyelets having 10 mm diameter and wall thickness 0.30 to 0.35 mm shall be fitted in each face.')	-	0	-
Cl.4.4.7( The toe shall be reinforced with a toe puff cemented inside and outside with rubber toe cap. The heel piece (counter) or stiffener shall be set from the bottom of the lining and bound flat on the top edge with white cloth for binding of countertop edge with white clothfor binding of counter)	-	0	-
Cl.4.4.8( A strengthening rubber arch piece shall be firmly pasted and stitched at the middle arch of the inside quarter. Another strengthening rubber piece, circular in shape 35 ± 1 mm in diameter, may bepasted and stitched at the centre of the inside)	-	0	-
Cl.4.4.10( A 25 mm Min wide and 2 mm Min thick rubber golosh in serrated, diamond or any otherdesign, as agreed to between the purchaser and thesupplier, shall be fitted all round the sole edge of the boot. The golosh shall not extend below the edge of the sole.)	-	0	-
Cl.4.5.1(Cl.4.1.6.)( Each pair of boot shall be provided with a pair of braided fabric laces of the quality as prescribed in 4.1.6.)	-	0	-
Cl.4.5.2( In appearance, general workmanship, finish and in all other respects, not defined in this standard, the boot shall be similar to those of the sample approved by the purchaser, if any.)	-	0	-
Cl.4.6 Mass(The mass of finished boots, rubber sole, of size 8 shall not exceed 1130 g per pair, and the mass shall increase or decrease by 75 g per pair for each bigger or smaller size respectively.)	-	0	-
Cl.4.9 Composite Breaking Strength Test( From the upper of made up footwear representative sample of width 25 ± 0.5 mm width strip is to be cut along the length of the boot of enough length so as to make it convenient to allow a distance of minimum 30 mm between the jaws of the tensile machine.Rate of traverse of pulling jaw shall be 100 ± 5 mm per minute. Two such test pieces will be required to be obtained from the made up footwear and will be subjected to test to break each test piece. Mean value of each set of test pieces comprising of length wise and height wise test pieces will be 1 000 N/25 mm width minimum.')	-	0	-
Cl.4.1.7.4 Ageing(The boots shall be also aged at 70 ± 1°C for 168 h, on completion of which the test pieces taken from the soles and heels of the boots shall conform to the physical requirements prescribed in Table 5. i) Tensile Length)	-	0	-
Cl.4.1.7.4 Ageing(ii) Elongation at break)	-	0	-
Cl.4.1.7.2 IS 3400 (Part 2) : 1980(2)Hardness, IRHD)	-	0	-
4.1.6 Fabric Laces Cl.4.1.6.1( The boots shall be provided with braided of cotton or man made or blended fabric laces 115 ± 5 cm in length, matching the colour of the upper. )	-	0	-
Cl.4.1.1 upper IS 1969(d) Picks/dm)	-	0	-
Cl.4.4.5 ( Table 1.)(d) Picks/dm)	-	0	-
4.1.2 Lining Material(195 ± 5 picks/dm shall be used.)	-	0	-
Cl.4.1.1 upper IS 1969(c) Ends/dm )	-	0	-
Cl.4.4.5 ( Table 1.)(c) Ends/dm )	-	0	-
4.1.2 Lining Material(having 390 ± 10 ends/dm and )	-	0	-
Cl.4.1.7.2 IS 3400 (Part 4) : 1987 IS 3400 (Part 2) : 1980(Change in initial hardness after accelerated ageing for 24 h at l00 ± 1°C)	-	0	-
Cl.4.8 Adhesion Test(From the upper foxing portion where it is adhered to the canvas cut a strip of 8.0 ± 0.5 mm width along with the length of the sole at the waist portion and of sufficient lengh to permit separation over a length of at least 75 mm. Carry out the test on two test pieces (one from each odd) at the rate of traverse of 100 ± 10 mm per minute in accordance with IS 3400 (Part 5):1986 or the Static Dead Load Method as given in Annex C. The individual adhesion value noted/recorded shall not be less than 8 N (0.8 kgf) for each of the test pieces ( see Note under 4.7 ).')	-	0	-
Cl.4.4.9(From the upper of made up footwear representative sample of width 25 ± 0.5 mm width strip is to be cut along the length of the boot of enough length so as to make it convenient to allow a distance of minimum 30 mm between the jaws of the tensile machine)	-	0	-
Cl.4.1.7.2 IS 3400 (Part 1) : 1987(Tensile strength in MPa, Min)	-	0	-
Cl.4.1.3 Binding Material IS 1954:1990(Cotton tape NEWAR used as binding material shall conform to the requirements as mentioned in Table 2, when tested in accordance with the methods referred to in col 4 of Table 2. 1)Width, mm. Min )	-	0	-
Cl.4.4.3(The top, side and front edges of the quarters and tongue shall be bound with cotton tape NEWAR of not less than 13 mm width using variety No. 29 thread.)	-	0	-
Cl.4.1.7.3 IS 3400 (Part 10) : 1977(Compression set, in percent. Max)	-	0	-
Cl.4.4.4( The back of the quarter shall be reinforced with a strip, not less than 25 mm wide,of either upper material or canvas. In case of composite upper material the edges of the strip shall be bound by cotton tape ( NEWAR ). When canvas cloth is used the edges shall be folded and shall be stitched with two rows of stitching.)	-	0	-
Cl.4.7 Consolidation Test(From the quarter, cut a strip of 25.0 ± 0. 5 mm width along the length of the boot and of sufficient length to permit separation over a length of 75 mm. Carry out the test on two test pieces (one from each odd) at the rate of traverse of 100 ± 10mm per minute in accordance with IS 3400 (Part 5): 1986 or Static Dead Load Method as given in Annex C. The individual adhesion value for consolidation test shall not be less than 30 N (3.0 kgf) for each of the test pieces)	-	0	-
Cl.4.1.7.2 IS 3400 (Part 1) : 1987(Elongation at break, in percent, Min)	-	0	-
IS 1969:1985(Breaking load on 50 cm test length. N, Min)	-	0	-
4.1.6 Fabric Laces Cl.4.1.6.1(The laces shall have a minimum breaking load of 450 N, when tested between 18 cm grips, the rate of traverse of power actuated grip being 30 cm/min.)	-	0	-
Cl.4.1.7.2 IS 3400 (Part 16) : 1974(iii)Flexing resistance, number of cycles b)Cut growth at the end of 150 000 cycles, Percent, Max)	-	0	-
Cl.4.4.5 ( Table 1.)(b) Weft )	-	0	-
Cl.4.4.5 ( Table 1.)( in case of half bellow. Thefull bellow tongue shall be made out of canvas cloth as prescribed in Sl No. (i) of Table 1. Breaking load in N, Min a) Warp )	-	0	-
Cl.4.1.1 upper IS 1969(b)Weft)	-	0	-
Cl.4.1.1 upper IS 1969(Breaking load in N.Min (5 × 20 cm grip): a) Wrap)	-	0	-
Cl.4.1.7.2 IS 3400 (Part 16) : 1974(iii)Flexing resistance, number of cycles a)Initial crack, Min)	-	0	-
4.1.2 Lining Material( 200 N Minin weft way (when tested in accordance with IS 1969 : 1985) )	-	0	-
4.1.2 Lining Material(For covering of the insole, cotton drill conforming to Table 1, Sl No. (ii) shall be used. For detachable insole, bleached cotton twill of breaking load 390 N Min in warp way and)	-	0	-
Cl.4.1.1 upper(The upper shall consist of Rip Stop Fabric of cotton or manmade or its blend being the over layer and cotton drill as an inner layer and shall conform to the requirements given at Sl No. (i) of Table 1. Sr.no 1.Overlayer Construction )	-	0	-
4.1.1.1 Colour fastness(The dyed fabrics prescribed in 4.1.1 shall be fast to daylight and mechanical washing. Fastness to daylight shall be of rating 4 or better, when tested in accordance with IS 686 : 1985 or IS 2454 : 1985.)	-	0	-
Cl.4.1.1.2( Fastness to mechanical washing (mild) shall be of rating 4 or better, when tested in accordance with IS 764 : 1979)	-	0	-
Cl.4.1.3.3( Black tapes shall be free from sulphur dyes when tested in accordance with Annex B.)	-	0	-
Cl.4.1.4 Reinforcement Material(The back seam, joining two quarters at the back of the heel shall be reinforced with a not less than 25 mm wide tape made out of material conforming to Sl No. (i) of Table 1)	-	0	-
Cl.4.1.5 Thread for Upper Closing Cl.4.1.5.1 (IS 1670:1991)(Sewing thread cotton, man made or blended shall be used for stitching of upper. For cotton variety thread shall conform to variety No. 28 of IS 1720. Polyester variety thread shall conform to variety No. 9 of IS 9543. Any other blend of thread would have breaking load not less than above referred requirements. Sewing thread cotton, manmade or blended shall be used for binding of upper. For cotton variety thread shall conform to variety No. 32 of IS 1720. Polyester variety thread shall conform to variety No. 5 of IS 9543. Any other blend of thread would have breaking load not less than above referred requirement of specification.')	-	0	-
Cl.4.1.5.2( The colour of the threads shall be asagreed to between the purchaser and the supplier. The dyed threads shall conform to the following requirements)	-	0	-
4.1.6 Fabric Laces Cl.4.1.6.1(The two ends of the lace shall be provided with suitable metal or plastic tips. Black laces shall be free from sulphur dyes when tested in accordance with Annex B.)	-	0	-
Cl.4.1.7 Rubber Components Cl.4.1.7.1( the soles and heels shall conform to Type 2 of IS 5676:1995.)	-	0	-
Cl.4.1.7.2 IS 3400 (Part 9) : 1978( The rubber components shall conform to Table 4 when tested.' ( Page 3, Table 4, Note 1) — 'However in case it is not possible then 4.2.5.3 of IS 13695:1993 shall be followed. 1)Relative density, Max)	-	0	-
Cl.4.1.7.5 Thickness of components(Individual components of the boots shall comply with the thickness and material requirements prescribed in Table 6.)	-	0	-
Cl.4.3 Leg Height(The leg height of the boots for size 8 shall be 160 ± 2 mm with an increase or decrease of 4 mm of the nominal height for each bigger or smaller sizes respectively when measured at the inside from the back of the boot from insole to the top.)	-	0	-
Cl.4.4.2( The canvas upper shall be lined with bleached drill cloth.)	-	0	-
Cl.4.4.3( The upper shall be stitched on a lockstitch machine, with 30 to 40 stitches per decimetre by thread of variety No. 8 and variety No. 29 cotton sewing thread conforming to 4.1.5 using variety No. 29 for taping and binding and variety No. 8 for remaining seams. )	-	0	-
Cl.4.4.5 ( The tongue shall be either half or full bellow depending on the requirement of the purchaser andshall be made from composite material prescribed for the upper in 4.1.1.)	-	0	-
Cl.4.4.6( A minimum of seven aluminium, brass or steel eyelets having 10 mm diameter and wall thickness 0.30 to 0.35 mm shall be fitted in each face.')	-	0	-
Cl.4.4.7( The toe shall be reinforced with a toe puff cemented inside and outside with rubber toe cap. The heel piece (counter) or stiffener shall be set from the bottom of the lining and bound flat on the top edge with white cloth for binding of countertop edge with white clothfor binding of counter)	-	0	-
Cl.4.4.8( A strengthening rubber arch piece shall be firmly pasted and stitched at the middle arch of the inside quarter. Another strengthening rubber piece, circular in shape 35 ± 1 mm in diameter, may bepasted and stitched at the centre of the inside)	-	0	-
Cl.4.4.10( A 25 mm Min wide and 2 mm Min thick rubber golosh in serrated, diamond or any otherdesign, as agreed to between the purchaser and thesupplier, shall be fitted all round the sole edge of the boot. The golosh shall not extend below the edge of the sole.)	-	0	-
Cl.4.5.1(Cl.4.1.6.)( Each pair of boot shall be provided with a pair of braided fabric laces of the quality as prescribed in 4.1.6.)	-	0	-
Cl.4.5.2( In appearance, general workmanship, finish and in all other respects, not defined in this standard, the boot shall be similar to those of the sample approved by the purchaser, if any.)	-	0	-
Cl.4.6 Mass(The mass of finished boots, rubber sole, of size 8 shall not exceed 1130 g per pair, and the mass shall increase or decrease by 75 g per pair for each bigger or smaller size respectively.)	-	0	-
Cl.4.9 Composite Breaking Strength Test( From the upper of made up footwear representative sample of width 25 ± 0.5 mm width strip is to be cut along the length of the boot of enough length so as to make it convenient to allow a distance of minimum 30 mm between the jaws of the tensile machine.Rate of traverse of pulling jaw shall be 100 ± 5 mm per minute. Two such test pieces will be required to be obtained from the made up footwear and will be subjected to test to break each test piece. Mean value of each set of test pieces comprising of length wise and height wise test pieces will be 1 000 N/25 mm width minimum.')	-	0	-
Cl.4.1.7.4 Ageing(The boots shall be also aged at 70 ± 1°C for 168 h, on completion of which the test pieces taken from the soles and heels of the boots shall conform to the physical requirements prescribed in Table 5. i) Tensile Length)	-	0	-
Cl.4.1.7.4 Ageing(ii) Elongation at break)	-	0	-
Cl.4.1.7.2 IS 3400 (Part 2) : 1980(2)Hardness, IRHD)	-	0	-
4.1.6 Fabric Laces Cl.4.1.6.1( The boots shall be provided with braided of cotton or man made or blended fabric laces 115 ± 5 cm in length, matching the colour of the upper. )	-	0	-
Cl.4.1.1 upper IS 1969(d) Picks/dm)	-	0	-
Cl.4.4.5 ( Table 1.)(d) Picks/dm)	-	0	-
4.1.2 Lining Material(195 ± 5 picks/dm shall be used.)	-	0	-
Cl.4.1.1 upper IS 1969(c) Ends/dm )	-	0	-
Cl.4.4.5 ( Table 1.)(c) Ends/dm )	-	0	-
4.1.2 Lining Material(having 390 ± 10 ends/dm and )	-	0	-
Cl.4.1.7.2 IS 3400 (Part 4) : 1987 IS 3400 (Part 2) : 1980(Change in initial hardness after accelerated ageing for 24 h at l00 ± 1°C)	-	0	-
Cl.4.8 Adhesion Test(From the upper foxing portion where it is adhered to the canvas cut a strip of 8.0 ± 0.5 mm width along with the length of the sole at the waist portion and of sufficient lengh to permit separation over a length of at least 75 mm. Carry out the test on two test pieces (one from each odd) at the rate of traverse of 100 ± 10 mm per minute in accordance with IS 3400 (Part 5):1986 or the Static Dead Load Method as given in Annex C. The individual adhesion value noted/recorded shall not be less than 8 N (0.8 kgf) for each of the test pieces ( see Note under 4.7 ).')	-	0	-
Cl.4.4.9(From the upper of made up footwear representative sample of width 25 ± 0.5 mm width strip is to be cut along the length of the boot of enough length so as to make it convenient to allow a distance of minimum 30 mm between the jaws of the tensile machine)	-	0	-
Cl.4.1.7.2 IS 3400 (Part 1) : 1987(Tensile strength in MPa, Min)	-	0	-
Cl.4.1.3 Binding Material IS 1954:1990(Cotton tape NEWAR used as binding material shall conform to the requirements as mentioned in Table 2, when tested in accordance with the methods referred to in col 4 of Table 2. 1)Width, mm. Min )	-	0	-
Cl.4.4.3(The top, side and front edges of the quarters and tongue shall be bound with cotton tape NEWAR of not less than 13 mm width using variety No. 29 thread.)	-	0	-
Cl.4.1.7.3 IS 3400 (Part 10) : 1977(Compression set, in percent. Max)	-	0	-
Cl.4.4.4( The back of the quarter shall be reinforced with a strip, not less than 25 mm wide,of either upper material or canvas. In case of composite upper material the edges of the strip shall be bound by cotton tape ( NEWAR ). When canvas cloth is used the edges shall be folded and shall be stitched with two rows of stitching.)	-	0	-
Cl.4.7 Consolidation Test(From the quarter, cut a strip of 25.0 ± 0. 5 mm width along the length of the boot and of sufficient length to permit separation over a length of 75 mm. Carry out the test on two test pieces (one from each odd) at the rate of traverse of 100 ± 10mm per minute in accordance with IS 3400 (Part 5): 1986 or Static Dead Load Method as given in Annex C. The individual adhesion value for consolidation test shall not be less than 30 N (3.0 kgf) for each of the test pieces)	-	0	-
Cl.4.1.7.2 IS 3400 (Part 1) : 1987(Elongation at break, in percent, Min)	-	0	-
IS 1969:1985(Breaking load on 50 cm test length. N, Min)	-	0	-
4.1.6 Fabric Laces Cl.4.1.6.1(The laces shall have a minimum breaking load of 450 N, when tested between 18 cm grips, the rate of traverse of power actuated grip being 30 cm/min.)	-	0	-
Cl.4.1.7.2 IS 3400 (Part 16) : 1974(iii)Flexing resistance, number of cycles b)Cut growth at the end of 150 000 cycles, Percent, Max)	-	0	-
Cl.4.4.5 ( Table 1.)(b) Weft )	-	0	-
Cl.4.4.5 ( Table 1.)( in case of half bellow. Thefull bellow tongue shall be made out of canvas cloth as prescribed in Sl No. (i) of Table 1. Breaking load in N, Min a) Warp )	-	0	-
Cl.4.1.1 upper IS 1969(b)Weft)	-	0	-
Cl.4.1.1 upper IS 1969(Breaking load in N.Min (5 × 20 cm grip): a) Wrap)	-	0	-
Cl.4.1.7.2 IS 3400 (Part 16) : 1974(iii)Flexing resistance, number of cycles a)Initial crack, Min)	-	0	-
4.1.2 Lining Material( 200 N Minin weft way (when tested in accordance with IS 1969 : 1985) )	-	0	-
4.1.2 Lining Material(For covering of the insole, cotton drill conforming to Table 1, Sl No. (ii) shall be used. For detachable insole, bleached cotton twill of breaking load 390 N Min in warp way and)	-	0	-
Cl.4.1.1 upper(The upper shall consist of Rip Stop Fabric of cotton or manmade or its blend being the over layer and cotton drill as an inner layer and shall conform to the requirements given at Sl No. (i) of Table 1. Sr.no 1.Overlayer Construction )	-	0	-
4.1.1.1 Colour fastness(The dyed fabrics prescribed in 4.1.1 shall be fast to daylight and mechanical washing. Fastness to daylight shall be of rating 4 or better, when tested in accordance with IS 686 : 1985 or IS 2454 : 1985.)	-	0	-
Cl.4.1.1.2( Fastness to mechanical washing (mild) shall be of rating 4 or better, when tested in accordance with IS 764 : 1979)	-	0	-
Cl.4.1.3.3( Black tapes shall be free from sulphur dyes when tested in accordance with Annex B.)	-	0	-
Cl.4.1.4 Reinforcement Material(The back seam, joining two quarters at the back of the heel shall be reinforced with a not less than 25 mm wide tape made out of material conforming to Sl No. (i) of Table 1)	-	0	-
Cl.4.1.5 Thread for Upper Closing Cl.4.1.5.1 (IS 1670:1991)(Sewing thread cotton, man made or blended shall be used for stitching of upper. For cotton variety thread shall conform to variety No. 28 of IS 1720. Polyester variety thread shall conform to variety No. 9 of IS 9543. Any other blend of thread would have breaking load not less than above referred requirements. Sewing thread cotton, manmade or blended shall be used for binding of upper. For cotton variety thread shall conform to variety No. 32 of IS 1720. Polyester variety thread shall conform to variety No. 5 of IS 9543. Any other blend of thread would have breaking load not less than above referred requirement of specification.')	-	0	-
Cl.4.1.5.2( The colour of the threads shall be asagreed to between the purchaser and the supplier. The dyed threads shall conform to the following requirements)	-	0	-
4.1.6 Fabric Laces Cl.4.1.6.1(The two ends of the lace shall be provided with suitable metal or plastic tips. Black laces shall be free from sulphur dyes when tested in accordance with Annex B.)	-	0	-
Cl.4.1.7 Rubber Components Cl.4.1.7.1( the soles and heels shall conform to Type 2 of IS 5676:1995.)	-	0	-
Cl.4.1.7.2 IS 3400 (Part 9) : 1978( The rubber components shall conform to Table 4 when tested.' ( Page 3, Table 4, Note 1) — 'However in case it is not possible then 4.2.5.3 of IS 13695:1993 shall be followed. 1)Relative density, Max)	-	0	-
Cl.4.1.7.5 Thickness of components(Individual components of the boots shall comply with the thickness and material requirements prescribed in Table 6.)	-	0	-
Cl.4.3 Leg Height(The leg height of the boots for size 8 shall be 160 ± 2 mm with an increase or decrease of 4 mm of the nominal height for each bigger or smaller sizes respectively when measured at the inside from the back of the boot from insole to the top.)	-	0	-
Cl.4.4.2( The canvas upper shall be lined with bleached drill cloth.)	-	0	-
Cl.4.4.3( The upper shall be stitched on a lockstitch machine, with 30 to 40 stitches per decimetre by thread of variety No. 8 and variety No. 29 cotton sewing thread conforming to 4.1.5 using variety No. 29 for taping and binding and variety No. 8 for remaining seams. )	-	0	-
Cl.4.4.5 ( The tongue shall be either half or full bellow depending on the requirement of the purchaser andshall be made from composite material prescribed for the upper in 4.1.1.)	-	0	-
Cl.4.4.6( A minimum of seven aluminium, brass or steel eyelets having 10 mm diameter and wall thickness 0.30 to 0.35 mm shall be fitted in each face.')	-	0	-
Cl.4.4.7( The toe shall be reinforced with a toe puff cemented inside and outside with rubber toe cap. The heel piece (counter) or stiffener shall be set from the bottom of the lining and bound flat on the top edge with white cloth for binding of countertop edge with white clothfor binding of counter)	-	0	-
Cl.4.4.8( A strengthening rubber arch piece shall be firmly pasted and stitched at the middle arch of the inside quarter. Another strengthening rubber piece, circular in shape 35 ± 1 mm in diameter, may bepasted and stitched at the centre of the inside)	-	0	-
Cl.4.4.10( A 25 mm Min wide and 2 mm Min thick rubber golosh in serrated, diamond or any otherdesign, as agreed to between the purchaser and thesupplier, shall be fitted all round the sole edge of the boot. The golosh shall not extend below the edge of the sole.)	-	0	-
Cl.4.5.1(Cl.4.1.6.)( Each pair of boot shall be provided with a pair of braided fabric laces of the quality as prescribed in 4.1.6.)	-	0	-
Cl.4.5.2( In appearance, general workmanship, finish and in all other respects, not defined in this standard, the boot shall be similar to those of the sample approved by the purchaser, if any.)	-	0	-
Cl.4.6 Mass(The mass of finished boots, rubber sole, of size 8 shall not exceed 1130 g per pair, and the mass shall increase or decrease by 75 g per pair for each bigger or smaller size respectively.)	-	0	-
Cl.4.9 Composite Breaking Strength Test( From the upper of made up footwear representative sample of width 25 ± 0.5 mm width strip is to be cut along the length of the boot of enough length so as to make it convenient to allow a distance of minimum 30 mm between the jaws of the tensile machine.Rate of traverse of pulling jaw shall be 100 ± 5 mm per minute. Two such test pieces will be required to be obtained from the made up footwear and will be subjected to test to break each test piece. Mean value of each set of test pieces comprising of length wise and height wise test pieces will be 1 000 N/25 mm width minimum.')	-	0	-
Cl.4.1.7.4 Ageing(The boots shall be also aged at 70 ± 1°C for 168 h, on completion of which the test pieces taken from the soles and heels of the boots shall conform to the physical requirements prescribed in Table 5. i) Tensile Length)	-	0	-
Cl.4.1.7.4 Ageing(ii) Elongation at break)	-	0	-
Cl.4.1.7.2 IS 3400 (Part 2) : 1980(2)Hardness, IRHD)	-	0	-
4.1.6 Fabric Laces Cl.4.1.6.1( The boots shall be provided with braided of cotton or man made or blended fabric laces 115 ± 5 cm in length, matching the colour of the upper. )	-	0	-
Cl.4.1.1 upper IS 1969(d) Picks/dm)	-	0	-
Cl.4.4.5 ( Table 1.)(d) Picks/dm)	-	0	-
Cl.4.1.3.3( Black tapes shall be free from sulphur dyes when tested in accordance with Annex B.)	-	0	-
Cl.4.1.4 Reinforcement Material(The back seam, joining two quarters at the back of the heel shall be reinforced with a not less than 25 mm wide tape made out of material conforming to Sl No. (i) of Table 1)	-	0	-
Cl.4.1.5 Thread for Upper Closing Cl.4.1.5.1 (IS 1670:1991)(Sewing thread cotton, man made or blended shall be used for stitching of upper. For cotton variety thread shall conform to variety No. 28 of IS 1720. Polyester variety thread shall conform to variety No. 9 of IS 9543. Any other blend of thread would have breaking load not less than above referred requirements. Sewing thread cotton, manmade or blended shall be used for binding of upper. For cotton variety thread shall conform to variety No. 32 of IS 1720. Polyester variety thread shall conform to variety No. 5 of IS 9543. Any other blend of thread would have breaking load not less than above referred requirement of specification.')	-	0	-
Cl.4.1.5.2( The colour of the threads shall be asagreed to between the purchaser and the supplier. The dyed threads shall conform to the following requirements)	-	0	-
4.1.6 Fabric Laces Cl.4.1.6.1(The two ends of the lace shall be provided with suitable metal or plastic tips. Black laces shall be free from sulphur dyes when tested in accordance with Annex B.)	-	0	-
Cl.4.1.7 Rubber Components Cl.4.1.7.1( the soles and heels shall conform to Type 2 of IS 5676:1995.)	-	0	-
Cl.4.1.7.2 IS 3400 (Part 9) : 1978( The rubber components shall conform to Table 4 when tested.' ( Page 3, Table 4, Note 1) — 'However in case it is not possible then 4.2.5.3 of IS 13695:1993 shall be followed. 1)Relative density, Max)	-	0	-
Cl.4.1.7.5 Thickness of components(Individual components of the boots shall comply with the thickness and material requirements prescribed in Table 6.)	-	0	-
Cl.4.4.2( The canvas upper shall be lined with bleached drill cloth.)	-	0	-
Cl.4.4.3( The upper shall be stitched on a lockstitch machine, with 30 to 40 stitches per decimetre by thread of variety No. 8 and variety No. 29 cotton sewing thread conforming to 4.1.5 using variety No. 29 for taping and binding and variety No. 8 for remaining seams. )	-	0	-
Cl.4.4.5 ( The tongue shall be either half or full bellow depending on the requirement of the purchaser andshall be made from composite material prescribed for the upper in 4.1.1.)	-	0	-
Cl.4.4.6( A minimum of seven aluminium, brass or steel eyelets having 10 mm diameter and wall thickness 0.30 to 0.35 mm shall be fitted in each face.')	-	0	-
Cl.4.4.7( The toe shall be reinforced with a toe puff cemented inside and outside with rubber toe cap. The heel piece (counter) or stiffener shall be set from the bottom of the lining and bound flat on the top edge with white cloth for binding of countertop edge with white clothfor binding of counter)	-	0	-
Cl.4.4.8( A strengthening rubber arch piece shall be firmly pasted and stitched at the middle arch of the inside quarter. Another strengthening rubber piece, circular in shape 35 ± 1 mm in diameter, may bepasted and stitched at the centre of the inside)	-	0	-
Cl.4.4.10( A 25 mm Min wide and 2 mm Min thick rubber golosh in serrated, diamond or any otherdesign, as agreed to between the purchaser and thesupplier, shall be fitted all round the sole edge of the boot. The golosh shall not extend below the edge of the sole.)	-	0	-
Cl.4.5.1(Cl.4.1.6.)( Each pair of boot shall be provided with a pair of braided fabric laces of the quality as prescribed in 4.1.6.)	-	0	-
Cl.4.5.2( In appearance, general workmanship, finish and in all other respects, not defined in this standard, the boot shall be similar to those of the sample approved by the purchaser, if any.)	-	0	-
Cl.4.6 Mass(The mass of finished boots, rubber sole, of size 8 shall not exceed 1130 g per pair, and the mass shall increase or decrease by 75 g per pair for each bigger or smaller size respectively.)	-	0	-
Cl.4.9 Composite Breaking Strength Test( From the upper of made up footwear representative sample of width 25 ± 0.5 mm width strip is to be cut along the length of the boot of enough length so as to make it convenient to allow a distance of minimum 30 mm between the jaws of the tensile machine.Rate of traverse of pulling jaw shall be 100 ± 5 mm per minute. Two such test pieces will be required to be obtained from the made up footwear and will be subjected to test to break each test piece. Mean value of each set of test pieces comprising of length wise and height wise test pieces will be 1 000 N/25 mm width minimum.')	-	0	-

02 May, 2027

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1058

CENTRAL LEATHER RESEARCH INSTITUTE

IS 1989 : Part 2 (1986)

Specification for leather safety boots and shoes: Part 2 for heavy metal industries (Fourth Revision)

7650 View breakup
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Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
4(Marking)	-	0	-
7(Design)	-	0	-
8(a) Upper Leather)	-	3600	-
8(b) Lining Leather)	-	750	500 FOR CHROME V1 250 FOR HIDE SUBSTANCE
8(c) Bottom Material)	-	1750	250 FOR TOTAL ASH 1500 FOR DEGREE OF TANNAGE
8(d) Steel Toe Cap)	-	0	-
8(e) Tape)	-	150	-
8(f) Bottom Filling)	-	0	-
8(g) Eyelet)	-	0	-
8(h) Toe Compound)	-	0	-
8(i) Threads)	-	0	-
8(j) Rivets)	-	0	-
8(k) Screw Wire)	-	0	-
8(l) Heel Pin)	-	0	-
8(m) Shank)	-	0	-
8(n) Laces)	-	400	-
8(o) Tongue Lining)	-	0	-
8(p) Adhesive)	-	0	-
8(q) Strengthening Piece)	-	0	-
8(r) Leather Components)	-	0	-
9(Manufacture)	-	0	-
10(Finish)	-	0	-
11(a) Boots with Leather Sole and Heel)	-	0	-
11(b) Boots with Rubber Sole and Heel)	-	0	-
12(Performance Test)	-	0	-
13(Design)	-	0	-
14(a) Upper Leather)	-	0	-
14(b) Lining Leather)	-	0	-
14(c) Bottom Material)	-	0	-
14(d) Steel Toe Cap)	-	0	-
14(e) Tape)	-	0	-
14(f) Bottom Filling)	-	0	-
14(g) Eyelet)	-	0	-
14(h) Toe Compound)	-	1000	-
14(i) Threads)	-	0	-
14(j) Rivets)	-	0	-
14(k) Screw Wire)	-	0	-
14(l) Heel Pin)	-	0	-
14(m) Shank)	-	0	-
14(n) Laces)	-	0	-
14(o) Tongue Lining)	-	0	-
14(p) Adhesive)	-	0	-
14(q) Leather Components)	-	0	-
15(Manufacture)	-	0	-
16(Finish)	-	0	-
17(a) Shoes with Leather Sole and Heel)	-	0	-
17(b) Shoes with Rubber Sole and Heel)	-	0	-
18(Performance Test)	-	0	-
4(Marking)	-	0	-
7(Design)	-	0	-
8(a) Upper Leather)	-	0	-
8(b) Lining Leather)	-	0	-
8(c) Bottom Material)	-	0	-
8(d) Steel Toe Cap)	-	0	-
8(e) Tape)	-	0	-
8(f) Bottom Filling)	-	0	-
8(g) Eyelet)	-	0	-
8(h) Toe Compound)	-	0	-
8(i) Threads)	-	0	-
8(j) Rivets)	-	0	-
8(k) Screw Wire)	-	0	-
8(l) Heel Pin)	-	0	-
8(m) Shank)	-	0	-
8(n) Laces)	-	0	-
8(o) Tongue Lining)	-	0	-
8(p) Adhesive)	-	0	-
8(q) Strengthening Piece)	-	0	-
8(r) Leather Components)	-	0	-
9(Manufacture)	-	0	-
10(Finish)	-	0	-
11(a) Boots with Leather Sole and Heel)	-	0	-
11(b) Boots with Rubber Sole and Heel)	-	0	-
12(Performance Test)	-	0	-
13(Design)	-	0	-
14(a) Upper Leather)	-	0	-
14(b) Lining Leather)	-	0	-
14(c) Bottom Material)	-	0	-
14(d) Steel Toe Cap)	-	0	-
14(e) Tape)	-	0	-
14(f) Bottom Filling)	-	0	-
14(g) Eyelet)	-	0	-
14(h) Toe Compound)	-	0	-
14(i) Threads)	-	0	-
14(j) Rivets)	-	0	-
14(k) Screw Wire)	-	0	-
14(l) Heel Pin)	-	0	-
14(m) Shank)	-	0	-
14(n) Laces)	-	0	-
14(o) Tongue Lining)	-	0	-
14(p) Adhesive)	-	0	-
14(q) Leather Components)	-	0	-
15(Manufacture)	-	0	-
16(Finish)	-	0	-
17(a) Shoes with Leather Sole and Heel)	-	0	-
17(b) Shoes with Rubber Sole and Heel)	-	0	-
18(Performance Test)	-	0	-
8(c) Bottom Material)	-	0.01	-
8(e) Tape)	-	0.01	-
8(f) Bottom Filling)	-	0.01	-
8(l) Heel Pin)	-	0.01	-
8(q) Strengthening Piece)	-	0.01	-
11(a) Boots with Leather Sole and Heel)	-	0.01	-
12(Performance Test)	-	0.01	-
14(e) Tape)	-	0.01	-
14(j) Rivets)	-	0.01	-
14(l) Heel Pin)	-	0.01	-
14(p) Adhesive)	-	0.01	-

02 May, 2027

-
-

1059

CENTRAL LEATHER RESEARCH INSTITUTE

IS 15298 : part 4 (2017)

Personal protective equipment: Part 4 occupational footwear (Second Revision)

36600 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
Table 1(CLASS I)	-	0	-
Table 1(CLASS II)	-	0	-
5.2.2.1(General)	-	0	-
5.2.2.2(Height of upper)	-	0	-
5.2.2.3(Seat region)	-	0	-
5.3.2.1(Construction)	-	0	-
5.3.1.2(Upper/outsole bond strength)	-	600	-
5.3.2.2(Leakproofness)	-	200	-
5.3.2.3(Specific ergonomic features )	-	500	-
5.3.4.1(Slip resistance)	-	1500	-
5.3.4.2(Slip resistance on ceramic tile floor with sodium lauryl sulphate (SLS) solution)	-	0	-
5.3.4.3(Slip resistance on steel floor with glycerine )	-	0	-
5.3.4.4(Slip resistance on ceramic tile floor with SLS and on steel floor with glycerine )	-	0	-
5.3.2.5(Innocuousness )	-	23100	2100 for 1 parameter total 11 parameter 11 x 2100=23100
5.4.2.1(Upper)	-	0	-
5.4.2.2(Thickness )	-	0	-
5.4.2.3(Tear strenth)	-	600	-
5.4.2.4(Tensile properties)	-	600	-
5.4.2.5(Flexing resistance )	-	600	-
5.4.2.6(Water vapour permeability and coefficient )	-	600	-
5.4.2.7(pH value )	-	0	-
5.4.2.8(Hydrolysis)	-	500	-
5.4.2.9(Chromium VI content )	-	0	-
5.5.2.1(Tear strength )	-	0	-
5.5.2.2(Abrasion resistance )	-	700	-
5.5.2.3(Water vapour permeability and coefficient )	-	0	-
5.5.2.4(pH value )	-	0	-
5.5.2.5(Chromium VI content )	-	0	-
5.6(Tongue )	-	0	-
5.6.2.1(Tear strength )	-	0	-
5.6.2.2(pH value )	-	0	-
5.6.2.3(Chromium VI content )	-	0	-
5.7.2.1(Insole and insock )	-	0	-
5.7.2.2(Insole and insock )	-	0	-
5.7.2.3(Water absorption and desorption )	-	0	-
5.7.4.1(Abrasion resistance )	-	0	-
5.7.4.2(Abrasion resistance )	-	0	-
5.7.2.5(Chromium VI content )	-	0	-
5.8.2.1(Outsole)	-	0	-
5.8.1.1(Thickness )	-	0	-
5.8.1.2(Cleated area )	-	0	-
5.8.1.3(Cleat height)	-	0	-
5.8.2.2(Tear strength )	-	0	-
5.8.2.3(Abrasion resistance )	-	0	-
5.8.2.4(Flexing resistance )	-	0	-
5.8.2.5(Hydrolysis )	-	0	-
5.8.2.6(Interlayer bond strength )	-	0	-
6.2.1.1(Metallic anti-penetration insert )	-	500	-
6.2.1.1.2(Non-metallic anti-penetration insert used as an insole)	-	0	-
6.2.1.2(Construction)	-	0	-
6.2.1.3(Dimensions )	-	0	-
6.2.1.4(Flex resistance of penetration-resistant inserts )	-	0	-
6.2.1.5.1(Corrosion resistance of penetration-resistant metallic inserts)	-	0	-
6.2.1.5.2(Penetration-resistant non-metallic inserts)	-	0	-
6.2.2.1(Conductive footwear)	-	500	-
6.2.2.2(Antistatic footwear)	-	0	-
6.2.2.3(Electrically insulating footwear )	-	0	-
6.2.3.1(Heat insulation of sole complex )	-	1000	-
6.2.3.2(Cold insulation of sole complex)	-	2000	-
6.2.2.4(Energy absorption of seat region )	-	500	-
6.2.2.5(Water resistance )	-	500	-
6.2.2.6(Ankle protection)	-	0	-
6.2.7.1(Cut resistance foot wear)	-	500	-
6.2.7.2(Cut resistance foot wear)	-	0	-
6.2.7.3(Resistance to cutting)	-	0	-
6.2.7.4(Pentration resistance)	-	0	-
6.3.2.2(Upper- water penetration)	-	0	-
6.4.2.1(Resistance to hot contact)	-	600	-
6.4.2.2(Resistance to fuel oil)	-	500	-
7(a)(Marking)	-	0	-
7(b)(Marking)	-	0	-
7(c)(Marking)	-	0	-
7(d)(Marking)	-	0	-
7(e)(Marking)	-	0	-
7(e)(Marking)	-	0	-

02 May, 2027

-
-

1060

CENTRAL LEATHER RESEARCH INSTITUTE

IS 15298 : Part 2 (2016)

Personal protective equipment: Part 2 safety footwear (Second Revision)

38800 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
4,Table 1(Class I, IS 15298)	-	0	-
4,Table 1(Class II, IS 15298)	-	0	-
5.2,5.2.1, Fig 3(Design,General, IS 15298)	-	0	-
5.2.2, Fig 4(Height of Upper, ISO 20344 , 6.2)	-	0	-
5.2.3, Table 10 ,Design A(Seat Region)	-	0	-
5.3.1.1(Construction)	-	0	-
5.3.1.2(Upper/outer sole bond strength , ISO 20344 , 5.2)	-	600	-
5.3.2.1(General, EN 12568 OF 4.2.2.2)	-	0	-
5.3.2.2,Table 5(Internal length of toecaps , ISO 20344 , 5.3)	-	100	-
5.3.2.3,Table 6(Impact resistance of safety footwear,ISO 20344 , 5.4)	-	1000	-
5.3.2.4 ,Table 6(Compression Resistance of safety footwear ,ISO20344 , 5.5)	-	600	-
5.3.2.5.1(Corrosion resistance of metallic toecaps ,ISO20344 , 5.6.2)	-	400	-
5.3.2.5.2(Non metallic toe caps ,EN 12568)	-	0	-
5.3.3(Leak proofness ,ISO 20344 , 5.7)	-	200	-
5.3.4(Specific ergonomic feature ,ISO 20344 , 5.1)	-	0	-
5.3.5.2,Table 7(Slip resistance on ceramic tile floor with sodium lauryl sulphate (NaLS) solution)	-	1500	-
5.3.5.3,Table 8(Slip resistance on steel floor with glycerin)	-	0	-
5.3.5.4(Slip resistance on ceramic tile floor with NaLS and on steel floor with glycerin)	-	0	-
5.3.6(Innocuousness)	-	23100	2100 for 1 parameter total 11 parameter 11x 2100=23100
5.4.1,Table 10(General)	-	0	-
5.4.2, Table 11(Thickness , ISO 20344 , 6.1 )	-	0	-
5.4.3, Table 12(Tear Strength, ISO 20344 , 6.3 )	-	600	-
5.4.4, Table 13(Tensile properties ,ISO 20344 , 6.4.1 )	-	600	-
5.4.5, Table 14(Flexing resistance ,ISO 20344,6.5)	-	0	-
5.4.6(Water vapour permeability and coefficient,ISO 20344,6.6 & 6.8)	-	600	-
5.4.7(Ph Value ; ISO 20344,6.9)	-	0	-
5.4.8(Hydrolysis ; ISO 20344,6.10)	-	500	-
5.4.9(Chromium VI content; ISO 17075)	-	0	-
5.5.1,Table 15(Tear Strength, ISO 20344 , 6.3)	-	0	-
5.5.2(Abrasion Resistance ;ISO 20344 , 6.12)	-	0	-
5.5.3(Water vapour permeability and coefficient,ISO 20344,6.6 & 6.8)	-	0	-
5.5.4(Ph Value ; ISO 20344,6.9)	-	0	-
5.5.5(Chromium VI content; ISO 17075)	-	0	-
5.6(Tongue - IS 15298 Part 2 )	-	0	-
5.6.1,Table 16(Tear Strength, ISO 20344 , 6.3)	-	0	-
5.6.2(Ph Value ; ISO 20344,6.9)	-	0	-
5.6.3(Chromium VI content; ISO 17075)	-	0	-
5.7.1;Table 3(Thickness ; ISO 20344,7.1)	-	0	-
5.7.2(Ph Value ; ISO 20344,6.9)	-	0	-
5.7.3(Water Absorption and desorption ISO 20344,7.2 )	-	0	-
5.7.4.1(Insole ; ISO 20344,7.3 )	-	0	-
5.7.4.2(Insocks ; ISO 20344, 6.12)	-	0	-
5.7.5(Chromium VI content; ISO 17075)	-	0	-
5.8.1(Design, IS 15298 Part 2 )	-	0	-
5.8.1.1, Table 17(Thickness ; ISO 20344, 8.1.2)	-	0	-
5.8.1.2(Cleated area ; ISO 20344 , Fig 38)	-	100	-
5.8.1.3, Table 17(Cleat height; ISO 20344, 8.1)	-	0	-
5.8.2(Tear Strength, ISO 20344 , 8.2)	-	0	-
5.8.3(Abrasion Resistance ;ISO 20344 , 8.3)	-	0	-
5.8.4(Flexing resistance ,ISO 20344,8.4)	-	0	-
5.8.5(Hydrolysis ; ISO 20344,8.5)	-	0	-
5.8.6(Interlayer bond strength; ISO 20344, 5.2)	-	0	-
6.2.1.1.1(Metallic anti-penetration insert; ISO 20344, 5.8.2)	-	500	-
6.2.1.1.2(Non-metallic anti-penetration insert; ISO 20344, 5.8.3)	-	0	-
6.2.1.2(Consruction)	-	0	-
6.2.1.3(Dimension ; ISO 20344, 5.8.1)	-	0	-
6.2.1.4(Flex resistance of penetration -resistant insert ; ISO 20344,5.9)	-	0	-
6.2.1.5.1(Corrosion resistance of penetration -resistant metallic insert - ISO 20344, 5.6.3 &5.6.1)	-	0	-
6.2.1.5.2(Penetration -resistant non-metallic insert ; EN 12568,6.4&7.4)	-	0	-
6.2.2.1 (Conductive footwear ; ISO 20344,5.10 & 5.10.3.3)	-	500	-
6.2.2.2(Antistatic footwear ; ISO 20344,5.10)	-	0	-
6.2.2.3(Electrically insulating footwear; EN 50321)	-	0	-
6.2.3.1(Hear insulation of sole complex; ISO 20344,5.12 ;Annex B)	-	1000	-
6.2.3.2(Cold insulation of sole complex; ISO 20344,5.13)	-	2000	-
6.2.4(Energy absorption of seat region; ISO 20344,5.14)	-	500	-
6.2.5(Water resistance ; 5.15.1 & 5.15.2)	-	500	-
6.2.6.1(Construction)	-	0	-
6.2.6.2 , Table 19(Impact resistance of metatarsal protective device,ISO 20344 , 5.16)	-	0	-
6.2.7 (Ankle protection ; ISO 20344 , 5.17)	-	0	-
6.2.8.1(Design)	-	0	-
6.2.8.2(Construction)	-	0	-
6.2.8.3,EN 388(Resistance to cutting ,EN 388)	-	500	-
6.2.8.4(Penetration Resistance)	-	0	-
6.3(Upper--Water penetration and absorption ; ISO 20344 , 5.13)	-	0	-
6.4.1(Resistance to hot contact ; ISO 20344 , 8.7)	-	600	-
6.4.2(Resistance to fuel oil ; ISO 20344 , 8.6.1& 8.6.2 ; )	-	0	-

02 May, 2027

-
-

1061

CENTRAL LEATHER RESEARCH INSTITUTE

IS 1989 : Part 1 (1986)

Specification for leather safety boots and shoes: Part 1 for miners (Fourth Revision)

7650 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
12(Performance test)	-	7650	IS 1989:Part -1 the total testing charges of both mechanical and chemical parameter is Rs-7650
4.1 (a)(Marking)	-	0	-
4.1 (b)(Marking)	-	0	-
4.1 (c)(Marking)	-	0	-
4.1 (d)(Marking)	-	0	-
4.1 (e)(Marking)	-	0	-
7.1(Design)	-	0	-
10.1(Finish)	-	0	-
10.3(Finish)	-	0	-
10.4(Finish)	-	0	-
11.1(Mass Boots with Leather Sole and Heel)	-	0	-
11.2(Mass Boots with Rubber Sole and Heel)	-	0	-
13(Design)	-	0	-
16.1(Finish)	-	0	-
16.2(Finish)	-	0	-
16.3(Finish)	-	0	-
16.4(Finish)	-	0	-
17.1(Mass Shoes with Leather Sole and Heel)	-	0	-
17.2(Mass Shoes with Rubber Sole and Heel)	-	0	-
18(Performance test)	-	0	-

02 May, 2027

-
-

1062

PAAM Testing Labs Private Limited

IS 456 (2000)

Plain and reinforced concrete - Code of practice (Fourth Revision)

3000 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
5.4-Table-1 (v)-IS: 3025(P-17)(Suspended matter)	-	1000	-
5.4-Table-1 (iv)-IS: 3025(P-32)(Chloride)	-	1000	-
5.4-Table-1 (ii)-IS: 3025(P-24)(Sulphate)	-	1000	-
5.4-Table-1 (i)-IS: 3025(P-18)(In-Organic)	-	1000	-
5.4-Table-1 (i)-IS: 3025(P-18)(Organic )	-	1000	-
5.4.2-IS: 3025(P-11)(Ph)	-	1000	-
5.4-(b)-IS: 3025 (P-23)(Volume of 0.02 N H2SO4 to neutralized 100 ml of water using mixed indicator)	-	1000	-
5.4-(a)-IS: 3025 (P-22)(Volume of 0.02 N NaOH to neutralized 100 ml of water using phenolphthalein indicator)	-	1000	-
Cl 5.4 Table 1 (v)(Suspended Matter)	-	1000	-
Cl 5.4 Table 1 (iv)(Chloride)	-	1000	-
Cl 5.4 Table 1 (iii)(Sulphate)	-	1000	-
Cl 5.4 Table 1 (ii)(Inorganic Solids)	-	1000	-
Cl 5.4 Table 1 (i)(Organic Solids)	-	1000	-
Cl 5.4 .2(pH)	-	1000	-
Cl 5.4 (b)(Alkalinity)	-	1000	-
Cl 5.4 (a)(Acidity)	-	1000	-
16.1(Average Compressive Strength)	-	0	-
16.1(Compressive Strength of Individual Samples )	-	0	-
16.1(Compressive Strength of Individual Samples )	-	0	-
16.1(Compressive Strength of Individual Samples )	-	0	-
Clause 5.4(Description)	-	0	-
5.1(Cement)	-	0	-
5.2(Mineral Admixtures)	-	0	-
5.3(Aggregates)	-	0	-
5.6(Reinforcement)	-	0	-
5.7(Storage of Materials)	-	0	-
7(Workability of Concrete)	-	0	-
8(Durability of concrete)	-	0	-
9(Concrete mix proportioning)	-	0	-
16.2(Flexural Strength)	-	0	-
17.4(Core test)	-	0	-
cl 5.4.4.3(Initial Setting Time)	-	0	-
cl 5.4.4.3(Initial Setting Time)	-	0	-
5.4-Table-1 (iii)-IS: 3025(P-32)(Chloride)	-	1000	-

08 May, 2028

-
-

1063

BIS, Eastern Regional Laboratory (ERL)

IS 8086 (1991)

Rehabilitation equipment - Wheelchairs, folding, junior size - Specification (First Revision)

All sizes except tests mentioned in remarks

- View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Effective Date	Remark
Cl.5.1 (Overall length )	-
Cl.5.1 (Overall width, open)	-
Cl.5.1 (Overall width , folded)	-
Cl.5.1 (Overall height)	-
Cl.5.1 (Sea t height from floor at the front )	-
Cl.5.1 (Armrest height from seat)	-
Cl.5.1 (Slope of the scat)	-
Cl.5.1 (Seat width )	-
Cl.5.1 (Seat depth)	-
Cl.5.1 (Distance between seat and footrest)	-
Cl.5.1 (Clearance of frame from floor )	-
Cl.5.1 (Clearance of foot rest from floor)	-
Cl.5.1 (Wheel diameter)	-
Cl.5.1 (Weight of the wheelchair ( basic model ))	-
Cl. 7.1 (Backrest and Seat)	-
Cl. 7.2 (Frame)	-
Cl. 7.3 (Footrests and Supports)	-
Cl. 7.5 (Hand Rims)	-
Cl. 7.6 (Brakes )	-
Cl. 7.7 ( Castors)	-
Cl. 7.8 (Wheels)	-
Cl. 7.9 (Clothing Guards)	-
Cl. 7.10 (Folding Mechanism)	-
Cl. 7.11 (Lubrication)	-
Cl. 8 (Finish)	-
Cl. 9.3 (Load Test)	-

-
-

1064

Ace Test Labs & Metrology Pvt. Ltd.

IS 17550 : Part 2 (2024)

Household Refrigerating Appliances - Characteristics and Test Methods Part 2 Performance Requirements (First Revision)

335000 View breakup
-

Clause No.	Exclusion	Remark
6(Storage Test)	-	-
7(Cooling Capacity Test)	-	-
8(Freezing Capacity Test)	-	-
9("Automatic Ice-Making Capacity Test")	-	-
Cl. No.4.6 & Annex A(PULL-DOWN TEST)	-	-
Cl. No.4.6(b) & Annex B("Wine Storage Appliances And Compartments; Storage Test")	-	-
Cl. No.4.6(C) & AnnexC("Temperature Rise Test ")	-	-
Cl. No.4.6(d) & Annex D("Water Vapour Condensation Test ")	-	-

14 Nov, 2027

-
Included w.e.f 27.03.2025

1065

Bharat Test House Pvt. Ltd.

IS 3087 (2005)

Practicle boards of wood and other lingnocellulosic materials (medium density) for general purposes -Specification

Practicle boards of wood and other lingnocellulosic materials (medium density) for general purposes

19000 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
1 (i) Table 1(Density Variation (Flat Pressed Single Layer))	-	500	-
1 (i) Table 1(Density Variation (Flat Pressed Three Layer grade 1))	-	500	-
1 (i) Table 1(Density Variation (Flat Pressed Three Layer grade 2))	-	500	-
1 (i) Table 1(Density Variation (Extrusion Pressed Solids) XPS)	-	500	-
1 (i) Table 1(Density Variation (Extrusion Pressed Tubular) XPS)	-	500	-
1 (ii) (a) Table 1(Water absorption, 2h soacking (Flat Pressed Single Layer))	-	1000	-
1 (ii) (a) Table 1(Water absorption, 2h soacking (Flat Pressed Three Layer grade 1))	-	1000	-
1 (ii) (a) Table 1(Water absorption, 2h soacking (Flat Pressed Three Layer grade 2))	-	1000	-
1 (ii) (a) Table 1(Water absorption, 2h soacking (Extrusion Pressed Solids) XPS)	-	1000	-
1 (ii) (a) Table 1(Water absorption, 2h soacking (Extrusion Pressed Tubular) XPS)	-	1000	-
1 (ii) Table 1 (b)(Water absorption, 24h soacking (Flat Pressed Single Layer))	-	1000	-
1 (ii) (b) Table 1 (Water absorption, 24h soacking (Flat Pressed Three Layer grade 1))	-	1000	-
1 (ii) (b) Table 1 (Water absorption, 24h soacking (Flat Pressed Three Layer grade 2))	-	1000	-
1 (ii) (b) Table 1 (Water absorption, 24h soacking (Extrusion Pressed Solids) XPS)	-	1000	-
1 (ii) (b) Table 1 (Water absorption, 24h soacking (Extrusion Pressed Tubular) XPS)	-	1000	-
1 (iii) (a) Table 1(Linear expression (swelling in water), Length (Flat Pressed Single Layer))	-	800	-
1 (iii) (a) Table 1(Linear expression (swelling in water), Length (Flat Pressed Three Layer grade 1))	-	800	-
1 (iii) (a) Table 1(Linear expression (swelling in water), Length (Flat Pressed Three Layer grade 2))	-	800	-
1 (iii) (a) Table 1(Linear expression (swelling in water), Length (Extrusion Pressed Solids) XPS)	-	800	-
1 (iii) (a) Table 1(Linear expression (swelling in water), Length (Extrusion Pressed Tubular) XPS)	-	800	-
1 (iii) (b) Table 1(Linear expression (swelling in water), Width (Flat Pressed Single Layer))	-	800	-
1 (iii) (b) Table 1(Linear expression (swelling in water), Width (Flat Pressed Three Layer grade 1))	-	800	-
1 (iii) (b) Table 1(Linear expression (swelling in water), Width (Flat Pressed Three Layer grade 2))	-	800	-
1 (iii) (b) Table 1(Linear expression (swelling in water), Width (Extrusion Pressed Solids) XPS)	-	800	-
1 (iii) (b) Table 1(Linear expression (swelling in water), Width (Extrusion Pressed Tubular) XPS)	-	800	-
1 (iv) Table 1(Thickness swelling, Width (Flat Pressed Single Layer))	-	800	-
1 (iv) Table 1(Thickness swelling, Width (Flat Pressed Three Layer grade 1))	-	800	-
1 (iv) Table 1(Thickness swelling, Width (Flat Pressed Three Layer grade 2))	-	800	-
1 (iv) Table 1(Thickness swelling, Width (Extrusion Pressed Solids) XPS)	-	800	-
1 (iv) Table 1(Thickness swelling, Width (Extrusion Pressed Tubular) XPS)	-	800	-
1 (v) Table 1(Swelling in thickness due to surface absorption, (Flat Pressed Single Layer))	-	800	-
1 (v) Table 1(Swelling in thickness due to surface absorption, (Flat Pressed Three Layer grade 1))	-	800	-
1 (v) Table 1(Swelling in thickness due to surface absorption, (Flat Pressed Three Layer grade 2))	-	800	-
1 (v) Table 1(Swelling in thickness due to surface absorption, (Extrusion Pressed Solids) XPS)	-	800	-
1 (v) Table 1(Swelling in thickness due to surface absorption, (Extrusion Pressed Tubular) XPS)	-	1000	-
1 (vi) (a), Table 1(Modulus of rupture, Average (Flat Pressed Single Layer))	-	1000	-
1 (vi) (a), Table 1(Modulus of rupture, Average (Flat Pressed Three Layer grade 1))	-	1000	-
1 (vi) (a), Table 1(Modulus of rupture, Average (Flat Pressed Three Layer grade 2))	-	1000	-
1 (vi) (a), Table 1(Modulus of rupture, Average (Extrusion Pressed Solids) XPS)	-	1000	-
1 (vi) (a), Table 1(Modulus of rupture, Average (Extrusion Pressed Tubular) XPS)	-	1000	-
1 (vi) (b), Table 1(Modulus of rupture, Minimum (Flat Pressed Single Layer))	-	1000	-
1 (vi) (b), Table 1(Modulus of rupture, Minimum (Flat Pressed Three Layer grade 1))	-	1000	-
1 (vi) (b), Table 1(Modulus of rupture, Minimum (Flat Pressed Three Layer grade 2))	-	1000	-
1 (vi) (b), Table 1(Modulus of rupture, Minimum (Extrusion Pressed Solids) XPS)	-	1000	-
1 (vi) (b), Table 1(Modulus of rupture, Minimum (Extrusion Pressed Tubular) XPT)	-	1000	-
1 (vii) (a), Table 1(Modulus of elasticity, Average (Flat Pressed Single Layer))	-	1000	-
1 (vii) (a), Table 1(Modulus of elasticity, Average (Flat Pressed Three Layer grade 1))	-	1000	-
1 (vii) (a), Table 1(Modulus of elasticity, Average (Flat Pressed Three Layer grade 2))	-	1000	-
1 (vii) (a), Table 1(Modulus of elasticity, Average (Extrusion Pressed Solids) XPS)	-	1000	-
1 (vii) (a), Table 1(Modulus of elasticity, Average (Extrusion Pressed Tubular) XPT)	-	1000	-
1 (vii) (b), Table 1(Modulus of elasticity, Minimum (Flat Pressed Single Layer))	-	1000	-
1 (vii) (b), Table 1(Modulus of elasticity, Minimum (Flat Pressed Three Layer grade 1))	-	1000	-
1 (vii) (b), Table 1(Modulus of elasticity, Minimum (Flat Pressed Three Layer grade 2))	-	1000	-
1 (vii) (b), Table 1(Modulus of elasticity, Minimum (Extrusion Pressed Solids) XPS)	-	1000	-
1 (vii) (b), Table 1(Modulus of elasticity, Minimum (Extrusion Pressed Tubular) XPT)	-	1000	-
1 (viii) (a), Table 1(Tensile strenath perpendicullr to surface, Upto 20mm thickness (Flat Pressed Single Layer))	-	800	-
1 (viii) (a), Table 1(Tensile strenath perpendicullr to surface,Upto 20mm thickness (Flat Pressed Three Layer grade 1))	-	800	-
1 (viii) (a), Table 1(Tensile strenath perpendicullr to surface, Upto 20mm thickness (Flat Pressed Three Layer grade 2))	-	800	-
1 (viii) (a), Table 1(Tensile strenath perpendicullr to surface, Upto 20mm thickness (Extrusion Pressed Solids) XPS)	-	800	-
1 (viii) (a), Table 1(Tensile strenath perpendicullr to surface, Upto 20mm thickness (Extrusion Pressed Tubular) XPT)	-	800	-
1 (viii) (b), Table 1(Tensile strenath perpendicullr to surface, Above 20mm thickness (Flat Pressed Single Layer))	-	800	-
1 (viii) (b), Table 1(Tensile strenath perpendicullr to surface,Above 20mm thickness (Flat Pressed Three Layer grade 1))	-	800	-
1 (viii) (b), Table 1(Tensile strenath perpendicullr to surface, Above 20mm thickness (Flat Pressed Three Layer grade 2))	-	800	-
1 (viii) (b), Table 1(Tensile strenath perpendicullr to surface, Above 20mm thickness (Extrusion Pressed Solids) XPS)	-	800	-
1 (viii) (b), Table 1(Tensile strenath perpendicullr to surface, Above 20mm thickness (Extrusion Pressed Tubular) XPT)	-	800	-
1 (i) Table 1(Density Variation (Flat Pressed Single Layer))	-	800	-
1 (i) Table 1(Density Variation (Flat Pressed Three Layer grade 1))	-	800	-
1 (i) Table 1(Density Variation (Flat Pressed Three Layer grade 2))	-	800	-
1 (i) Table 1(Density Variation (Extrusion Pressed Solids) XPS)	-	800	-
1 (i) Table 1(Density Variation (Extrusion Pressed Tubular) XPS)	-	800	-
1 (ii) (a) Table 1(Water absorption, 2h soacking (Flat Pressed Single Layer))	-	800	-
1 (ii) (a) Table 1(Water absorption, 2h soacking (Flat Pressed Three Layer grade 1))	-	800	-
1 (ii) (a) Table 1(Water absorption, 2h soacking (Flat Pressed Three Layer grade 2))	-	800	-
1 (ii) (a) Table 1(Water absorption, 2h soacking (Extrusion Pressed Solids) XPS)	-	800	-
1 (ii) (a) Table 1(Water absorption, 2h soacking (Extrusion Pressed Tubular) XPS)	-	800	-
1 (ii) Table 1 (b)(Water absorption, 24h soacking (Flat Pressed Single Layer))	-	800	-
1 (ii) (b) Table 1 (Water absorption, 24h soacking (Flat Pressed Three Layer grade 1))	-	800	-
1 (ii) (b) Table 1 (Water absorption, 24h soacking (Flat Pressed Three Layer grade 2))	-	800	-
1 (ii) (b) Table 1 (Water absorption, 24h soacking (Extrusion Pressed Solids) XPS)	-	800	-
1 (ii) (b) Table 1 (Water absorption, 24h soacking (Extrusion Pressed Tubular) XPS)	-	800	-
1 (iii) (a) Table 1(Linear expression (swelling in water), Length (Flat Pressed Single Layer))	-	800	-
1 (iii) (a) Table 1(Linear expression (swelling in water), Length (Flat Pressed Three Layer grade 1))	-	800	-
1 (iii) (a) Table 1(Linear expression (swelling in water), Length (Flat Pressed Three Layer grade 2))	-	800	-
1 (iii) (a) Table 1(Linear expression (swelling in water), Length (Extrusion Pressed Solids) XPS)	-	800	-
1 (iii) (a) Table 1(Linear expression (swelling in water), Length (Extrusion Pressed Tubular) XPS)	-	800	-
1 (iii) (b) Table 1(Linear expression (swelling in water), Width (Flat Pressed Single Layer))	-	800	-
1 (iii) (b) Table 1(Linear expression (swelling in water), Width (Flat Pressed Three Layer grade 1))	-	800	-
1 (iii) (b) Table 1(Linear expression (swelling in water), Width (Flat Pressed Three Layer grade 2))	-	800	-
1 (iii) (b) Table 1(Linear expression (swelling in water), Width (Extrusion Pressed Solids) XPS)	-	800	-
1 (iii) (b) Table 1(Linear expression (swelling in water), Width (Extrusion Pressed Tubular) XPS)	-	800	-
1 (iv) Table 1(Thickness swelling, Width (Flat Pressed Single Layer))	-	800	-
1 (iv) Table 1(Thickness swelling, Width (Flat Pressed Three Layer grade 1))	-	800	-
1 (iv) Table 1(Thickness swelling, Width (Flat Pressed Three Layer grade 2))	-	800	-
1 (iv) Table 1(Thickness swelling, Width (Extrusion Pressed Solids) XPS)	-	800	-
1 (iv) Table 1(Thickness swelling, Width (Extrusion Pressed Tubular) XPS)	-	800	-
1 (v) Table 1(Swelling in thickness due to surface absorption, (Flat Pressed Single Layer))	-	800	-
1 (v) Table 1(Swelling in thickness due to surface absorption, (Flat Pressed Three Layer grade 1))	-	800	-
1 (v) Table 1(Swelling in thickness due to surface absorption, (Flat Pressed Three Layer grade 2))	-	800	-
1 (v) Table 1(Swelling in thickness due to surface absorption, (Extrusion Pressed Solids) XPS)	-	800	-
1 (v) Table 1(Swelling in thickness due to surface absorption, (Extrusion Pressed Tubular) XPS)	-	800	-
1 (vi) (a), Table 1(Modulus of rupture, Average (Flat Pressed Single Layer))	-	1000	-
1 (vi) (a), Table 1(Modulus of rupture, Average (Flat Pressed Three Layer grade 1))	-	1000	-
1 (vi) (a), Table 1(Modulus of rupture, Average (Flat Pressed Three Layer grade 2))	-	1000	-
1 (vi) (a), Table 1(Modulus of rupture, Average (Extrusion Pressed Solids) XPS)	-	1000	-
1 (vi) (a), Table 1(Modulus of rupture, Average (Extrusion Pressed Tubular) XPS)	-	1000	-
1 (vi) (b), Table 1(Modulus of rupture, Minimum (Flat Pressed Single Layer))	-	1000	-
1 (vi) (b), Table 1(Modulus of rupture, Minimum (Flat Pressed Three Layer grade 1))	-	1000	-
1 (vi) (b), Table 1(Modulus of rupture, Minimum (Flat Pressed Three Layer grade 2))	-	1000	-
1 (vi) (b), Table 1(Modulus of rupture, Minimum (Extrusion Pressed Solids) XPS)	-	1000	-
1 (vi) (b), Table 1(Modulus of rupture, Minimum (Extrusion Pressed Tubular) XPT)	-	1000	-
1 (vii) (a), Table 1(Modulus of elasticity, Average (Flat Pressed Single Layer))	-	1000	-
1 (vii) (a), Table 1(Modulus of elasticity, Average (Flat Pressed Three Layer grade 1))	-	1000	-
1 (vii) (a), Table 1(Modulus of elasticity, Average (Flat Pressed Three Layer grade 2))	-	1000	-
1 (vii) (a), Table 1(Modulus of elasticity, Average (Extrusion Pressed Solids) XPS)	-	1000	-
1 (vii) (a), Table 1(Modulus of elasticity, Average (Extrusion Pressed Tubular) XPT)	-	1000	-
1 (vii) (b), Table 1(Modulus of elasticity, Minimum (Flat Pressed Single Layer))	-	1000	-
1 (vii) (b), Table 1(Modulus of elasticity, Minimum (Flat Pressed Three Layer grade 1))	-	1000	-
1 (vii) (b), Table 1(Modulus of elasticity, Minimum (Flat Pressed Three Layer grade 2))	-	1000	-
1 (vii) (b), Table 1(Modulus of elasticity, Minimum (Extrusion Pressed Solids) XPS)	-	1000	-
1 (vii) (b), Table 1(Modulus of elasticity, Minimum (Extrusion Pressed Tubular) XPT)	-	1000	-
1 (viii) (a), Table 1(Tensile strenath perpendicullr to surface, Upto 20mm thickness (Flat Pressed Single Layer))	-	800	-
1 (viii) (a), Table 1(Tensile strenath perpendicullr to surface,Upto 20mm thickness (Flat Pressed Three Layer grade 1))	-	800	-
1 (viii) (a), Table 1(Tensile strenath perpendicullr to surface, Upto 20mm thickness (Flat Pressed Three Layer grade 2))	-	800	-
1 (viii) (a), Table 1(Tensile strenath perpendicullr to surface, Upto 20mm thickness (Extrusion Pressed Solids) XPS)	-	800	-
1 (viii) (a), Table 1(Tensile strenath perpendicullr to surface, Upto 20mm thickness (Extrusion Pressed Tubular) XPT)	-	800	-
1 (viii) (b), Table 1(Tensile strenath perpendicullr to surface, Above 20mm thickness (Flat Pressed Single Layer))	-	800	-
1 (viii) (b), Table 1(Tensile strenath perpendicullr to surface,Above 20mm thickness (Flat Pressed Three Layer grade 1))	-	800	-
1 (viii) (b), Table 1(Tensile strenath perpendicullr to surface, Above 20mm thickness (Flat Pressed Three Layer grade 2))	-	800	-
1 (viii) (b), Table 1(Tensile strenath perpendicullr to surface, Above 20mm thickness (Extrusion Pressed Solids) XPS)	-	800	-
1 (viii) (b), Table 1(Tensile strenath perpendicullr to surface, Above 20mm thickness (Extrusion Pressed Tubular) XPT)	-	800	-
7(Finish)	-	200	-
8.3(Dimensional Tolerances)	-	500	-
9.2, 11.4(Moisture content)	-	1000	-
11.10(screw withdrawal strength)	-	800	-
Cl-9.6(Workability)	-	800	-
Cl-9.7 (Amendment No-5)(Formaldehyde Content/Emission, Fc)	-	800	-
Cl-9.7.2 (Amendment No-5)(Steady State Formaldehyde Emission Value)	-	800	-
Cl-12 (Amendment No 1)(ADDITIONAL REQUIREMENTS FOR ECO MARK)	-	200	-
1 (i) Table 1(Density Variation (Flat Pressed Single Layer))	-	0	-
1 (i) Table 1(Density Variation (Flat Pressed Three Layer grade 1))	-	0	-
1 (i) Table 1(Density Variation (Flat Pressed Three Layer grade 2))	-	0	-
1 (i) Table 1(Density Variation (Extrusion Pressed Solids) XPS)	-	0	-
1 (i) Table 1(Density Variation (Extrusion Pressed Tubular) XPS)	-	0	-
1 (ii) (a) Table 1(Water absorption, 2h soacking (Flat Pressed Single Layer))	-	0	-
1 (ii) (a) Table 1(Water absorption, 2h soacking (Flat Pressed Three Layer grade 1))	-	0	-
1 (ii) (a) Table 1(Water absorption, 2h soacking (Flat Pressed Three Layer grade 2))	-	0	-
1 (ii) (a) Table 1(Water absorption, 2h soacking (Extrusion Pressed Solids) XPS)	-	0	-
1 (ii) (a) Table 1(Water absorption, 2h soacking (Extrusion Pressed Tubular) XPS)	-	0	-
1 (ii) Table 1 (b)(Water absorption, 24h soacking (Flat Pressed Single Layer))	-	0	-
1 (ii) (b) Table 1 (Water absorption, 24h soacking (Flat Pressed Three Layer grade 1))	-	0	-
1 (ii) (b) Table 1 (Water absorption, 24h soacking (Flat Pressed Three Layer grade 2))	-	0	-
1 (ii) (b) Table 1 (Water absorption, 24h soacking (Extrusion Pressed Solids) XPS)	-	0	-
1 (ii) (b) Table 1 (Water absorption, 24h soacking (Extrusion Pressed Tubular) XPS)	-	0	-
1 (iii) (a) Table 1(Linear expression (swelling in water), Length (Flat Pressed Single Layer))	-	0	-
1 (iii) (a) Table 1(Linear expression (swelling in water), Length (Flat Pressed Three Layer grade 1))	-	0	-
1 (iii) (a) Table 1(Linear expression (swelling in water), Length (Flat Pressed Three Layer grade 2))	-	0	-
1 (iii) (a) Table 1(Linear expression (swelling in water), Length (Extrusion Pressed Solids) XPS)	-	0	-
1 (iii) (a) Table 1(Linear expression (swelling in water), Length (Extrusion Pressed Tubular) XPS)	-	0	-
1 (iii) (b) Table 1(Linear expression (swelling in water), Width (Flat Pressed Single Layer))	-	0	-
1 (iii) (b) Table 1(Linear expression (swelling in water), Width (Flat Pressed Three Layer grade 1))	-	0	-
1 (iii) (b) Table 1(Linear expression (swelling in water), Width (Flat Pressed Three Layer grade 2))	-	0	-
1 (iii) (b) Table 1(Linear expression (swelling in water), Width (Extrusion Pressed Solids) XPS)	-	0	-
1 (iii) (b) Table 1(Linear expression (swelling in water), Width (Extrusion Pressed Tubular) XPS)	-	0	-
1 (iv) Table 1(Thickness swelling, Width (Flat Pressed Single Layer))	-	0	-
1 (iv) Table 1(Thickness swelling, Width (Flat Pressed Three Layer grade 1))	-	0	-
1 (iv) Table 1(Thickness swelling, Width (Flat Pressed Three Layer grade 2))	-	0	-
1 (iv) Table 1(Thickness swelling, Width (Extrusion Pressed Solids) XPS)	-	0	-
1 (iv) Table 1(Thickness swelling, Width (Extrusion Pressed Tubular) XPS)	-	0	-
1 (v) Table 1(Swelling in thickness due to surface absorption, (Flat Pressed Single Layer))	-	0	-
1 (v) Table 1(Swelling in thickness due to surface absorption, (Flat Pressed Three Layer grade 1))	-	0	-
1 (v) Table 1(Swelling in thickness due to surface absorption, (Flat Pressed Three Layer grade 2))	-	0	-
1 (v) Table 1(Swelling in thickness due to surface absorption, (Extrusion Pressed Solids) XPS)	-	0	-
1 (v) Table 1(Swelling in thickness due to surface absorption, (Extrusion Pressed Tubular) XPS)	-	0	-
1 (vi) (a), Table 1(Modulus of rupture, Average (Flat Pressed Single Layer))	-	0	-
1 (vi) (a), Table 1(Modulus of rupture, Average (Flat Pressed Three Layer grade 1))	-	0	-
1 (vi) (a), Table 1(Modulus of rupture, Average (Flat Pressed Three Layer grade 2))	-	0	-
1 (vi) (a), Table 1(Modulus of rupture, Average (Extrusion Pressed Solids) XPS)	-	0	-
1 (vi) (a), Table 1(Modulus of rupture, Average (Extrusion Pressed Tubular) XPS)	-	0	-
1 (vi) (b), Table 1(Modulus of rupture, Minimum (Flat Pressed Single Layer))	-	0	-
1 (vi) (b), Table 1(Modulus of rupture, Minimum (Flat Pressed Three Layer grade 1))	-	0	-
1 (vi) (b), Table 1(Modulus of rupture, Minimum (Flat Pressed Three Layer grade 2))	-	0	-
1 (vi) (b), Table 1(Modulus of rupture, Minimum (Extrusion Pressed Solids) XPS)	-	0	-
1 (vi) (b), Table 1(Modulus of rupture, Minimum (Extrusion Pressed Tubular) XPT)	-	0	-
1 (vii) (a), Table 1(Modulus of elasticity, Average (Flat Pressed Single Layer))	-	0	-
1 (vii) (a), Table 1(Modulus of elasticity, Average (Flat Pressed Three Layer grade 1))	-	0	-
1 (vii) (a), Table 1(Modulus of elasticity, Average (Flat Pressed Three Layer grade 2))	-	0	-
1 (vii) (a), Table 1(Modulus of elasticity, Average (Extrusion Pressed Solids) XPS)	-	0	-
1 (vii) (a), Table 1(Modulus of elasticity, Average (Extrusion Pressed Tubular) XPT)	-	0	-
1 (vii) (b), Table 1(Modulus of elasticity, Minimum (Flat Pressed Single Layer))	-	0	-
1 (vii) (b), Table 1(Modulus of elasticity, Minimum (Flat Pressed Three Layer grade 1))	-	0	-
1 (vii) (b), Table 1(Modulus of elasticity, Minimum (Flat Pressed Three Layer grade 2))	-	0	-
1 (vii) (b), Table 1(Modulus of elasticity, Minimum (Extrusion Pressed Solids) XPS)	-	0	-
1 (vii) (b), Table 1(Modulus of elasticity, Minimum (Extrusion Pressed Tubular) XPT)	-	0	-
1 (viii) (a), Table 1(Tensile strenath perpendicullr to surface, Upto 20mm thickness (Flat Pressed Single Layer))	-	0	-
1 (viii) (a), Table 1(Tensile strenath perpendicullr to surface,Upto 20mm thickness (Flat Pressed Three Layer grade 1))	-	0	-
1 (viii) (a), Table 1(Tensile strenath perpendicullr to surface, Upto 20mm thickness (Flat Pressed Three Layer grade 2))	-	0	-
1 (viii) (a), Table 1(Tensile strenath perpendicullr to surface, Upto 20mm thickness (Extrusion Pressed Solids) XPS)	-	0	-
1 (viii) (a), Table 1(Tensile strenath perpendicullr to surface, Upto 20mm thickness (Extrusion Pressed Tubular) XPT)	-	0	-
1 (viii) (b), Table 1(Tensile strenath perpendicullr to surface, Above 20mm thickness (Flat Pressed Single Layer))	-	0	-
1 (viii) (b), Table 1(Tensile strenath perpendicullr to surface,Above 20mm thickness (Flat Pressed Three Layer grade 1))	-	0	-
1 (viii) (b), Table 1(Tensile strenath perpendicullr to surface, Above 20mm thickness (Flat Pressed Three Layer grade 2))	-	0	-
1 (viii) (b), Table 1(Tensile strenath perpendicullr to surface, Above 20mm thickness (Extrusion Pressed Solids) XPS)	-	0	-
1 (viii) (b), Table 1(Tensile strenath perpendicullr to surface, Above 20mm thickness (Extrusion Pressed Tubular) XPT)	-	0	-
1 (i) Table 1(Density Variation (Flat Pressed Single Layer))	-	0	-
1 (i) Table 1(Density Variation (Flat Pressed Three Layer grade 1))	-	0	-
1 (i) Table 1(Density Variation (Flat Pressed Three Layer grade 2))	-	0	-
1 (i) Table 1(Density Variation (Extrusion Pressed Solids) XPS)	-	0	-
1 (i) Table 1(Density Variation (Extrusion Pressed Tubular) XPS)	-	0	-
1 (ii) (a) Table 1(Water absorption, 2h soacking (Flat Pressed Single Layer))	-	0	-
1 (ii) (a) Table 1(Water absorption, 2h soacking (Flat Pressed Three Layer grade 1))	-	0	-
1 (ii) (a) Table 1(Water absorption, 2h soacking (Flat Pressed Three Layer grade 2))	-	0	-
1 (ii) (a) Table 1(Water absorption, 2h soacking (Extrusion Pressed Solids) XPS)	-	0	-
1 (ii) (a) Table 1(Water absorption, 2h soacking (Extrusion Pressed Tubular) XPS)	-	0	-
1 (ii) Table 1 (b)(Water absorption, 24h soacking (Flat Pressed Single Layer))	-	0	-
1 (ii) (b) Table 1 (Water absorption, 24h soacking (Flat Pressed Three Layer grade 1))	-	0	-
1 (ii) (b) Table 1 (Water absorption, 24h soacking (Flat Pressed Three Layer grade 2))	-	0	-
1 (ii) (b) Table 1 (Water absorption, 24h soacking (Extrusion Pressed Solids) XPS)	-	0	-
1 (ii) (b) Table 1 (Water absorption, 24h soacking (Extrusion Pressed Tubular) XPS)	-	0	-
1 (iii) (a) Table 1(Linear expression (swelling in water), Length (Flat Pressed Single Layer))	-	0	-
1 (iii) (a) Table 1(Linear expression (swelling in water), Length (Flat Pressed Three Layer grade 1))	-	0	-
1 (iii) (a) Table 1(Linear expression (swelling in water), Length (Flat Pressed Three Layer grade 2))	-	0	-
1 (iii) (a) Table 1(Linear expression (swelling in water), Length (Extrusion Pressed Solids) XPS)	-	0	-
1 (iii) (a) Table 1(Linear expression (swelling in water), Length (Extrusion Pressed Tubular) XPS)	-	0	-
1 (iii) (b) Table 1(Linear expression (swelling in water), Width (Flat Pressed Single Layer))	-	0	-
1 (iii) (b) Table 1(Linear expression (swelling in water), Width (Flat Pressed Three Layer grade 1))	-	0	-
1 (iii) (b) Table 1(Linear expression (swelling in water), Width (Flat Pressed Three Layer grade 2))	-	0	-
1 (iii) (b) Table 1(Linear expression (swelling in water), Width (Extrusion Pressed Solids) XPS)	-	0	-
1 (iii) (b) Table 1(Linear expression (swelling in water), Width (Extrusion Pressed Tubular) XPS)	-	0	-
1 (iv) Table 1(Thickness swelling, Width (Flat Pressed Single Layer))	-	0	-
1 (iv) Table 1(Thickness swelling, Width (Flat Pressed Three Layer grade 1))	-	0	-
1 (iv) Table 1(Thickness swelling, Width (Flat Pressed Three Layer grade 2))	-	0	-
1 (iv) Table 1(Thickness swelling, Width (Extrusion Pressed Solids) XPS)	-	0	-
1 (iv) Table 1(Thickness swelling, Width (Extrusion Pressed Tubular) XPS)	-	0	-
1 (v) Table 1(Swelling in thickness due to surface absorption, (Flat Pressed Single Layer))	-	0	-
1 (v) Table 1(Swelling in thickness due to surface absorption, (Flat Pressed Three Layer grade 1))	-	0	-
1 (v) Table 1(Swelling in thickness due to surface absorption, (Flat Pressed Three Layer grade 2))	-	0	-
1 (v) Table 1(Swelling in thickness due to surface absorption, (Extrusion Pressed Solids) XPS)	-	0	-
1 (v) Table 1(Swelling in thickness due to surface absorption, (Extrusion Pressed Tubular) XPS)	-	0	-
1 (vi) (a), Table 1(Modulus of rupture, Average (Flat Pressed Single Layer))	-	0	-
1 (vi) (a), Table 1(Modulus of rupture, Average (Flat Pressed Three Layer grade 1))	-	0	-
1 (vi) (a), Table 1(Modulus of rupture, Average (Flat Pressed Three Layer grade 2))	-	0	-
1 (vi) (a), Table 1(Modulus of rupture, Average (Extrusion Pressed Solids) XPS)	-	0	-
1 (vi) (a), Table 1(Modulus of rupture, Average (Extrusion Pressed Tubular) XPS)	-	0	-
1 (vi) (b), Table 1(Modulus of rupture, Minimum (Flat Pressed Single Layer))	-	0	-
1 (vi) (b), Table 1(Modulus of rupture, Minimum (Flat Pressed Three Layer grade 1))	-	0	-
1 (vi) (b), Table 1(Modulus of rupture, Minimum (Flat Pressed Three Layer grade 2))	-	0	-
1 (vi) (b), Table 1(Modulus of rupture, Minimum (Extrusion Pressed Solids) XPS)	-	0	-
1 (vi) (b), Table 1(Modulus of rupture, Minimum (Extrusion Pressed Tubular) XPT)	-	0	-
1 (vii) (a), Table 1(Modulus of elasticity, Average (Flat Pressed Single Layer))	-	0	-
1 (vii) (a), Table 1(Modulus of elasticity, Average (Flat Pressed Three Layer grade 1))	-	0	-
1 (vii) (a), Table 1(Modulus of elasticity, Average (Flat Pressed Three Layer grade 2))	-	0	-
1 (vii) (a), Table 1(Modulus of elasticity, Average (Extrusion Pressed Solids) XPS)	-	0	-
1 (vii) (a), Table 1(Modulus of elasticity, Average (Extrusion Pressed Tubular) XPT)	-	0	-
1 (vii) (b), Table 1(Modulus of elasticity, Minimum (Flat Pressed Single Layer))	-	0	-
1 (vii) (b), Table 1(Modulus of elasticity, Minimum (Flat Pressed Three Layer grade 1))	-	0	-
1 (vii) (b), Table 1(Modulus of elasticity, Minimum (Flat Pressed Three Layer grade 2))	-	0	-
1 (vii) (b), Table 1(Modulus of elasticity, Minimum (Extrusion Pressed Solids) XPS)	-	0	-
1 (vii) (b), Table 1(Modulus of elasticity, Minimum (Extrusion Pressed Tubular) XPT)	-	0	-
1 (viii) (a), Table 1(Tensile strenath perpendicullr to surface, Upto 20mm thickness (Flat Pressed Single Layer))	-	0	-
1 (viii) (a), Table 1(Tensile strenath perpendicullr to surface,Upto 20mm thickness (Flat Pressed Three Layer grade 1))	-	0	-
1 (viii) (a), Table 1(Tensile strenath perpendicullr to surface, Upto 20mm thickness (Flat Pressed Three Layer grade 2))	-	0	-
1 (viii) (a), Table 1(Tensile strenath perpendicullr to surface, Upto 20mm thickness (Extrusion Pressed Solids) XPS)	-	0	-
1 (viii) (a), Table 1(Tensile strenath perpendicullr to surface, Upto 20mm thickness (Extrusion Pressed Tubular) XPT)	-	0	-
1 (viii) (b), Table 1(Tensile strenath perpendicullr to surface, Above 20mm thickness (Flat Pressed Single Layer))	-	0	-
1 (viii) (b), Table 1(Tensile strenath perpendicullr to surface,Above 20mm thickness (Flat Pressed Three Layer grade 1))	-	0	-
1 (viii) (b), Table 1(Tensile strenath perpendicullr to surface, Above 20mm thickness (Flat Pressed Three Layer grade 2))	-	0	-
1 (viii) (b), Table 1(Tensile strenath perpendicullr to surface, Above 20mm thickness (Extrusion Pressed Solids) XPS)	-	0	-
1 (viii) (b), Table 1(Tensile strenath perpendicullr to surface, Above 20mm thickness (Extrusion Pressed Tubular) XPT)	-	0	-
7(Finish)	-	0	-
8.3(Dimensional Tolerances)	-	0	-
9.2, 11.4(Moisture content)	-	0	-
11.10(screw withdrawal strength)	-	0	-
Cl-9.6(Workability)	-	0	-
Cl-9.7 (Amendment No-5)(Formaldehyde Content/Emission, Fc)	-	0	-
Cl-9.7.2 (Amendment No-5)(Steady State Formaldehyde Emission Value)	-	0	-
Cl-12 (Amendment No 1)(ADDITIONAL REQUIREMENTS FOR ECO MARK)	-	0	-

26 Jul, 2027

-
Included w.e.f.19.05.2025

1066

Bharat Test House Pvt. Ltd.

IS 12406 (2021)

Medium density fibre boards for general purpose - Specification

Medium density fibre boards for general purpose

12000 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
Clauses 5.2, 9 and 10.2.2(Density)	-	500	-
Clauses 5.2, 9 and 10.2.2(Density)	-	500	-
Clauses 5.2, 9 and 10.2.2(Variation from mean density)	-	500	-
Clauses 5.2, 9 and 10.2.2(Moisture Content)	-	500	-
Clauses 5.2, 9 and 10.2.2(Variation from mean moisture content)	-	500	-
Clauses 5.2, 9 and 10.2.2(Linear expansion (Thickness Swelling in Water) Due to general Absorption after 24h soaking)	-	500	-
Clauses 5.2, 9 and 10.2.2(Internal Bond Strength)	-	500	-
Clauses 5.2, 9 and 10.2.2(Internal Bond strength (i) (After Cyclic test) (ii) (After accelerated water resistance test))	-	500	-
Clauses 5.2, 9 and 10.2.2(Modulus of Rupture a) Avg. Value b) Min. Individual)	-	500	-
Clauses 5.2, 9 and 10.2.2(Modulus of Elasticity a) Avg. Value b) Min. Individual)	-	500	-
Clauses 5.2, 9 and 10.2.2(Screw withdrawl strength (i) Face (ii) Edge (For thickness >12mm))	-	500	-
Clauses 5.2, 9 and 10.2.2(Formaldehyde Content (i) For Formaldehyde Class, E1 (ii) For Formaldehyde Class, E2)	-	1000	-
Clauses 5.2, 9 and 10.2.2(Steady State Formaldehyde emission (Fc (i) For Formaldehyde Class, E1 (ii) For Formaldehyde Class, E2)	-	500	-
8(DIMENSIONS AND TOLERANCES)	-	500	-
Cl-11(ADDITIONAL REQUIREMENTS FOR ECO-MARK)	-	1000	-
Cl 7(Finish)	-	300	-
Clauses 5.2, 9 and 10.2.2(Density)	-	0	-
Clauses 5.2, 9 and 10.2.2(Density)	-	0	-
Clauses 5.2, 9 and 10.2.2(Variation from mean density)	-	0	-
Clauses 5.2, 9 and 10.2.2(Moisture Content)	-	0	-
Clauses 5.2, 9 and 10.2.2(Variation from mean moisture content)	-	0	-
Clauses 5.2, 9 and 10.2.2(Linear expansion (Thickness Swelling in Water) Due to general Absorption after 24h soaking)	-	0	-
Clauses 5.2, 9 and 10.2.2(Internal Bond Strength)	-	0	-
Clauses 5.2, 9 and 10.2.2(Internal Bond strength (i) (After Cyclic test) (ii) (After accelerated water resistance test))	-	0	-
Clauses 5.2, 9 and 10.2.2(Modulus of Rupture a) Avg. Value b) Min. Individual)	-	0	-
Clauses 5.2, 9 and 10.2.2(Modulus of Elasticity a) Avg. Value b) Min. Individual)	-	0	-
Clauses 5.2, 9 and 10.2.2(Screw withdrawl strength (i) Face (ii) Edge (For thickness >12mm))	-	0	-
Clauses 5.2, 9 and 10.2.2(Formaldehyde Content (i) For Formaldehyde Class, E1 (ii) For Formaldehyde Class, E2)	-	0	-
Clauses 5.2, 9 and 10.2.2(Steady State Formaldehyde emission (Fc (i) For Formaldehyde Class, E1 (ii) For Formaldehyde Class, E2)	-	0	-
8(DIMENSIONS AND TOLERANCES)	-	0	-
Cl-11(ADDITIONAL REQUIREMENTS FOR ECO-MARK)	-	0	-
Cl 7(Finish)	-	0	-

26 Jul, 2027

-
Included w.e.f. 19.05.2025

1067

Conformity Testing Labs Pvt. Ltd. Unit 2

IS 13450 : Part 2 : Sec 50 (2022)

Medical electrical equipment Part 2 Particular requirements for the Basic Safety and essential performance Section 50 Infant Phototherapy Equipment

900000 View breakup
-

Clause No.	Exclusion	Remark
201.4(General requirements)	-	-
201.5(General requirements for testing ME EQUIPMENT)	-	-
201.6(Classification of ME EQUIPMENT and ME SYSTEMS)	-	-
201.7(ME EQUIPMENT identification, marking and document)	-	-
201.8(Protection against electrical HAZARDS from ME EQUIPMENT)	-	-
201.9(Protection against MECHANICAL HAZARDS of ME EQUIPMENT and ME SYSTEMS)	-	-
201.1(Protection against unwanted and excessive radiation HAZARDS)	-	-
201.11(Protection against excessive temperatures and other HAZARDS)	-	-
201.12(Accuracy of controls and instruments and protection against hazardous outputs)	-	-
201.13(HAZARDOUS SITUATIONS and fault conditions for ME EQUIPMENT)	-	-
201.14(PROGRAMMABLE ELECTRICAL MEDICAL SYSTEMS (PEMS))	-	-
201.15(Construction of ME EQUIPMENT)	-	-
201.16(ME SYSTEMS)	-	-
201.17(Electromagnetic compatibility of ME EQUIPMENT and ME SYSTEMS)	-	-
202(Electromagnetic disturbances – Requirements and tests)	-	-

05 Apr, 2027

-
Included w.e.f 25.03.2025 Exclusion: Cl 201.17 (Electromagnetic compatibility of ME EQUIPMENT and ME SYSTEMS)(Radiated emission, Conducted & Radiated susceptibility), Cl 202 (Electromagnetic disturbances – Requirements and tests)(Radiated emission, Conducted & Radiated susceptibility)

1068

Bharat Test House Pvt. Ltd.

IS 16171 (2014)

Veneer laminated lumber - Specification

Veneer Laminated Lumber

15000 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
4.1(Timber)	-	1000	-
4.2(Veneers)	-	1000	-
4.3(Adhesive)	-	1000	-
4.4(Preservatives)	-	1000	-
5(Manufacture)	-	0	-
6(Dimensions)	-	1000	-
7(Finish)	-	1000	-
8(SAMPLING AND CRITERIA FOR CONFORMITY)	-	0	-
9.1(Moisture Content)	-	1000	-
9.2(Density)	-	1000	-
9.3(Resistance to Water)	-	1000	-
9.3.1(Adhesion of Plies)	-	1000	-
9.4(Modulus of Elasticity)	-	1000	-
9.5(Hardness Under Static Indentation)	-	1500	-
9.6(Screw Withdrawal Strength)	-	1500	-
11(Marking)	-	500	-
4.1(Timber)	-	0	-
4.2(Veneers)	-	0	-
4.3(Adhesive)	-	0	-
4.4(Preservatives)	-	0	-
5(Manufacture)	-	0	-
6(Dimensions)	-	0	-
7(Finish)	-	0	-
8(SAMPLING AND CRITERIA FOR CONFORMITY)	-	0	-
9.1(Moisture Content)	-	0	-
9.2(Density)	-	0	-
9.3(Resistance to Water)	-	0	-
9.3.1(Adhesion of Plies)	-	0	-
9.4(Modulus of Elasticity)	-	0	-
9.5(Hardness Under Static Indentation)	-	0	-
9.6(Screw Withdrawal Strength)	-	0	-
11(Marking)	-	0	-

26 Jul, 2027

-
Included w.e.f.19.05.2025

1069

PAAM Testing Labs Private Limited

IS 4984 (2016)

Polyethylene pipes for water supply - Specification (Fifth Revision)

PE 100, PE80, PE63

35000 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
8.10(Slow Crack Growth Rate)	-	1000	-
8.9 table-6(Elongation at Break)	-	1000	-
8.8(Tensile Strength for Butt-fusion)	-	1000	-
8.7(Density)	-	1000	-
8.5 (Oxidation Induction Time)	-	1000	-
8.4( Melt Flow Rate)	-	1000	-
8.2(Longitudinal Reversion Test)	-	1000	-
8.1.2 table -5(Internal Pressure Creep Rupture Test of Pipe Joints)	-	1000	-
8,/8.1/8.1.1 table-5(PERFORMANCE REQUIREMENTS / Hydraulic Characteristics/ Internal Pressure Creep Rupture Test of Pipe)	-	1000	-
7.4.1.2(Ovality)	-	1000	-
7.4 table -3 & 4(6.1 Dimensions)	-	1000	-
7.2(Length)	-	1000	-
6.2.1(6.1.1 Identification Stripes)	-	1000	-
6.2(Colour)	-	1000	-
6.1.4(PIPE DESCRIPTION)	-	1000	-
6.1.3 (PIPE DESCRIPTION)	-	1000	-
6, 6.1.2(PIPE DESCRIPTION)	-	1000	-
6, 6.1.1(PIPE DESCRIPTION)	-	1000	-
6, 6.1(PIPE DESCRIPTION)	-	1000	-
8.6(Overall migration)	-	1000	-
8.3(Carbon black)	-	1000	-
5.4(Anti oxydent)	-	1000	-
5.3(e)(Carbon Black Master Batch)	-	1000	-
5.3(d)(Carbon Black Master Batch)	-	1000	-
5.3(c)(Carbon Black Master Batch)	-	1000	-
5.3(b)(Carbon Black Master Batch)	-	1000	-
5.3 (a)(Carbon Black Master Batch)	-	1000	-
5.2(Polyethylene Resin)	-	1000	-
5, 5.1 table-1(MATERIALS)	-	1000	-
7()	-	1000	-
5.2(Density)	-	1000	-
5.2(MFI @ 1900C/5.0 Kg)	-	1000	-
5.2(Volatile matter Content)	-	1000	-
5.3(Toluene Extract)	-	1000	-
Clause 7.1(Visual Apperance)	-	1000	-
Clause 7.3(Coiling)	-	1000	-
Clause 8.3(Carbon Black content)	-	1000	-
Clause 8.3(Carbon Black Dispersion)	-	1000	-
Clause 8.6(Overall migration (stimulate))	-	1000	-
Clause 8.6(Overall migration (surface of material))	-	1000	-
7.1(Visual Appearance)	-	1000	-
7.3(Coiling)	-	1000	-
Table-2 (iii, iv)(Thermal Stability (Oxidation Induction Time), Volatile Matter)	-	1000	-
Cl. 8.3(Carbon Black Content)	-	1000	-
Cl. 8.3(Carbon Black Dispersion)	-	1000	-
5.2,T2(Melt Flow rate(Temperature - 190oC,Mass 5kg)-IS 2530-1963)	-	1000	-
8.7(Density-IS 7328:2020)	-	1000	-
8.7(Corrected Density- IS 7328:2020)	-	1000	-
8.9,T6("Tensile - IS 4984-2016 (Annexure-H)")	-	1000	-
8.9,T6("Elongation -IS 4984-2016 (Annexure-H)")	-	1000	-
Cl 8.3(Carbon Black Content)	-	1000	-
Cl 8.3(Carbon Black Dispersion)	-	1000	-

08 May, 2028

-
-

1070

Ace Test Labs & Metrology Pvt. Ltd.

IS 17550 : Part 1 (2024)

Household Refrigerating Appliances - Characteristics and Test Methods Part 1 General Requirements (First Revision)

220000 View breakup
-

Clause No.	Exclusion	Remark
5(MARKING)	-	-
8(MATERIALS, DESIGN, AND MANUFACTURE)	-	-
9(Testing The Air Tightness Of Door Or Lid Seal(S))	-	-
10(Testing The Opening Force Of Door(S) Or Lid(S))	-	-
11(Testing The Durability Of Hinges And Handles Of Door(S) And Lid(S)	-	-
12(Testing The Mechanical Strength Of Shelves And Similar Components)	-	-
14(Ice-Making Test (If Applicable))	-	-
15(Test For Absence Of Odour And Taste)	-	-
16(Safety Requirements)	-	-

14 Nov, 2027

-
Included w.e.f 27.03.2025

1071

Bharat Test House Pvt. Ltd.

IS 14616 (1999)

Laminated veneer lumber specification

Laminated veneer lumber

17000 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
6.1(Dimensions)	-	500	-
6.2(Dimensions)	-	500	-
7(workmanship and finish)	-	200	-
8.2.1(moisture content)	-	500	-
8.2.2(adhesion of plies)	-	500	-
8.2.3, 8.2.4, Table-1(modulus of rupture)	-	1200	-
8.2.3, 8.2.4, Table-1(modulus of elasticity)	-	1200	-
8.2.3, 8.2.4, Table-1(compressive strength parallel to grain)	-	1200	-
8.2.3, 8.2.4, Table-1(horizontal shear a)-parallel to grain ,b)-perpendicular to grain)	-	1200	-
8.2.3, 8.2.4, Table-1(tensile strength parallel to grain )	-	1200	-
8.2.3, 8.2.4, Table-1(screw holding power a)-parallel to grain ,b)-perpendicular to grain)	-	1200	-
8.2.3, 8.2.4, Table-1(thickness swelling in 2 hrs. water soaking)	-	1200	-
8.2.4(swelling in wear)	-	1000	-
Clause 8.2.1(Moisture content)	-	500	-

26 Jul, 2027

-
Included w.e.f.19.05.2025

1072

Bharat Test House Pvt. Ltd.

IS 10701 (2012)

Structural plywood - Specification (First Revision)

Specification for Structural Plywood

25000 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
11.3(Glue Shear strength in dry state)	-	1000	-
11.4.1(Resistance to Water)	-	1000	-
11.4.2(Resistance to Water)	-	0	-
11.5(Resistance to Micro-organisms)	-	3500	-
11.6(Tensile Strength)	-	1500	-
11.7.1(Compressive Strength, Bending Strength, Panel Shear Strength, Plate Shear Strength and Rolling Shear Strngth)	-	1500	-
11.8(Wet Bending Strength)	-	2000	-
Clause 11.2(Moisture content)	-	500	-
Cl-8(Dimension and tolerances)	-	500	-
Cl-9(Workmanship and finish)	-	500	-
Cl-7.1(Veneers)	-	2500	-
Cl-7.2(Construction)	-	500	-
Cl-11.9(Retention of preservatives)	-	5000	-
Cl-4(Material)	-	500	-
Cl-5(Plywood)	-	2500	-
Clause. 7.3(Consruction Inclination)	-	2000	-
Clause. 7.4(Moisture content)	-	500	-

26 Jul, 2027

-
Included w.e.f.19.05.2025

1073

Ace Test Labs & Metrology Pvt. Ltd.

IS 10617 (2018)

Hermetic compressors - Specification (Second Revision)

950000 View breakup
For all type of compressor cooling capacity- Upto 0.75 kW- Rs. 9,50,000/- from 0.75 kW to 2.5 kW - Rs. 11,50,000/- from 2.5 kW to 5 kW - Rs. 13,50,000/- from 5 kW to 10.5 kW - Rs. 15,50,000/- from 10.5 kW to 17.5 kW - Rs. 18,50,000/- from 17.5 kW to 24.5 kW - Rs. 21,50,000/- from 24.5 kW to 31.5 kW - Rs. 25,50,000/- from 31.5 kW to 38.5 kW - Rs. 30,50,000/- from 38.5 kW to 45 kW - Rs. 35,50,000/-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
6.1.1 & 5.1 -Table 2, 3, 4,5(Compressor Performance Test & Compressor Capacity Rating Test)	-	350000	For all type of compressor cooling capacity from 17.5 kW to 24.5 kW - Rs. 21,50,000/- 24.5 kW to 31.5 kW - Rs. 25,50,000/- 31.5 kW to 38.5 kW - Rs. 30,50,000/- 38.5 kW to 45 kW - Rs. 35,50,000/
Cl. 4 of IS:10617:2018(10617)	-	5000	-
Cl. 5,5.1 of IS:10617:2018(10617)	-	350000	-
Cl.6.1.1 of IS:10617:2018(10617)	-	350000	-
Cl. 6.1.2, 6.1.2.1 of IS:10617:2018(10617)	-	100000	-
Cl. 6.1.2.2 of IS:10617:2018(10617)	-	10000	-
Cl. 6.1.3 of IS:10617(10617)	-	190000	-
Cl. 6.1.4 of IS:10617:2018(10617)	-	30000	-
Cl. 6.1.5 of IS:10617:2018(10617)	-	30000	-
Cl. 6.1.6 of IS:10617:2018(10617)	-	45000	-
Cl. 6.1.7 of IS:10617:2018(10617)	-	50000	-
Cl. 7, 7.1 of IS:10617:2018(10617)	-	150000	-
Cl. 8, 8.1, 8.2, 8.3, 8.4, 8.5 of IS:10617:2018(10617)	-	280000	-
Cl. 9 of IS:10617-2018(10617)	-	30000	-
Cl. 10 of IS:10617-2018(10617)	-	15000	-
Cl. 11, 11.1, 11.2, 11.2.1 of IS:10617-2018(10617)	-	10000	-
6.1.2(Startability Test)	-	100000	-
8(Locked Rotor Test)	-	280000	-
6.1.4 & 6.3 (a)(High Voltage Test)	-	30000	-
6.3 (c )(Pneumatic test of shell)	-	30000	-
6.1.7(Bursting Test)	-	50000	-
Cl. 6.2 of IS:10617:2018(10617)	-	35000	-
6.3(b)(Insulation resistance test)	-	20000	-
7(Running Overload test)	-	150000	-
9(Resistance to rusting ANNEX B)	-	30000	-
11(Marking)	-	2000	-
Cl. 6.1.2.3 of IS:10617:2018(10617)	-	100000	-
Cl. 6.1.2.4 of IS:10617:2018(10617)	-	100000	-

14 Nov, 2027

-
-

1074

Bharat Test House Pvt. Ltd.

IS 5509 (2021)

Fire Retardant Plywood - Specification ( Third Revision )

Fire Retardant Plywood

12000 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
8.3 (Table 1)(b) 6 mm and above)	-	0	-
4.1(Flame retardant chemicals)	-	0	-
4.2(Flame retardant and preservative treatment)	-	0	-
4.3(Treatment)	-	0	-
5(PREPARATION FOR TREATMENT)	-	0	-
6.1.1(Treatment of Plywood by Pressure Impregnation after Manufacture)	-	0	-
6.1.2(Soaking Treatment)	-	0	-
6.2(Choice of Treatment)	-	0	-
7(CONDITIONING AFTER TREATMENT)	-	0	-
8.1(Dimensions)	-	500	-
8.2(Thickness)	-	0	-
8.3, Taable-1 (i)(Tolerance- Length)	-	500	-
9(WORKMANSHIP AND FINISH)	-	500	-
10(SAMPLING AND CRITERIA FOR CONFORMITY)	-	100	-
11 (a)(For flammability)	-	600	-
11 (b)(For flame penetration)	-	600	-
11 (c)(For rate of burning)	-	600	-
12.1 Table - 2 (i)(Moisture content, percent, Max)	-	1800	-
12.1 Table - 2 (ii)(Flammability (see Note 1), minutes, Min)	-	2500	-
12.1 Table - 2 (iii)(Flame penetration (see Note 2), minutes, Min)	-	3000	-
12.1 Table - 2 (iv)(Rate of burning (see Note 3), minutes, Min)	-	3000	-
12.2(Other Tests)	-	0	-
14(Marking)	-	200	-
Cl-13(ADDITIONAL REQUIREMENTS FOR ECO-MARK)	-	0	-
8.3 (Table 1)(b) 6 mm and above)	-	0	-
4.1(Flame retardant chemicals)	-	0	-
4.2(Flame retardant and preservative treatment)	-	0	-
4.3(Treatment)	-	0	-
5(PREPARATION FOR TREATMENT)	-	0	-
6.1.1(Treatment of Plywood by Pressure Impregnation after Manufacture)	-	0	-
6.1.2(Soaking Treatment)	-	0	-
6.2(Choice of Treatment)	-	0	-
7(CONDITIONING AFTER TREATMENT)	-	0	-
8.1(Dimensions)	-	0	-
8.2(Thickness)	-	0	-
8.3, Taable-1 (i)(Tolerance- Length)	-	0	-
9(WORKMANSHIP AND FINISH)	-	0	-
10(SAMPLING AND CRITERIA FOR CONFORMITY)	-	0	-
11 (a)(For flammability)	-	0	-
11 (b)(For flame penetration)	-	0	-
11 (c)(For rate of burning)	-	0	-
12.1 Table - 2 (i)(Moisture content, percent, Max)	-	0	-
12.1 Table - 2 (ii)(Flammability (see Note 1), minutes, Min)	-	0	-
12.1 Table - 2 (iii)(Flame penetration (see Note 2), minutes, Min)	-	0	-
12.1 Table - 2 (iv)(Rate of burning (see Note 3), minutes, Min)	-	0	-
12.2(Other Tests)	-	0	-
14(Marking)	-	0	-
Cl-13(ADDITIONAL REQUIREMENTS FOR ECO-MARK)	-	0	-

26 Jul, 2027

-
Included w.e.f.19.05.2025

1075

Cotecna Inspection India Private Limited

IS 6721 (2023)

SANDAL AND SLIPPERS SPECIFICATION First revision

40000 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
Cl. No.8.1, Table no. 1(i),a("Tear strength, (other than moulded upper material) ")	-	450	-
Cl. No.8.1, Table no. 1(i),b("For all moulded upper material ")	-	450	-
Cl. No.8.1, Table no. 1(ii)(Flexing endurance)	-	1080	-
Cl. No.8.2,Table no. 2(i)(Tear strength)	-	450	-
Cl. No.8.2,Table no. 2(ii),a("Abrasion resistance- At dry condition")	-	1350	-
Cl. No.8.2,Table no. 2(ii),b("Abrasion resistance- At wet condition")	-	1350	-
Cl. No.8.3,Table no. 3(i)(Tear strength)	-	450	-
Cl. No.8.3,Table no. 3(ii),a("Abrasion resistance- At dry condition")	-	1350	-
Cl. No.8.4,Table no. 4(ii)(Density)	-	300	-
Cl. No.8.4,Table no. 5(i)(Density)	-	300	-
Cl. No.8.4,Table no. 5(ii)("Abrasion resistance, Volume loss ")	-	1080	-
Cl. No.8.5, Table no. 6(i)("Bond strength, N/mm, Min (Applicable when fore part is fully covered or strap width is more than 25 mm)")	-	1080	-
Cl. No.8.5, Table no. 6(ii)("Toe post attachment strength, N, Min (Applicable if toe post is present)")	-	800	-
Cl. No.8.5, Table no. 6(iii)("Toe ring attachment strength, Min (Applicable if toe ring is not integral part of upper")	-	800	-
Cl. No.8.5, Table no. 6(iv)(Strap to outsole strength)	-	800	-
Cl. No.8.5, Table no. 6(v)("Attachment strength of back strap and Buckle/D-ring ")	-	800	-
Cl. No.8.5, Table no. 6(vi)("Attachment strength of elastic, limit of useful extension, percent")	-	1000	-
Cl. No.8.5, Table no. 6(vii)("Attachment strength of back strap and velcro, N, Min (If, present)")	-	800	-
Cl. No.8.5, Table no. 6(viii)("Hydrolysis resistance, Cut growth after 150 000 flexes, mm, Max (Applicable for PU sole only)")	-	2700	-
Cl. No.8.5, Table no. 6(ix)("Heel pull off strength, N, Min (Applicable for heel height 40 mm and above attached separately to the sandal/slipper)")	-	800	-
Cl. No.8.5, Table no. 6(x)("Inter layer bond strength, N/mm, (Applicable for multi-layer sole)")	-	1080	-
Cl. No.8.5, Table no. 6(xi)("Slip Resistance, Coefficient of Friction (COF) (Not applicable for leather sole) (To be carried out on quarry tiles)")	-	1500	-
Cl. No.8.6.1,Table 1 of IS 17011(i)(Allergenic and carcinogenic disperse dyes)	-	4460	-
Cl. No.8.6.1,Table 1 of IS 17011(ii)(Aromatic amines released from Azo dyes (each individual amine))	-	2610	-
Cl. No.8.6.1,Table 1 of IS 17011(iii)(Aromatic amines released from Azo dyes (each individual amine))	-	2610	-
Cl. No.8.6.1,Table 1 of IS 17011(iv)(Chromium (VI))	-	1490	-
Cl. No.8.6.1,Table 1 of IS 17011(v)(Dimethyl fumarate (DMFU))	-	4950	-
Cl. No.8.6.1,Table 1 of IS 17011(vi)(Formaldehyde (free or released by partial hydrolysis))	-	4300	-
Cl. No.8.6.1,Table 1 of IS 17011(vii)(Formaldehyde)	-	4300	-
Cl. No.8.6.1,Table 1 of IS 17011(viii)(Organotin compounds)	-	6930	-
Cl. No.8.6.1,Table 1 of IS 17011(ix)(PCP-TeCP-TriCP polychlorophenols)	-	3470	-
Cl. No.8.6.1,Table 1 of IS 17011(x)(pH)	-	300	-
Cl. No.8.6.1,Table 1 of IS 17011(xi)(Phthalates (each individual phthalate))	-	3960	-
Cl. No.8.6.1,Table 1 of IS 17011(xii)(Nickel, on skin contact 2-(thiocyanomethylthio) -benzothiazole (TCMTB))	-	3470	-
Cl. No.8.6.2(Lead content)	-	900	-
Cl. No.8.4,Table no. 4(i)(Grain crack index)	-	500	-
Cl. No.8.4,Table no. 4(iii)(Abrasion resistance)	-	700	-
Cl. No.8.4, Table no. 5(iii)("Flexing resistance, At 30 000 flexes")	-	1080	-
Cl.8 Table-1 S.No 1, (i) (Amendment No-1)(Bond strength , N/mm, Min)	-	1080	-
Cl.8 Table-1 S.No 1, (ii) (Amendment No-1)(Toe post attachment strength)	-	800	-
Cl.8 Table-1 S.No 1, (iii) (Amendment No-1)(Toe ring attachment strength)	-	800	-
Cl.8 Table-1 S.No 1, (iv) (Amendment No-1)(Strap to outsole strength N, Min)	-	800	-
Cl.8 Table-1 S.No 1, (v) (Amendment No-1)(Attachment strength of back strap and buckle/D-ring N, Min)	-	800	-
Cl.8 Table-1 S.No 1, (vi) (Amendment No-1)(Limit of useful extension, percent, Min)	-	1000	-
Cl.8 Table-1 S.No 1, (vii) (Amendment No-1)(Attachment strength of back strap and velcro, N, Mi)	-	800	-
Cl.8 Table-1 S.No 1, (viii) (Amendment No-1)(Hydrolysis resistance)	-	2700	-
Cl.8 Table-1 S.No 1, (ix) (Amendment No-1)(Heel pull off strength)	-	800	-
Cl.8 Table-1 S.No 1, (x) (Amendment No-1)(Inter layer bond strength)	-	1080	-
Cl.8 Table-1 S.No 1, (xi) (Amendment No-1)(Slip resistance, coefficient of friction (COF)3)	-	2000	-
Cl. No.4(SHAPE AND DESIGN)	-	400	-
Cl. No.5("SIZE AND FITTINGS ")	-	400	-
Cl. No.6("CONSTRUCTION ")	-	400	-
Cl. No.7(MATERIAL)	-	400	-

28 Oct, 2026

-
-

1076

Bharat Test House Pvt. Ltd.

IS 1503 (2023)

Wooden Packing Cases - Specification (Fourth Revision)

Wooden Packing Cases

8500 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
Cl-4.1(Timber)	-	1000	-
Cl-4.2.1(Laminated veneer lumber)	-	2000	-
Cl-4.2.1(Veneer laminated lumber)	-	0	-
Cl-4.3(Nails)	-	2000	-
Cl-5.1, Table-1 (i)(Thickness of bottom, top and side boards)	-	1000	-
Cl-5.1, Table-1 (ii)(Thickness of end boards)	-	0	-
Cl-5.1, Table-1 (iii)(Thickness of battens)	-	0	-
Cl-5.1, Table-1 (iv)(Width of battens)	-	0	-
Cl-5.2(Styles)	-	1000	-
Cl-5.3(Sizes)	-	1000	-
Cl-7(MANUFACTURE)	-	500	-
Cl-8(WORKMANSHIP AND FINISH)	-	500	-
Cl-9(PRESERVATIVE TREATMENT)	-	1000	-
Cl-12(ADDITIONAL REQUIREMENTS FOR ECO-MARK)	-	1000	-
Cl-13(Marking)	-	500	-

26 Jul, 2027

-
Included w.e.f.19.05.2025

1077

URS PRODUCTS AND TESTING PVT LTD

IS 16893 : Part 3 (2018)

Secondary Lithium - lon Cells For the Propulsion of Electric Road Vehicles Part 3 Safety Requirements

180000 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
5.1(General Charge Conditions)	-	10000	-
5.2(Capacity)	-	10000	-
5.3(SOC Adjustment)	-	10000	-
6.2.1(Vibration)	-	10000	-
6.2.2(Mechanical Shock)	-	10000	-
6.2.3(Crush)	-	10000	-
6.3.1(High Temperature Endurance)	-	10000	-
6.3.2(Temperature Cycling)	-	10000	-
6.4.1(External Short Circuit)	-	10000	-
6.4.2(Overcharge)	-	10000	-
6.4.3(Forced Discharge)	-	10000	-
6.4.4(Internal short circuit test)	-	10000	-
6.4.3(Forced Discharge)	-	10000	-

31 Dec, 2026

-
Included w.e.f.25.03.2025

1078

Bharat Test House Pvt. Ltd.

IS 1328 (1996)

Veneered Decorative Plywood -Specification

Veneered Decorative Plywood

6500 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
4.1(Grade - For BWR)	-	300	-
4.1(Grade - For MR)	-	100	-
4.2(Type - For Type 1)	-	100	-
4.2(Type - For Type 2)	-	100	-
7.1.1(Requirements - Open splits, checks or open joints - For Type 1 - Cl. 7.1.1)	-	500	-
7.2.1(Requirements - Open splits, checks or open joints - For Type 2 - Cl. 7.2.1)	-	500	-
7.1.2(Requirements - Other defects - For Type 1 - Cl. 7.1.2)	-	100	-
7.2.2(Requirements - Other defects - For Type 2 - Cl. 7.2.2.)	-	100	-
7.1.3(Requirements - Other Charcteristics and Manufacturing Defects - For Type 1 - Cl. 7.1.3)	-	100	-
7.2.3(Requirements - Other Charcteristics and Manufacturing Defects - For Type 2 - Cl. 7.2.3)	-	100	-
8(Dimensions & Tolerances - Length - Cl. 8)	-	500	-
8(Dimensions & Tolerances - Width - Cl. 8)	-	200	-
8(Dimensions & Tolerances - Thickness - Cl. 8)	-	500	-
8(Dimensions & Tolerances - Edge Straightness - Annexure C)	-	500	-
8(Dimensions & Tolerances - Squareness - Annexure C)	-	500	-
9(Finish - Cl. 9.1, 8.3)	-	500	-
9(Finish - Cl. 9.2, 8.3)	-	100	-
11(Tests - Moisture Content - Part 1 of IS 1734)	-	1000	-
11(Tests - Water Resistance Test - Cl. 11.1.2.1 [for MR Grade])	-	1500	-
11(Tests - Water Resistance Test - Cl. 11.1.2.2 [for BWR Grade])	-	1500	-
6.1(Decorative Veneers (Thickness))	-	500	-
4.1(Grade - For BWR)	-	0	-
4.1(Grade - For MR)	-	0	-
4.2(Type - For Type 1)	-	0	-
4.2(Type - For Type 2)	-	0	-
7.1.1(Requirements - Open splits, checks or open joints - For Type 1 - Cl. 7.1.1)	-	0	-
7.2.1(Requirements - Open splits, checks or open joints - For Type 2 - Cl. 7.2.1)	-	0	-
7.1.2(Requirements - Other defects - For Type 1 - Cl. 7.1.2)	-	0	-
7.2.2(Requirements - Other defects - For Type 2 - Cl. 7.2.2.)	-	0	-
7.1.3(Requirements - Other Charcteristics and Manufacturing Defects - For Type 1 - Cl. 7.1.3)	-	0	-
7.2.3(Requirements - Other Charcteristics and Manufacturing Defects - For Type 2 - Cl. 7.2.3)	-	0	-
8(Dimensions & Tolerances - Length - Cl. 8)	-	0	-
8(Dimensions & Tolerances - Width - Cl. 8)	-	0	-
8(Dimensions & Tolerances - Thickness - Cl. 8)	-	0	-
8(Dimensions & Tolerances - Edge Straightness - Annexure C)	-	0	-
8(Dimensions & Tolerances - Squareness - Annexure C)	-	0	-
9(Finish - Cl. 9.1, 8.3)	-	0	-
9(Finish - Cl. 9.2, 8.3)	-	0	-
11(Tests - Moisture Content - Part 1 of IS 1734)	-	0	-
11(Tests - Water Resistance Test - Cl. 11.1.2.1 [for MR Grade])	-	0	-
11(Tests - Water Resistance Test - Cl. 11.1.2.2 [for BWR Grade])	-	0	-
6.1(Decorative Veneers (Thickness))	-	0	-

26 Jul, 2027

-
Included w.e.f.19.05.2025

1079

Hi Physix Laboratory India Private Limited

IS 302 : Part 2 : Sec 42 (2024)

Household and Similar Electrical Appliancesï¿½Safety Part 2 Particular Requirements Section 42 Commercial electric forced convection ovens, steam cookers and steam-convection ovens

66000 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
7(Marking and instructions)	-	2000	-
8(Protection against access to live parts)	-	2000	-
10(Power input and current)	-	2000	-
11(Heating)	-	4000	-
13.1 &13.2(Leakage current test)	-	1500	-
13.1 &13.3(Electric strength test)	-	1500	-
14(Transient overvoltages)	-	2000	-
15(Moisture resistance)	-	4000	-
15.3(Moisture resistance)	-	0	Testing charges included in Cl.15
15.101(Moisture resistance)	-	0	Testing charges included in Cl.15
16.1 &16.2(Leakage current test)	-	1500	-
16.1 & 16.3(Electric strength test)	-	1500	-
17(Overload protection of transformers and associated circuits)	-	4000	-
19.1 to 19.13, Table No. - 9(Abnormal operation)	-	8000	Charges applicable excluding the test of Cl.19.11.4.1 to Cl.19.11.4.7. The testing charges for EMI/EMC Testing (Cl.19.11.4.1 to Cl.19.11.4.7) will be Rs. 55000 charged extra.
19.101(Abnormal operation)	-	0	Testing charges included in Cl.19.1 to CL.19.13
20.1(Stability and mechanical hazards)	-	2000	-
20.2(Stability and mechanical hazards)	-	0	Testing charges included in Cl.20.1
20.101(Stability and mechanical hazards)	-	0	Testing charges included in Cl.20.1
20.102(Stability and mechanical hazards)	-	0	Testing charges included in Cl.20.1
21(Mechanical strength)	-	3000	-
21.101(Mechanical strength)	-	0	Testing charges included in Cl.21
22(Construction)	-	8000	-
22.101(Construction)	-	0	Testing charges included in Cl.22
22.102(Construction)	-	0	Testing charges included in Cl.22
22.103(Construction)	-	0	Testing charges included in Cl.22
22.104(Construction)	-	0	Testing charges included in Cl.22
22.105(Construction)	-	0	Testing charges included in Cl.22
22.106(Construction)	-	0	Testing charges included in Cl.22
22.107(Construction)	-	0	Testing charges included in Cl.22
22.108(Construction)	-	0	Testing charges included in Cl.22
22.109(Construction)	-	0	Testing charges included in Cl.22
22.110(Construction)	-	0	Testing charges included in Cl.22
22.111(Construction)	-	0	Testing charges included in Cl.22
22.112(Construction)	-	0	Testing charges included in Cl.22
22.113(Construction)	-	0	Testing charges included in Cl.22
22.114(Construction)	-	0	Testing charges included in Cl.22
22.115(Construction)	-	0	Testing charges included in Cl.22
22.116(Construction)	-	0	Testing charges included in Cl.22
22.117(Construction)	-	0	Testing charges included in Cl.22
22.118(Construction)	-	0	Testing charges included in Cl.22
22.119(Construction)	-	0	Testing charges included in Cl.22
23(Internal wiring)	-	2000	-
24(Components)	-	3000	-
25("Supply connection and external flexible cords")	-	1000	-
26("Terminals for external conductors")	-	1000	-
27(Provision for earthing)	-	2000	-
28(Screws and connections)	-	1000	-
29("Clearances, creepage distances and solid insulation")	-	2000	-
30(Resistance to heat and fire)	-	3000	-
31(Resistance to rusting)	-	1000	-
32("Radiation, toxicity and similar hazards")	-	1000	-
22.109(Construction)	-	0	Testing charges included in Cl.22
30.101(Resistance to heat and fire)	-	0	Testing charges included in Cl.30
7(Marking and instructions)	-	0	-
8(Protection against access to live parts)	-	0	-
10(Power input and current)	-	0	-
11(Heating)	-	0	-
13.1 &13.2(Leakage current test)	-	0	-
13.1 &13.3(Electric strength test)	-	0	-
14(Transient overvoltages)	-	0	-
15(Moisture resistance)	-	0	-
15.3(Moisture resistance)	-	0	-
15.101(Moisture resistance)	-	0	-
16.1 &16.2(Leakage current test)	-	0	-
16.1 & 16.3(Electric strength test)	-	0	-
17(Overload protection of transformers and associated circuits)	-	0	-
19.1 to 19.13, Table No. - 9(Abnormal operation)	-	0	-
19.101(Abnormal operation)	-	0	-
20.1(Stability and mechanical hazards)	-	0	-
20.2(Stability and mechanical hazards)	-	0	-
20.101(Stability and mechanical hazards)	-	0	-
20.102(Stability and mechanical hazards)	-	0	-
21(Mechanical strength)	-	0	-
21.101(Mechanical strength)	-	0	-
22(Construction)	-	0	-
22.101(Construction)	-	0	-
22.102(Construction)	-	0	-
22.103(Construction)	-	0	-
22.104(Construction)	-	0	-
22.105(Construction)	-	0	-
22.106(Construction)	-	0	-
22.107(Construction)	-	0	-
22.108(Construction)	-	0	-
22.109(Construction)	-	0	-
22.110(Construction)	-	0	-
22.111(Construction)	-	0	-
22.112(Construction)	-	0	-
22.113(Construction)	-	0	-
22.114(Construction)	-	0	-
22.115(Construction)	-	0	-
22.116(Construction)	-	0	-
22.117(Construction)	-	0	-
22.118(Construction)	-	0	-
22.119(Construction)	-	0	-
23(Internal wiring)	-	0	-
24(Components)	-	0	-
25("Supply connection and external flexible cords")	-	0	-
26("Terminals for external conductors")	-	0	-
27(Provision for earthing)	-	0	-
28(Screws and connections)	-	0	-
29("Clearances, creepage distances and solid insulation")	-	0	-
30(Resistance to heat and fire)	-	0	-
31(Resistance to rusting)	-	0	-
32("Radiation, toxicity and similar hazards")	-	0	-
22.109(Construction)	-	0	-
30.101(Resistance to heat and fire)	-	0	-

20 Jun, 2028

-
Included w.e.f 25.03.2025 Exclusion: Cl 24 (Components), Cl 32 ("Radiation, toxicity and similar hazards")

1080

Bharat Test House Pvt. Ltd.

IS 848 (2006)

Synthetic resin adhesives for plywood (Phenolic And Aminoplastic) - Specification (Second Revision)

Specification for Synthetic Resin Adhesives for Plywood (Phenolic And Aminoplastic)

6500 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
4 Table (i)(BWP (BOiling WaterProof))	-	1000	-
4 Table (i)(BWR (Boiling Water Resistant))	-	1500	-
4 Table (i)(MR (Moisture Ressistant))	-	1000	-
5,7.4(Keeping Quality (Resistance to heat Polymerization))	-	1000	-
7.4(Acidity and Alkalinity ( pH))	-	2000	-
4 Table (i)(BWP (BOiling WaterProof))	-	0	-
4 Table (i)(BWR (Boiling Water Resistant))	-	0	-
4 Table (i)(MR (Moisture Ressistant))	-	0	-
5,7.4(Keeping Quality (Resistance to heat Polymerization))	-	0	-
7.4(Acidity and Alkalinity ( pH))	-	0	-

26 Jul, 2027

-
Included w.e.f.13.05.2025

Bureau of Indian Standards

The National Standards Body of India

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