BIS - LIMS (Laboratory Information Management System)

ARYAVRAT TEST HOUSE PRIVATE LIMITED

L.R. DAG No .257 AND 259, MOUZA ARGOURI, NH 6, BOMBAY ROAD, JANGALPUR,NATIBPUR, Howrah, Howrah, West Bengal, 711302

8240118890 aryavrat.lab@gmail.com

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26 Results

S.No.

Indian Standard No.

Product

Grade / Type / Size / Designation etc.

Testing Charges (Excl. Of Taxes)

Validity Date

Remark

IS 10748 (2004)

Hot - Rolled steel strip for welded tubes and pipes - Specification (Second Revision)

All Type

10000 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
Cl 8 & Table 3(UTM)	-	1000	-
Cl 9(Press)	-	1000	-
Cl 11(Workmanship)	-	100	-
Cl 12 & 13(Length, Width & Thickness)	-	100	-
Cl 8 & Table 3(UTM)	-	1000	-
Cl 9(Press)	-	1000	-
Cl 11(Workmanship)	-	100	-
Cl 12 & 13(Length, Width & Thickness)	-	500	-
Cl 8 & Table 3(UTM)	-	1000	-
Cl 9(Press)	-	1000	-
Cl 11(Workmanship)	-	100	-
Cl 12 & 13(Length, Width & Thickness)	-	500	-
7.1(Carbon %)	-	500	-
7.1(Manganese %)	-	500	-
7.1(Phosphorus %)	-	500	-
7.1(Sulphur %)	-	500	-
7.1(Silicon %)	-	500	-
7.1( Copper %)	-	500	-
7.1( Aluminium %)	-	500	-
7.1( Nb)	-	500	-
7.1(V)	-	500	-
7.1( Ti)	-	500	-
7.1(Cr)	-	500	-
7.1(Mo)	-	500	-
7.1(Ni)	-	500	-
7.1( Nitrogen%)	-	500	-
7.1(CE)	-	500	-
7.1(Carbon %)	-	500	-
7.1(Manganese %)	-	500	-
7.1(Phosphorus %)	-	500	-
7.1(Sulphur %)	-	500	-
7.1(Silicon %)	-	500	-
7.1( Copper %)	-	500	-
7.1( Aluminium %)	-	500	-
7.1( Nb)	-	500	-
7.1(V)	-	500	-
7.1( Ti)	-	500	-
7.1(Cr)	-	500	-
7.1(Mo)	-	500	-
7.1(Ni)	-	500	-
7.1( Nitrogen%)	-	500	-
7.1(CE)	-	500	-
7.1(Carbon %)	-	500	-
7.1(Manganese %)	-	500	-
7.1(Phosphorus %)	-	500	-
7.1(Sulphur %)	-	500	-
7.1(Silicon %)	-	500	-
7.1( Copper %)	-	500	-
7.1( Aluminium %)	-	500	-
7.1( Nb)	-	500	-
7.1(V)	-	500	-
7.1( Ti)	-	500	-
7.1(Cr)	-	500	-
7.1(Mo)	-	500	-
7.1(Ni)	-	500	-
7.1( Nitrogen%)	-	500	-
7.1(CE)	-	500	-
Table 1 ( Clauses 7.1 ,7.2 )(TITANIUM)	-	500	-
Table 1 ( Clauses 7.1 ,7.2 )(VANADIUM)	-	500	-
Table 1 ( Clauses 7.1 ,7.2 )(NIOBIUM)	-	500	-
Table 1 ( Clauses 7.1 ,7.2 )(CARBON EQUIVELENT )	-	500	-
Table 1 ( Clauses 7.1 ,7.2 )(Molybdenum)	-	500	-
Table 1 ( Clauses 7.1 ,7.2 )(Chromium)	-	500	-
Table 1 ( Clauses 7.1 ,7.2 )(Nickel)	-	500	-
Table 1 ( Clauses 7.1 ,7.2 )( ALUMINIUM)	-	500	-
Table 1 ( Clauses 7.1 ,7.2 )(SILICON)	-	500	-
Table 1 ( Clauses 7.1 ,7.2 )(NITROGEN)	-	500	-
Table 1 ( Clauses 7.1 ,7.2 )(MANGANESE)	-	500	-
Table 1 ( Clauses 7.1 ,7.2 )(PHOSPHURS)	-	500	-
Table 1 ( Clauses 7.1 ,7.2 )(SULPHUR)	-	500	-
Table 1 ( Clauses 7.1 ,7.2 )( CARBON)	-	500	-
Cl. 14(Weight)	-	500	-
Cl. 12, 13(Camber)	-	500	-
Cl. 12, 13(Thickness)	-	500	-
Cl. 8, Table 3(Elongation)	-	1000	-
Cl. 8, Table 3(Yield Stress)	-	1000	-
Cl 12 & 13(Length, Width & Thickness)	-	500	-
Cl 11(Workmanship)	-	100	-
Cl 9(Press)	-	1000	-
Cl 8 & Table 3(UTM)	-	1000	-
Cl 8 & Table 3(UTM)	-	1000	-
Cl 9(Press)	-	1000	-
Cl 11(Workmanship)	-	100	-
Cl 12 & 13(Length, Width & Thickness)	-	500	-
7.0 (7)(Micro Alloying elements - IS:8811)	-	500	-
8.0 (1)(Tensile Strength-IS:1608(P1))	-	1000	-
8.0 (2)(Yield Strength-IS:1608(P1))	-	1000	-
8.0 (3)(Elongation on 5.65 SoA GL-IS:1608(P1))	-	1000	-
12 (1)(Width - SOP MT-23)	-	500	-
12 (2)(Thickness- SOP MT-23)	-	500	-
12 (3)(Mass of Strip- SOP MT-23)	-	500	-
15.0 & 15.1(Coil edges - IS:10748)	-	500	-
15.0 & 15.2(Surface finish - IS:10748)	-	100	-
15.0 & 15.5(Telescopicity - IS:10748)	-	100	-
15(Condition of Coil)	-	100	-
16(Marking)	-	100	-
3.4(Vehicle Fuel System)	-	0	-
9(Protective Treatment)	-	0	-
Table 1 ( Clauses 7.1 ,7.2 )(Tungsten (W))	-	500	-
Table 1 ( Clauses 7.1 ,7.2 )(Boron (B))	-	500	-
CL 12(Average Width (04))	-	500	-
CL 12(Average Thickness (08))	-	500	-
Cl 8 & Table 3(UTM)	-	1000	-
Cl 9(Press)	-	1000	-
Cl 11(Workmanship)	-	100	-
Cl 12 & 13(Length, Width & Thickness)	-	500	-
Cl 8 & Table 3(UTM)	-	1000	-
Cl 9(Press)	-	1000	-
Cl 11(Workmanship)	-	100	-
Cl 12 & 13(Length, Width & Thickness)	-	500	-
Cl 8 & Table 3(UTM)	-	1000	-
Cl 9(Press)	-	1000	-
Cl 11(Workmanship)	-	100	-
Cl 12 & 13(Length, Width & Thickness)	-	500	-
7.1(Carbon %)	-	500	-
7.1(Manganese %)	-	500	-
7.1(Phosphorus %)	-	500	-
7.1(Sulphur %)	-	500	-
7.1(Silicon %)	-	500	-
7.1( Copper %)	-	500	-
7.1( Aluminium %)	-	500	-
7.1( Nb)	-	500	-
7.1(V)	-	500	-
7.1( Ti)	-	500	-
7.1(Cr)	-	500	-
7.1(Mo)	-	500	-
7.1(Ni)	-	500	-
7.1( Nitrogen%)	-	500	-
7.1(CE)	-	500	-
7.1(Carbon %)	-	500	-
7.1(Manganese %)	-	500	-
7.1(Phosphorus %)	-	500	-
7.1(Sulphur %)	-	500	-
7.1(Silicon %)	-	500	-
7.1( Copper %)	-	500	-
7.1( Aluminium %)	-	500	-
7.1( Nb)	-	500	-
7.1(V)	-	500	-
7.1( Ti)	-	500	-
7.1(Cr)	-	500	-
7.1(Mo)	-	500	-
7.1(Ni)	-	500	-
7.1( Nitrogen%)	-	500	-
7.1(CE)	-	500	-
7.1(Carbon %)	-	500	-
7.1(Manganese %)	-	500	-
7.1(Phosphorus %)	-	500	-
7.1(Sulphur %)	-	500	-
7.1(Silicon %)	-	500	-
7.1( Copper %)	-	500	-
7.1( Aluminium %)	-	500	-
7.1( Nb)	-	500	-
7.1(V)	-	500	-
7.1( Ti)	-	500	-
7.1(Cr)	-	500	-
7.1(Mo)	-	500	-
7.1(Ni)	-	500	-
7.1( Nitrogen%)	-	500	-
7.1(CE)	-	500	-
Cl. 14(Weight)	-	500	-
Cl. 12, 13(Camber)	-	500	-
Cl. 12, 13(Thickness)	-	500	-
Cl. 8, Table 3(Elongation)	-	500	-
Cl. 8, Table 3(Yield Stress)	-	1000	-
Cl 12 & 13(Length, Width & Thickness)	-	500	-
Cl 11(Workmanship)	-	100	-
Cl 9(Press)	-	1000	-
Cl 8 & Table 3(UTM)	-	1000	-
Cl 8 & Table 3(UTM)	-	1000	-
Cl 9(Press)	-	1000	-
Cl 11(Workmanship)	-	100	-
Cl 12 & 13(Length, Width & Thickness)	-	500	-
7.0 (7)(Micro Alloying elements - IS:8811)	-	500	-
8.0 (1)(Tensile Strength-IS:1608(P1))	-	1000	-
8.0 (2)(Yield Strength-IS:1608(P1))	-	1000	-
8.0 (3)(Elongation on 5.65 SoA GL-IS:1608(P1))	-	1000	-
12 (1)(Width - SOP MT-23)	-	500	-
12 (2)(Thickness- SOP MT-23)	-	500	-
12 (3)(Mass of Strip- SOP MT-23)	-	500	-
15.0 & 15.1(Coil edges - IS:10748)	-	500	-
15.0 & 15.2(Surface finish - IS:10748)	-	500	-
15.0 & 15.5(Telescopicity - IS:10748)	-	500	-
15(Condition of Coil)	-	100	-
16(Marking)	-	100	-
3.4(Vehicle Fuel System)	-	0	-
9(Protective Treatment)	-	100	-
Table 1 ( Clauses 7.1 ,7.2 )(Tungsten (W))	-	500	-
Table 1 ( Clauses 7.1 ,7.2 )(Boron (B))	-	500	-
CL 12(Average Width (04))	-	500	-
CL 12(Average Thickness (08))	-	500	-

28 Nov, 2028

-
Included w.e.f 31.12.2025

IS 3601 (2006)

Steel tubes for mechanical and general engineering purposes - Specification (Second Revision)

All Type

6000 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
4(Material)	-	100	-
13(Mechanical Testing)	-	1000	-
6.0(Workmanship)	-	100	-
4.1(Sulphur-Percentage by mass)	-	500	-
4.1(Phosphorus-Percentage by mass)	-	500	-
8.0(Straightness)	-	200	-
19.1.1, 24.1.1, 28.1.1, 33.1.1(Dimensions- Outside Dia)	-	200	-
19.1.2, 24.1.2, 28.1.2, 33.1.2(Dimensions- Thickness)	-	200	-
11.1(Surface Protection)	-	200	-
11.2(Surface Protection)	-	200	-
13.1.3(Tensile Strength)	-	1000	-
13.1.1(Yield Stress)	-	1000	-
13.1.2(Elongation)	-	1000	-
13.2(Flattening Test)	-	1000	-
13.3(Bend Test (Strip))	-	1000	-
13.4(Bend Test (Whole Tube))	-	1000	-
13.5(Drift Expansion Test)	-	1000	-
13.6(Crush Test)	-	1000	-
19.1.3(Height of Internal Fin)	-	200	-
6.0(Workmanship)	-	100	-
4.1(Sulphur-Percentage by mass)	-	500	-
4.1(Phosphorus-Percentage by mass)	-	500	-
8.0(Straightness)	-	200	-
19.1.1, 24.1.1, 28.1.1, 33.1.1(Dimensions- Outside Dia)	-	200	-
19.1.2, 24.1.2, 28.1.2, 33.1.2(Dimensions- Thickness)	-	200	-
11.1(Surface Protection)	-	200	-
11.2(Surface Protection)	-	200	-
13.1.3(Tensile Strength)	-	1000	-
13.1.1(Yield Stress)	-	1000	-
13.1.2(Elongation)	-	1000	-
13.2(Flattening Test)	-	1000	-
13.3(Bend Test (Strip))	-	1000	-
13.4(Bend Test (Whole Tube))	-	1000	-
13.5(Drift Expansion Test)	-	1000	-
13.6(Crush Test)	-	1000	-
19.1.3(Height of Internal Fin)	-	200	-
Cl. 10 Annex B Cl. 17, Cl. 19(Moment of inertia)	-	0	-
Cl. 10 Annex B Cl. 17, Cl. 19(Radius of gyration)	-	0	-
Cl. 10 Annex B Cl. 17, Cl. 19(Modulus of section)	-	0	-
Cl. 10 Annex B Cl. 17, Cl. 19(Area of cross section)	-	200	-
Cl. 19.1.3(Internal Fin Height)	-	200	-
Cl. 10 Annex B Cl. 17, Cl. 19(Mass)	-	200	-
Cl. 9(Length)	-	200	-
4.0 (a)(Carbon as C - IS:8811)	-	200	-
4.0 (b)(Manganese as Mn - IS:8811)	-	200	-
4.0 (b)(Manganese as Mn - IS:8811)	-	200	-
4.0 (c)(Micro Alloying elements (Nb+V+Ti))	-	200	-
4.0 (f)(Nitrogen content)	-	2002	-
9(Length -SOP MT-23)	-	200	-
10(Outside diameter-SOP MT-23)	-	200	-
10(Thickness - SOP MT-23)	-	200	-
10(Mass of Tube-SOP MT-23)	-	200	-
10(Area of Cross Section)	-	200	-
16(Marking)	-	100	-
CL 10("1.Outer dia (04) 2.Thickness (08)")	-	200	-
CL 10(Minimum Outer dia (04))	-	200	-
CL 10(Maximum Outer dia (04))	-	200	-
Cl-10(" Minimum Thickness (08)")	-	200	-
CL 10(Maximum Thickness (08))	-	200	-
4(Material)	-	200	-
13(Mechanical Testing)	-	1000	-
Cl. 10 Annex B Cl. 17, Cl. 19(Moment of inertia)	-	0	-
Cl. 10 Annex B Cl. 17, Cl. 19(Radius of gyration)	-	0	-
Cl. 10 Annex B Cl. 17, Cl. 19(Modulus of section)	-	0	-
Cl. 10 Annex B Cl. 17, Cl. 19(Area of cross section)	-	200	-
Cl. 19.1.3(Internal Fin Height)	-	200	-
Cl. 10 Annex B Cl. 17, Cl. 19(Mass)	-	200	-
Cl. 9(Length)	-	200	-
4.0 (a)(Carbon as C - IS:8811)	-	200	-
4.0 (b)(Manganese as Mn - IS:8811)	-	200	-
4.0 (b)(Manganese as Mn - IS:8811)	-	200	-
4.0 (c)(Micro Alloying elements (Nb+V+Ti))	-	200	-
4.0 (f)(Nitrogen content)	-	200	-
9(Length -SOP MT-23)	-	200	-
10(Outside diameter-SOP MT-23)	-	200	-
10(Thickness - SOP MT-23)	-	200	-
10(Mass of Tube-SOP MT-23)	-	200	-
10(Area of Cross Section)	-	200	-
16(Marking)	-	100	-
CL 10("1.Outer dia (04) 2.Thickness (08)")	-	200	-
CL 10(Minimum Outer dia (04))	-	200	-
CL 10(Maximum Outer dia (04))	-	200	-
Cl-10(" Minimum Thickness (08)")	-	200	-
CL 10(Maximum Thickness (08))	-	200	-

28 Nov, 2028

-
included w.e.f 30.01.2026

IS 432 : Part 1 (1982)

Mild Steel and Medium Tensile Steel Bars and Hard-Drawn Steel Wire for Concrete Reinforcement: Part 1 Mild Steel and Medium Tensile Steel Bars

All

3000 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
Cl 5.1(Workmanship)	-	100	-
Cl 6.2(Diameter & Ovality)	-	100	-
Cl 6.2(Weight)	-	100	-
Cl 8.2(Bend test)	-	1000	-
Cl 9.3(Press)	-	1000	-
Cl 5.1(Workmanship)	-	100	-
Cl 6.1(Diameter)	-	100	-
Cl 6.2(Weight)	-	100	-
Cl 8.1(ultimate tensile stress, yield stress and percentage elongation)	-	1000	-
Cl 9.3(Press)	-	1000	-
Cl 5.1(Workmanship)	-	100	-
Cl 6.2(Diameter & Ovality)	-	100	-
Cl 6.2(Weight)	-	100	-
Cl 8(Physical Requirements)	-	100	-
Cl 9.3(Press)	-	1000	-
Clause 6.2(IS 1732)	-	100	-
Clause 8.1(IS 1608 Part 1)	-	1000	-
Clause 4(Any Instrumental Method/Chemical Method)	-	100	-
Clause 4(By Calculation)	-	100	-
Clause 4(By Calculation)	-	100	-
Clause 4(Any Instrumental Method/Chemical Method)	-	100	-
Clause 5.1(Freedom from Defect)	-	100	-
Clause 6.2(Mass)	-	100	-
Clause 8.1(Ultimate Tensile Stress)	-	1000	-
Clause 4(Boron)	-	100	-
Clause 4(By Calculation)	-	100	-
Clause 4(By Calculation)	-	100	-
Clause 4(Copper)	-	100	-
8.1 & 9.2(Yield Strength - IS: 1608 (P1))	-	1000	-
8.1 & 9.2(Elongation on SoA 5.65mm GL - IS: 1608 (P1))	-	1000	-
11(Marking)	-	100	-
Clause 5.1(Freedom from Defect)	-	100	-
Clause 6.2(Mass)	-	100	-
Clause 8.1(Ultimate Tensile Stress)	-	1000	-
Clause 4(Boron)	-	100	-
Clause 4(Carbon Equivalent)	-	100	-
Clause 4(Ni+V+Ti)	-	100	-
Clause 4(Copper)	-	100	-
Clause 4(Copper)	-	100	-
Clause -4, 4.3(TITANIUM)	-	100	-
Clause -4, 4.2(VANADIUM)	-	100	-
Clause -4, 4.1(NIOBIUM)	-	100	-
Clause -4, 4.1(Molybdenum)	-	100	-
Clause -4, 4.1(Chromium)	-	100	-
Clause -4, 4.1(Nickel)	-	100	-
Clause -4, 4.1( ALUMINIUM)	-	100	-
Clause -4, 4.1(SILICON)	-	100	-
Clause -4, 4.1(NITROGEN)	-	100	-
Clause -4, 4.1(MANGANESE)	-	100	-
Clause -4, 4.1(PHOSPHURS)	-	100	-
Clause -4, 4.1(SULPHUR)	-	100	-
Clause -4, 4.1( CARBON)	-	100	-
Cl. 8.1 Table 1(Elongation)	-	1000	-
Cl. 8.1 Table 1(Yield Stress)	-	1000	-
Clause 8.1(Elongation)	-	100	-
Clause 8.1(Yield Stress)	-	1000	-
Clause 9.3(Bend test)	-	1000	-
Clause 6.1(Size)	-	100	-
Cl 9.3(Press)	-	1000	-
Cl 8(UTM)	-	1000	-
Cl 6.2(Weight)	-	100	-
Cl 6.2(Diameter & Ovality)	-	100	-
Cl 5.1(Workmanship)	-	100	-
7(Tolerance)	-	100	-
Cl 5.1(Workmanship)	-	100	-
Cl 6.2(Diameter & Ovality)	-	100	-
Cl 6.2(Weight)	-	100	-
Cl 8(UTM)	-	1000	-
Cl 9.3(Press)	-	1000	-
Cl 4.1(Workmanship)	-	100	-
Cl 5 & 6(Diameter)	-	100	-
Cl 7(UTM)	-	1000	-
Cl 8.3(Bending To Both Side At 90°, Then Straight)	-	1000	-
Clause 5.1(IS 432 Part 1)	-	100	-

28 Nov, 2028

-
Included w.e.f. 24.12.2025

IS 432 : Part 2 (1982)

Mild Steel and Medium Tensile Steel Bars and Hard-Drawn Steel Wire for Concrete Reinforcement: Part 2 Hard-Drawn Steel Wire

All Type

3500 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
Cl 4.1(Workmanship)	-	100	-
Cl 5 & 6(Diameter)	-	100	-
Cl 7(UTM)	-	1000	-
Cl 8.3(Bending To Both Side At 90°, Then Straight)	-	1000	-
Cl 4.1(Workmanship)	-	100	-
Cl 5 & 6(Diameter)	-	100	-
Cl 7(UTM)	-	1000	-
Cl 8.3(Bending To Both Side At 90°, Then Straight)	-	1000	-
Cl 4.1(Workmanship)	-	100	-
Cl 5 & 6(Diameter)	-	100	-
Cl 7(UTM)	-	1000	-
Cl 8.3(Bending To Both Side At 90°, Then Straight)	-	1000	-
Clause 3.1.1(Sulphur)	-	500	-
Clause 3.1.1(Phosphorus)	-	500	-
Cl. 7.1(Elongation)	-	1000	-
Cl. 7.1(Proof Stress 0.2 %)	-	1000	-
Cl. 6.2(Length)	-	100	-
Clause 3(Nitrogen)	-	500	-
Clause 3(Nitrogen)	-	500	-
Clause 7.1(Total Elongation over a gauge length of 8 D Where D is the dia of wire)	-	1000	-
Clause 7.1(Proof Stress (0.2 percent ))	-	1000	-
Clause 7.1(Ultimate Tensile Stress)	-	1000	-
Cl 8.3(Bending To Both Side At 90°, Then Straight)	-	1000	-
Cl 7(UTM)	-	1000	-
Cl 5 & 6(Diameter)	-	100	-
Cl 4.1(Workmanship)	-	100	-
Clause 8.3(IS 1716)	-	1000	-
Clause 7.1(IS 1608 Part 1)	-	1000	-
Clause 8.3(IS 1716)	-	1000	-
Clause 7.1(IS 1608 Part 1)	-	1000	-
Clause 8.3(Reverse Bend test)	-	1000	-
7.0 & 7.1(0.2% Proof Strength - IS: 1608 (P1))	-	1000	-
7.0 & 7.1(Elongation on SoA 5.65mm GL - IS: 1608 (P1))	-	1000	-
10(Marking)	-	100	-
Clause 7.1(Ultimate tensile stress)	-	1000	-
Clause 8.3(Reverse Bend test)	-	1000	-
Clause 8.3(Reverse Bend test)	-	1000	-

28 Nov, 2028

-
Included w.e.f. 24.12.2025

IS 2062 (2011)

Hot rolled medium and high tensile structural steel - Specification (Seventh Revision)

All Type (Exclusion : Cl 13 Y Groove Crackability, Cl 14 Other Tests )

4000 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
Cl 18(Weight)	-	500	-
Cl 15(Length, Width & Thickness)	-	500	-
Cl 13(Y Groove Cracking Test)	-	500	-
Cl 12(Sudden Load Applied)	-	500	-
Cl 11.3(Press)	-	500	-
Cl 10.3(UTM)	-	500	-
Cl 7(Workmanship)	-	500	-
Cl 18(Weight)	-	500	-
Cl 15(Length, Width & Thickness)	-	500	-
Cl 13(Y Groove Cracking Test)	-	500	-
Cl 12(Sudden Load Applied)	-	500	-
Cl 11.3(Press)	-	500	-
Cl 10.3(UTM)	-	500	-
Cl 7(Workmanship)	-	500	-
Cl 18(Weight)	-	500	-
Cl 15(Length, Width & Thickness)	-	500	-
Cl 13(Y Groove Cracking Test)	-	500	-
Cl 12(Sudden Load Applied)	-	500	-
Cl 11.3(Press)	-	500	-
Cl 10.3(UTM)	-	500	-
Cl 7(Workmanship)	-	500	-
Clause - 5, 8.1 & 8.2(E650, CARBON +EQUIVELENT )	-	500	-
Cl. 15 (Cl. 15 Channel Section: Sweep)	-	500	-
Cl. 15(Cl. 15 Channel Section: Camber)	-	500	-
Cl. 15(Cl. 15 Channel Section: Flatness of Web (Concavity))	-	500	-
Cl. 15(Cl. 15 Channel Section: Flatness of Web (Convexity))	-	500	-
Cl. 15(Cl. 15 Channel Section: Flange Out of Square)	-	500	-
Cl. 15(Cl. 15 Channel Section: Width of Flange)	-	500	-
Cl. 15(Cl. 15 Channel Section: Depth)	-	500	-
Cl. 15(Cl. 15 Square Bar: Out of Square)	-	500	-
Cl. 15(Cl. 15 Square Bar: Side Width: Minimum)	-	500	-
Cl. 15(Cl. 15 Square Bar: Side Width: Maximum)	-	500	-
Cl. 15(Cl. 15 Round Bar: Out of Shape)	-	500	-
Cl. 15(Cl. 15 Round Bar: Diameter Minimum)	-	500	-
Cl. 15(Cl. 15 Round Bar: Diameter Maximum)	-	500	-
Cl. 10.3 (Cl. 10.3 (Elongation %))	-	500	-
Cl. 10.3 (Cl. 10.3 (Yield Stress))	-	500	-
Cl. 10.3 (Cl. 10.3 (Tensile Strength))	-	500	-
Clause - 5, 8.1 & 8.2(E650, ALUMINIUM)	-	500	-
Clause - 5, 8.1 & 8.2(E650, SILICON)	-	500	-
Clause - 5, 8.1 & 8.2(E650, NITROGEN)	-	500	-
Clause - 5, 8.1 & 8.2(E650 ,MANGANESE)	-	500	-
Clause - 5, 8.1 & 8.2(E650, PHOSPHURS)	-	500	-
Clause - 5, 8.1 & 8.2(E650, SULPHUR)	-	500	-
Clause - 5, 8.1 & 8.2(E650, CARBON)	-	500	-
Clause - 5, 8.1 & 8.2(E600, CARBON +EQUIVELENT )	-	500	-
Clause - 5, 8.1 & 8.2(E600, ALUMINIUM)	-	500	-
Clause - 5, 8.1 & 8.2(E600, SILICON)	-	500	-
Clause - 5, 8.1 & 8.2(E600, NITROGEN)	-	500	-
Clause - 5, 8.1 & 8.2(E600 ,MANGANESE)	-	500	-
Clause - 5, 8.1 & 8.2(E600, PHOSPHURS)	-	500	-
Clause - 5, 8.1 & 8.2(E600, SULPHUR)	-	500	-
Clause - 5, 8.1 & 8.2(E600, CARBON)	-	500	-
Clause - 5, 8.1 & 8.2(E550, CARBON +EQUIVELENT )	-	500	-
Clause - 5, 8.1 & 8.2(E550, ALUMINIUM)	-	500	-
Clause - 5, 8.1 & 8.2(E550, SILICON)	-	500	-
Clause - 5, 8.1 & 8.2(E550, NITROGEN)	-	500	-
Clause - 5, 8.1 & 8.2(E550 ,MANGANESE)	-	500	-
Clause - 5, 8.1 & 8.2(E550, PHOSPHURS)	-	500	-
Clause - 5, 8.1 & 8.2(E550, SULPHUR)	-	500	-
Clause - 5, 8.1 & 8.2(E550, CARBON)	-	500	-
Clause - 5, 8.1 & 8.2(E450, CARBON +EQUIVELENT )	-	500	-
Clause - 5, 8.1 & 8.2(E450, ALUMINIUM)	-	500	-
Clause - 5, 8.1 & 8.2(E450, SILICON)	-	500	-
Clause - 5, 8.1 & 8.2(E450, NITROGEN)	-	500	-
Clause - 5, 8.1 & 8.2(E450 ,MANGANESE)	-	500	-
Clause - 5, 8.1 & 8.2(E450, PHOSPHURS)	-	500	-
Clause - 5, 8.1 & 8.2(E450, SULPHUR)	-	500	-
Clause - 5, 8.1 & 8.2(E450, CARBON)	-	500	-
Clause - 5, 8.1 & 8.2(E410, CARBON +EQUIVELENT )	-	500	-
Clause - 5, 8.1 & 8.2(E410, ALUMINIUM)	-	500	-
Clause - 5, 8.1 & 8.2(E410, SILICON)	-	500	-
Clause - 5, 8.1 & 8.2(E410, NITROGEN)	-	500	-
Clause - 5, 8.1 & 8.2(E410 ,MANGANESE)	-	500	-
Clause - 5, 8.1 & 8.2(E410, PHOSPHURS)	-	500	-
Clause - 5, 8.1 & 8.2(E410, SULPHUR)	-	500	-
Clause - 5, 8.1 & 8.2(E410, CARBON)	-	500	-
Clause - 5, 8.1 & 8.2(E350, CARBON +EQUIVELENT )	-	500	-
Clause - 5, 8.1 & 8.2(E350, ALUMINIUM)	-	500	-
Clause - 5, 8.1 & 8.2(E350, SILICON)	-	500	-
Clause - 5, 8.1 & 8.2(E350, NITROGEN)	-	500	-
Clause - 5, 8.1 & 8.2(E350 ,MANGANESE)	-	500	-
Clause - 5, 8.1 & 8.2(E350, PHOSPHURS)	-	500	-
Clause - 5, 8.1 & 8.2(E350, SULPHUR)	-	500	-
Clause - 5, 8.1 & 8.2(E350, CARBON)	-	500	-
Clause - 5, 8.1 & 8.2(E300, CARBON +EQUIVELENT )	-	500	-
Clause - 5, 8.1 & 8.2(E300, ALUMINIUM)	-	500	-
Clause - 5, 8.1 & 8.2(E300, SILICON)	-	500	-
Clause - 5, 8.1 & 8.2(E300, NITROGEN)	-	500	-
Clause - 5, 8.1 & 8.2(E300 ,MANGANESE)	-	500	-
Clause - 5, 8.1 & 8.2(E300, PHOSPHURS)	-	500	-
Clause - 5, 8.1 & 8.2(E300, SULPHUR)	-	500	-
Clause - 5, 8.1 & 8.2(E300, CARBON)	-	500	-
Clause - 5, 8.1 & 8.2(E275, CARBON +EQUIVELENT )	-	500	-
Clause - 5, 8.1 & 8.2(E275, ALUMINIUM)	-	500	-
Clause - 5, 8.1 & 8.2(E275, SILICON)	-	500	-
Clause - 5, 8.1 & 8.2(E275, NITROGEN)	-	500	-
Clause - 5, 8.1 & 8.2(E275 ,MANGANESE)	-	500	-
Clause - 5, 8.1 & 8.2(E275, PHOSPHURS)	-	500	-
Clause - 5, 8.1 & 8.2(E275, SULPHUR)	-	500	-
Clause - 5, 8.1 & 8.2(E275, CARBON)	-	500	-
Clause - 5, 8.1 & 8.2(E250, CARBON +EQUIVELENT )	-	500	-
Clause - 5, 8.1 & 8.2(E250, ALUMINIUM)	-	500	-
Clause - 5, 8.1 & 8.2(E250, SILICON)	-	500	-
Clause - 5, 8.1 & 8.2(E250, NITROGEN)	-	500	-
Clause - 5, 8.1 & 8.2(E250 ,MANGANESE)	-	500	-
Clause - 5, 8.1 & 8.2(E250, PHOSPHURS)	-	500	-
Clause - 5, 8.1 & 8.2(E250, SULPHUR)	-	500	-
Clause - 5, 8.1 & 8.2(E250, CARBON)	-	500	-
Cl. 5, 8.1 ,8.2. Table 1 (Grade:- E250, E275,E300 ,E350 ,E410, E450, E550,E600, E650)(Vanadium- IS 228 and relevant parts or any other established Instrumental/Chemical method.)	-	500	-
Cl. 5, 8.1 ,8.2. Table 1 (Grade:- E250, E275,E300 ,E350 ,E410, E450, E550,E600, E650)(Molybdenum- IS 228 and relevant parts or any other established Instrumental/Chemical method.)	-	500	-
Cl. 5, 8.1 ,8.2. Table 1 (Grade:- E250, E275,E300 ,E350 ,E410, E450, E550,E600, E650)(Chromium- IS 228 and relevant parts or any other established Instrumental/Chemical method.)	-	500	-
Cl. 5, 8.1 ,8.2. Table 1 (Grade:- E250, E275,E300 ,E350 ,E410, E450, E550,E600, E650)(Nickel- IS 228 and relevant parts or any other established Instrumental/Chemical method.)	-	500	-
Cl. 5, 8.1 ,8.2. Table 1 (Grade:- E250, E275,E300 ,E350 ,E410, E450, E550,E600, E650)(Copper- IS 228 and relevant parts or any other established Instrumental/Chemical method.)	-	500	-
Cl. 5, 8.1 ,8.2. Table 1 (Grade:- E250, E275,E300 ,E350 ,E410, E450, E550,E600, E650)(Carbon Equivalent- IS 228 and relevant parts or any other established Instrumental/Chemical method.)	-	500	-
Cl. 5, 8.1 ,8.2. Table 1 (Grade:- E250, E275,E300 ,E350 ,E410, E450, E550,E600, E650)(Nitrogen- IS 228 and relevant parts or any other established Instrumental/Chemical method.)	-	500	-
Cl. 5, 8.1 ,8.2. Table 1 (Grade:- E250, E275,E300 ,E350 ,E410, E450, E550,E600, E650)(Silicon- IS 228 and relevant parts or any other established Instrumental/Chemical method.)	-	500	-
Cl. 5, 8.1 ,8.2. Table 1 (Grade:- E250, E275,E300 ,E350 ,E410, E450, E550,E600, E650)(Phosphorus- IS 228 and relevant parts or any other established Instrumental/Chemical method.)	-	500	-
Cl. 5, 8.1 ,8.2. Table 1 (Grade:- E250, E275,E300 ,E350 ,E410, E450, E550,E600, E650)(Sulphur- IS 228 and relevant parts or any other established Instrumental/Chemical method.)	-	500	-
Cl. 5, 8.1 ,8.2. Table 1 (Grade:- E250, E275,E300 ,E350 ,E410, E450, E550,E600, E650)(Manganese- IS 228 and relevant parts or any other established Instrumental/Chemical method.)	-	500	-
Cl. 5, 8.1 ,8.2. Table 1 (Grade:- E250, E275,E300 ,E350 ,E410, E450, E550,E600, E650)(Carbon- IS 228 and relevant parts or any other established Instrumental/Chemical method.)	-	500	-
Cl. 15, 16(Off Centre of Web)	-	500	-
Cl. 15, 16(Flange out of square (I beam))	-	500	-
Cl. 15, 16(Width of flange (I Beam))	-	500	-
Cl. 15, 16(Depth (I Beam))	-	500	-
Cl. 15, 16(Mass (Plate))	-	500	-
Cl. 15, 16(Flange Slope)	-	500	-
Cl. 15, 16(Web Thickness)	-	500	-
Cl. 15, 16(Flange Thickness)	-	500	-
Cl. 15, 16(Out of Square (Flat))	-	500	-
Cl. 15, 16(Width )	-	500	-
Cl. 15, 16(Thickness )	-	500	-
Cl. 15, 16(Sectional Area )	-	500	-
Cl. 15, 16(Camber (Angle))	-	500	-
Cl. 15, 16(Out of Square (Angle))	-	500	-
Cl. 15, 16(Weight)	-	500	-
Cl. 15, 16(Leg Length Difference (Angle))	-	500	-
Cl. 15, 16(Leg Length B (Angle))	-	500	-
Cl. 15, 16(Leg Length A (Angle))	-	500	-
Cl. 15, 16(Toe Radius R2)	-	500	-
Cl. 15, 16(Root Radius R1)	-	500	-
Cl 18(Weight)	-	500	-
Cl 15(Length, Width & Thickness)	-	500	-
Cl 13(Y Groove Cracking Test)	-	500	-
Cl 12(Sudden Load Applied)	-	500	-
Cl 11.3(Press)	-	500	-
Cl 10.3(UTM)	-	500	-
Cl 7(Workmanship)	-	500	-
14.1(Soundness test)	-	500	-
14.2(Grain Size)	-	500	-
14.2(Inclusion)	-	500	-
Cl 7(Workmanship)	-	500	-
Cl 10.3(UTM)	-	500	-
Cl 11.3(Press)	-	500	-
Cl 12(Sudden Load Applied)	-	500	-
Cl 13(Y Groove Cracking Test)	-	500	-
Cl 15(Length, Width & Thickness)	-	500	-
Cl 18(Weight)	-	500	-
Clause 8, Table 1, Note 2(Any Instrumental Method/Chemical Method)	-	500	-
Clause 8, Table 1, Note 5(Any Instrumental Method/Chemical Method)	-	500	-
Clause 8, Table 1, Note 5(Any Instrumental Method/Chemical Method)	-	500	-
Clause 8, Table 1, Note 5(By Calculation)	-	500	-
Clause 8, Table 1, Note 6(Any Instrumental Method/Chemical Method)	-	500	-
Clause 8, Table 1, Note 6(By Calculation)	-	500	-
Clause 7(IS 2062)	-	500	-
Clause 11.3(IS 1599)	-	500	-
Clause 12(IS 1757)	-	500	-
Clause 15, Table 4(IS 2062)	-	500	-
16(Tolerance)	-	500	-
20(Marking)	-	500	-
20(MARKING)	-	500	-
8(Micro Alloying elements)	-	500	-
8(Niobium as Nb)	-	500	-
8(Vanadium as V)	-	500	-
8(Titanium as Ti)	-	500	-
10(Tensile Strength-IS:1608(P1)-22)	-	500	-
10(Yield Stress-IS:1608(P1)-22)	-	500	-
10(Elongation on SoA 5.65mm GL)	-	500	-
15(Sectional Area)	-	500	-
15(Mass -SOP MT-23)	-	500	-
15(Dimension -D)	-	500	-
15(Dimension -B)	-	500	-
15(Thickness - t)	-	500	-
15(Thickness - T)	-	500	-
15(Flange Slope)	-	500	-
15(Radius R1)	-	500	-
15(Radius R2)	-	500	-
15(Mass -SOP MT-23)	-	500	-
15(Sectional Area)	-	500	-
15(Dimension -D)	-	500	-
15(Dimension -B)	-	500	-
15(Thickness - t)	-	500	-
15(Thickness - T)	-	500	-
15(Radius R1)	-	500	-
15(Radius R2)	-	500	-
15(Mass -SOP MT-23)	-	500	-
15(Sectional Area)	-	500	-
15(Dimensions AxB)	-	500	-
15(Thickness - t)	-	500	-
15(Radius -R1)	-	500	-
15(Radius -R2)	-	500	-
15(Diameter)	-	500	-
15(Sectional Area)	-	500	-
15(Mass per metre)	-	500	-
15(Mass per metre)	-	500	-
15(Ovality)	-	500	-
15(Side Width)	-	500	-
15(Sectional Area)	-	500	-
15(Mass per metre)	-	500	-
15(Out of Square)	-	500	-
9(Preparation of test sample)	-	500	-
Clause 8, Table 1, Note 2(Aluminium)	-	500	-
Clause 8, Table 1, Note 5(Niobium)	-	500	-
Clause 8, Table 1, Note 5(Titanium)	-	500	-
Clause 8, Table 1, Note 5(Nb+V+Ti)	-	500	-
Clause 8, Table 1, Note 6(Boron)	-	500	-
Clause 8, Table 1, Note 6(Cr+Ni)	-	500	-
Clause 7(Freedom from Defect)	-	500	-
Clause 11.3(Bend Test)	-	500	-
Clause 12(Impact Test)	-	500	-
Clause 15, Table 4(Dimension)	-	500	-
5(General Requirements)	-	500	-
4(MARKING)	-	100	-

28 Nov, 2028

-
Included w.e.f 31.12.2025 "Cl 13 (Y Groove Cracking Test) 14.1 (Soundness test)"

IS 278 (2009)

Galvanized steel barbed wire for fencing - Specification (Fourth Revision)

ALL TYPE

4500 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
4(Type A/Type B)	-	0	-
5 Table-1(Sizes Diameter of Line wire)	-	50	-
5 Table-1(Sizes Diamater of Point wire)	-	50	-
5 Table-1(Sizes Mass of Completed barbed wire)	-	50	-
5 Table-1(Sizes Distance between two barbs)	-	50	-
5 Table-1(Sizes No. of Lays between the two consequtive barbs)	-	50	-
7.1(Manufacture)	-	50	-
7.2(Manufacture)	-	50	-
7.2(Manufacture)	-	50	-
7.3(Manufacture)	-	50	-
8(CHROMATING)	-	1000	-
9.1(Freedom from defects)	-	50	-
9.2(Freedom from defects)	-	50	-
9.2(Freedom from defects)	-	50	-
9.2(Freedom from defects)	-	50	-
12.1(Tensile Strength)	-	1000	-
12.1(Breaking load)	-	1000	-
12.2.1(Mass of zinc coating (line wire))	-	1000	-
12.2.2(Mass of zinc coating (point wire))	-	1000	-
12.2(Uniformity of zinc coating)	-	1000	-
12.3(Ductility)	-	1000	-
Cl. 6 . Table 1 of IS 7887 (Grade : 1,2,3,4,4M,6,6M,7,7M,8,8M,9,10,10M)(Silicon- IS 228 and relevant parts or any other established Instrumental/Chemical method.)	-	1000	-
Cl. 6 . Table 1 of IS 7887 (Grade : 1,2,3,4,4M,6,6M,7,7M,8,8M,9,10,10M)(Phosphorus- IS 228 and relevant parts or any other established Instrumental/Chemical method.)	-	1000	-
Cl. 6 . Table 1 of IS 7887 (Grade : 1,2,3,4,4M,6,6M,7,7M,8,8M,9,10,10M)(Sulphur- IS 228 and relevant parts or any other established Instrumental/Chemical method.)	-	1000	-
Cl. 6 . Table 1 of IS 7887 (Grade : 1,2,3,4,4M,6,6M,7,7M,8,8M,9,10,10M)(Manganese- IS 228 and relevant parts or any other established Instrumental/Chemical method.)	-	1000	-
Cl. 6 . Table 1 of IS 7887 (Grade : 1,2,3,4,4M,6,6M,7,7M,8,8M,9,10,10M)(Carbon- IS 228 and relevant parts or any other established Instrumental/Chemical method.)	-	1000	-
Cl. 7.2(Cut Angle)	-	50	-
Cl. 7.2(Length of Barbs)	-	50	-
Cl. 7.2(Finishing of Barbs)	-	50	-
Cl. 7.1(General)	-	50	-
11(Sampling)	-	50	-
13(Marking)	-	50	-
CL 05(Average dia of line wire (08))	-	50	-
CL 05(Average dia of point wire (08))	-	50	-
CL 05(Average Distance Between Two Barbs (08))	-	50	-

28 Nov, 2028

-
Included w.e.f 31.12.2025

IS 2141 (2000)

Hot dip galvanized stay strand - Specification (Fourth Revision)

All Type

10000 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
4(S)	-	500	-
4(P)	-	500	-
9.2 referes to IS 4826, Table 1(Mass of Zinc coating- as per IS 6745 for 0.2 to 0.32 mm dia For Hard Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Mass of Zinc coating- as per IS 6745 for 0.32 to 0.40 mm dia For Hard Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Mass of Zinc coating- as per IS 6745 for 0.40 to 0.50 mm dia For Hard Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Mass of Zinc coating- as per IS 6745 for 0.50 to 0.56 mm dia For Hard Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Mass of Zinc coating- as per IS 6745 for 0.56 to 0.63 mm dia For Hard Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Mass of Zinc coating- as per IS 6745 for 0.63 to 0.71 mm dia For Hard Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Mass of Zinc coating- as per IS 6745 for 0.71 to 0.80 mm dia For Hard Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Mass of Zinc coating- as per IS 6745 for 0.80 to 0.90 mm dia For Hard Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Mass of Zinc coating- as per IS 6745 for 0.90 to 1.00 mm dia For Hard Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Mass of Zinc coating- as per IS 6745 for 1.00 to 1.25 mm dia For Hard Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Mass of Zinc coating- as per IS 6745 for 1.25 to 1.40 mm dia For Hard Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Mass of Zinc coating- as per IS 6745 for 1.40 to 1.60 mm dia For Hard Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Mass of Zinc coating- as per IS 6745 for 1.60 to 1.80 mm dia For Hard Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Mass of Zinc coating- as per IS 6745 fo1.80 to 2.00 mm dia For Hard Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Mass of Zinc coating- as per IS 6745 for 2.00 to 2.24 mm dia For Hard Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Mass of Zinc coating- as per IS 6745 for 2.24 to 2.50 mm dia For Hard Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Mass of Zinc coating- as per IS 6745 for 2.50 to 2.80 mm dia For Hard Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Mass of Zinc coating- as per IS 6745 for 0.2.80 to 3.15 mm dia For Hard Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Mass of Zinc coating- as per IS 6745 for3.15 to 3.55 mm dia For Hard Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Mass of Zinc coating- as per IS 6745 for 3.55 to 4.00 mm dia For Hard Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Mass of Zinc coating- as per IS 6745 for 4.00 to 5.00 mm dia For Hard Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Mass of Zinc coating- as per IS 6745 for 5.00 to 7.10 mm dia For Hard Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Mass of Zinc coating- as per IS 6745 for 7.10 to 10.00 mm dia For Hard Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Uniformity of zinc coating- As per IS 2633 for Dia 0.20 to 0.32 mm For Hard Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Uniformity of zinc coating- As per IS 2633 for Dia 0.32 to 0.40mm For Hard Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Uniformity of zinc coating- As per IS 2633 for Dia 0.40 to 0.50mm For Hard Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Uniformity of zinc coating- As per IS 2633 for Dia 0.50 to 0.56 mm For Hard Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Uniformity of zinc coating- As per IS 2633 for Dia 0.56 to 0.63 mm For Hard Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Uniformity of zinc coating- As per IS 2633 for Dia 0.63 to 0.71 mm For Hard Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Uniformity of zinc coating- As per IS 2633 for Dia 0.71 to 0.80 mm For Hard Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Uniformity of zinc coating- As per IS 2633 for Dia 0.80 to 0.90 mm)	-	1000	-
9.2 referes to IS 4826, Table 1(Uniformity of zinc coating- As per IS 2633 for Dia 0.90 to 1.00 mm For Hard Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Uniformity of zinc coating- As per IS 2633 for Dia 1.00 to 1.25 mm For Hard Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Uniformity of zinc coating- As per IS 2633 for Dia 1.25 to1.40 mm For Hard Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Uniformity of zinc coating- As per IS 2633 for Dia 1.40 to1.60 mm For Hard Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Uniformity of zinc coating- As per IS 2633 for Dia 1.60 to 1.80 mm For Hard Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Uniformity of zinc coating- As per IS 2633 for Dia 1.80 to2.00 mm For Hard Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Uniformity of zinc coating- As per IS 2633 for Dia2.00 to2.24 mm For Hard Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Uniformity of zinc coating- As per IS 2633 for Dia 2.24 to2.50 mm For Hard Core For Hard Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Uniformity of zinc coating- As per IS 2633 for Dia 2.50 to2.80 mm For Hard Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Uniformity of zinc coating- As per IS 2633 for Dia 2.80 to3.15 mm For Hard Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Uniformity of zinc coating- As per IS 2633 for Dia 3.15 to 3.55 mm For Hard Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Uniformity of zinc coating- As per IS 2633 for Dia 3.55 to 4.00 mm For Hard Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Uniformity of zinc coating- As per IS 2633 for Dia4.00 to5.00 mm For Hard Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Uniformity of zinc coating- As per IS 2633 for Dia 5.00 to 7.10 mm For Hard Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Uniformity of zinc coating- As per IS 2633 for Dia 7.10 to10.00 mm For Hard Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Mass of Zinc coating- as per IS 6745 for 0.2 to 0.32 mm dia For Soft Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Mass of Zinc coating- as per IS 6745 for 0.32 to 0.40 mm dia For Soft Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Mass of Zinc coating- as per IS 6745 for 0.40 to 0.50 mm dia For Soft Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Mass of Zinc coating- as per IS 6745 for 0.50 to 0.56 mm dia For Soft Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Mass of Zinc coating- as per IS 6745 for 0.56 to 0.63 mm dia For Soft Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Mass of Zinc coating- as per IS 6745 for 0.63 to 0.71 mm dia For Soft Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Mass of Zinc coating- as per IS 6745 for 0.71 to 0.80 mm dia For Soft Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Mass of Zinc coating- as per IS 6745 for 0.80 to 0.90 mm dia For Soft Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Mass of Zinc coating- as per IS 6745 for 0.90 to 1.00 mm dia For Soft Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Mass of Zinc coating- as per IS 6745 for 1.00 to 1.25 mm dia For Soft Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Mass of Zinc coating- as per IS 6745 for 1.25 to 1.40 mm dia For Soft Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Mass of Zinc coating- as per IS 6745 for 1.40 to 1.60 mm dia For Soft Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Mass of Zinc coating- as per IS 6745 for 1.60 to 1.80 mm dia For Soft Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Mass of Zinc coating- as per IS 6745 fo1.80 to 2.00 mm dia)	-	1000	-
9.2 referes to IS 4826, Table 1(Mass of Zinc coating- as per IS 6745 For 2.00 to 2.24 mm dia For Soft Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Mass of Zinc coating- as per IS 6745 for 2.24 to 2.50 mm dia For Soft Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Mass of Zinc coating- as per IS 6745 for 2.50 to 2.80 mm dia For Soft Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Mass of Zinc coating- as per IS 6745 for 2.80 to 3.15 mm dia For Soft Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Mass of Zinc coating- as per IS 6745 for3.15 to 3.55 mm dia For Soft Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Mass of Zinc coating- as per IS 6745 for 3.55 to 4.00 mm dia For Soft Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Mass of Zinc coating- as per IS 6745 for 4.00 to 5.00 mm dia For Soft Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Mass of Zinc coating- as per IS 6745 for 5.00 to 7.10 mm dia For Soft Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Mass of Zinc coating- as per IS 6745 for 7.10 to 10.00 mm dia For Soft Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Uniformity of zinc coating- As per IS 2633 for Dia 0.20 to 0.32 mm For Soft Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Uniformity of zinc coating- As per IS 2633 for Dia 0.32 to 0.40mm For Soft Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Uniformity of zinc coating- As per IS 2633 for Dia 0.40 to 0.50mm For Soft Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Uniformity of zinc coating- As per IS 2633 for Dia 0.50 to 0.56 mm For Soft Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Uniformity of zinc coating- As per IS 2633 for Dia 0.56 to 0.63 mm For Soft Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Uniformity of zinc coating- As per IS 2633 for Dia 0.63 to 0.71 mm For Soft Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Uniformity of zinc coating- As per IS 2633 for Dia 0.71 to 0.80 mm For Soft Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Uniformity of zinc coating- As per IS 2633 for Dia 0.80 to 0.90 mm For Soft Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Uniformity of zinc coating- As per IS 2633 for Dia 0.90 to 1.00 mm For Soft Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Uniformity of zinc coating- As per IS 2633 for Dia 1.00 to 1.25 mm For Soft Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Uniformity of zinc coating- As per IS 2633 for Dia 1.25 to1.40 mm For Soft Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Uniformity of zinc coating- As per IS 2633 for Dia 1.40 to1.60 mm For Soft Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Uniformity of zinc coating- As per IS 2633 for Dia 1.60 to 1.80 mm For Soft Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Uniformity of zinc coating- As per IS 2633 for Dia 1.80 to2.00 mm For Soft Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Uniformity of zinc coating- As per IS 2633 for Dia2.00 to2.24 mm For Soft Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Uniformity of zinc coating- As per IS 2633 for Dia 2.24 to2.50 mm For Soft Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Uniformity of zinc coating- As per IS 2633 for Dia 2.50 to2.80 mm For Soft Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Uniformity of zinc coating- As per IS 2633 for Dia 2.80 to3.15 mm For Soft Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Uniformity of zinc coating- As per IS 2633 for Dia 3.15 to 3.55 mm For Soft Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Uniformity of zinc coating- As per IS 2633 for Dia 3.55 to 4.00 mm For Soft Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Uniformity of zinc coating- As per IS 2633 for Dia4.00 to5.00 mm For Soft Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Uniformity of zinc coating- As per IS 2633 for Dia 5.00 to 7.10 mm For Soft Core)	-	1000	-
9.2 referes to IS 4826, Table 1(Uniformity of zinc coating- As per IS 2633 for Dia 7.10 to10.00 mm For Soft Core)	-	1000	-
11(a) Size)	-	1000	-
11(b) Construction)	-	1000	-
11(c) tensile designation)	-	1000	-
11(d) lay)	-	500	-
11(e) coating)	-	1000	-
11(f) length)	-	1000	-
11( g) mass)	-	1000	-
11(h) manufacturer's name or trade mark)	-	100	-
11(i) lot number along with the order number)	-	100	-
11(j) BIS Standards Mark)	-	100	-
5(a) Grade)	-	1000	-
5(b) Tensile Grade)	-	1000	-
6(a) Lay)	-	500	-
6(b) Construction)	-	500	-
7(Freedom from defects)	-	500	-
9(a) Tensile)	-	1000	-
9(b) Elongation)	-	1000	-
9(c) Galvanizing Test)	-	1000	-
11(a) Size)	-	500	-
11(b) Construction)	-	500	-
11(c) tensile designation)	-	1000	-
11(d) lay)	-	500	-
11(e) coating)	-	500	-
11(f) length)	-	500	-
11( g) mass)	-	1000	-
11(h) manufacturer's name or trade mark)	-	100	-
11(i) lot number along with the order number)	-	100	-
11(j) BIS Standards Mark)	-	100	-
5(a) Grade)	-	1000	-
5(b) Tensile Grade)	-	1000	-
6(a) Lay)	-	500	-
6(b) Construction)	-	500	-
7(Freedom from defects)	-	500	-
9(a) Tensile)	-	1000	-
9(b) Elongation)	-	1000	-
9(c) Galvanizing Test)	-	1000	-
11(a) Size)	-	500	-
11(b) Construction)	-	500	-
11(c) tensile designation)	-	1000	-
11(d) lay)	-	500	-
11(e) coating)	-	1000	-
11(f) length)	-	500	-
11( g) mass)	-	500	-
11(h) manufacturer's name or trade mark)	-	100	-
11(i) lot number along with the order number)	-	100	-
11(j) BIS Standards Mark)	-	100	-
5(a) Grade)	-	1000	-
5(b) Tensile Grade)	-	1000	-
6(a) Lay)	-	500	-
6(b) Construction)	-	500	-
7(Freedom from defects)	-	100	-
9(a) Tensile)	-	1000	-
9(b) Elongation)	-	500	-
9(c) Galvanizing Test)	-	1000	-
CL 8.2(AVG single wire dia (08))	-	500	-
CL 8.2(AVG strand wire dia (08))	-	500	-

28 Nov, 2028

-
Included w.e.f 31.12.2025

IS 280 (2006)

Mild steel wire for general engineering purposes (Fourth Revision)

All type

6000 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
Cl 7 & Table 1(Diameter & Difference Between Two Reading On Any Two Diameters)	-	50	-
Cl 9(Tensile Test On UTM)	-	1000	-
Cl 11(Workmanship)	-	50	-
Cl 13(Workmanship)	-	50	-
Cl 7 & Table 1(Diameter & Difference Between Two Reading On Any Two Diameters)	-	50	-
Cl 9(Tensile Test On UTM)	-	1000	-
Cl 11(Workmanship)	-	50	-
Cl 13(Workmanship)	-	50	-
Cl 7 & Table 1(Diameter & Difference Between Two Reading On Any Two Diameters)	-	50	-
Cl 9(Tensile Test On UTM)	-	1000	-
Cl 11(Workmanship)	-	50	-
Cl 13(Workmanship)	-	50	-
6 AND AS PER IS 7887(MICRO ALLOY)	-	500	-
6 AND AS PER IS 7887(ALUMINIUM)	-	500	-
6 AND AS PER IS 7887(PHOSPHORUS)	-	500	-
6 AND AS PER IS 7887(SULPHUR)	-	500	-
6 AND AS PER IS 7887(MANGANESE)	-	500	-
6 AND AS PER IS 7887(SILICON)	-	500	-
6 AND AS PER IS 7887(CARBON)	-	500	-
7 & 8(Ovality)	-	500	-
7 & 8(Diameter)	-	500	-
9.2(Wrapping Test)	-	500	-
9.3(Bend test)	-	1000	-
10(Finish)	-	50	-
11(Coating test)	-	1000	-
13(Freedom from defects)	-	50	-
Cl 13(Workmanship)	-	50	-
Cl 11(Workmanship)	-	50	-
Cl 9(Tensile Test On UTM)	-	1000	-
Cl 7 & Table 1(Diameter & Difference Between Two Reading On Any Two Diameters)	-	50	-
Cl 7 & Table 1(Diameter & Difference Between Two Reading On Any Two Diameters)	-	50	-
Cl 9(Tensile Test On UTM)	-	1000	-
Cl 11(Workmanship)	-	50	-
Cl 13(Workmanship)	-	50	-
Clause 6 and Note 3 of IS 7887(Any Instrumental Method/Chemical Method)	-	500	-
Clause 6 and Note 3 of IS 7887(Copper)	-	500	-
14(Packing)	-	50	-
15(Marking)	-	50	-
Clause 6 and Note 3 of IS 7887(Copper)	-	50	-
CL 08(AVG Outer dia (08))	-	50	-
CL 08(MAX OVALITY (08))	-	50	-
Cl 7 & Table 1(Diameter & Difference Between Two Reading On Any Two Diameters)	-	100	-
Cl 9(Tensile Test On UTM)	-	1000	-
Cl 11(Workmanship)	-	100	-
Cl 13(Workmanship)	-	100	-
Cl 7 & Table 1(Diameter & Difference Between Two Reading On Any Two Diameters)	-	200	-
Cl 9(Tensile Test On UTM)	-	1000	-
Cl 11(Workmanship)	-	100	-
Cl 13(Workmanship)	-	100	-
Cl 7 & Table 1(Diameter & Difference Between Two Reading On Any Two Diameters)	-	200	-
Cl 9(Tensile Test On UTM)	-	1000	-
Cl 11(Workmanship)	-	100	-
Cl 13(Workmanship)	-	100	-
9.3(Bend test)	-	500	-
10(Finish)	-	100	-
11(Coating test)	-	1000	-
13(Freedom from defects)	-	500	-
Cl 13(Workmanship)	-	100	-
Cl 11(Workmanship)	-	100	-
Cl 9(Tensile Test On UTM)	-	1000	-
Cl 7 & Table 1(Diameter & Difference Between Two Reading On Any Two Diameters)	-	500	-
Cl 7 & Table 1(Diameter & Difference Between Two Reading On Any Two Diameters)	-	500	-
Cl 9(Tensile Test On UTM)	-	1000	-
Cl 11(Workmanship)	-	100	-
Cl 13(Workmanship)	-	100	-
Clause 6 and Note 3 of IS 7887(Any Instrumental Method/Chemical Method)	-	500	-
Clause 6 and Note 3 of IS 7887(Copper)	-	500	-
14(Packing)	-	100	-
15(Marking)	-	100	-
Clause 6 and Note 3 of IS 7887(Copper)	-	500	-
CL 08(AVG Outer dia (08))	-	100	-
CL 08(MAX OVALITY (08))	-	100	-

28 Nov, 2028

-
Included w.e.f 31.12.2025

IS 1538 (1993)

Cast iron fittings for pressure pipes for water, gas and sewage - Specification (Third Revision)

Up to DN 700

9000 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
4.1(The metal used for the manufacture of pipe shall be of a quality not less than that specified for grade FG 150 of IS 210 )	-	1000	Complete testing charges Rs/-9000 for upto and including DN 300 Complete testing charges Rs/-15000 for above DN 300 upto and including DN 700
5.1(tensile strength)	-	1000	-
6.1(Brinell hardness tests)	-	1000	-
8(Hydrostatic Test)	-	4000	-
9.1,Table 2 & 3(P)	-	50	-
9.1,Table 2 & 3(g)	-	50	-
9.1,Table 2 & 3(h)	-	50	-
9.1,Table 2 & 3(K)	-	50	-
9.1,Table 2 & 3(L)	-	50	-
9.1,Table 2 & 3(M)	-	50	-
9.1,Table 2 & 3(N)	-	50	-
9.1,Table 2 & 3(f)	-	50	-
9.1,Table 4(D)	-	50	-
9.1,Table 4(a)	-	50	-
9.1,Table 4(b)	-	50	-
9.1,Table 4(s)	-	50	-
9.1,Table 4(r)	-	50	-
9.1,Table 5(D)	-	50	-
9.1,Table 5(g)	-	50	-
9.1,Table 5(a)	-	50	-
9.1,Table 5(b)	-	50	-
9.1,Table 5(c)	-	50	-
9.1,Table 5(f)	-	50	-
9.1,Table 5(s)	-	50	-
9.1,Table 5(C)	-	50	-
9.1,Table 5(Holes No)	-	50	-
9.1,Table 5(Holes diameter)	-	50	-
9.1,Table 5(Diameterof Bolts)	-	50	-
9.1,Table 6(D)	-	50	-
9.1,Table 6(C)	-	50	-
9.1,Table 6(Holes No)	-	50	-
9.1,Table 6(Holes diameter)	-	50	-
9.1,Table 6(Diameterof Bolts)	-	50	-
9.1&11.1,Table 7,8&9(e)	-	50	-
9.1&11.1,Table 7,8&9(l)	-	50	-
9.1&11.1,Table 7,8&9(Mass (Approx))	-	50	-
9.1&11.1,Table 10 to13(e)	-	50	-
9.1&11.1,Table 10 to13(r)	-	50	-
9.1&11.1,Table 10 to13(a)	-	50	-
9.1&11.1,Table 10 to13(b)	-	50	-
9.1&11.1,Table 10 to13(Mass (Approx))	-	50	-
9.1&11.1,Table 14(Nominal Diameter)	-	50	-
9.1&11.1,Table 14(e)	-	50	-
9.1&11.1,Table 14(e1)	-	50	-
9.1&11.1,Table 14(l)	-	50	-
9.1&11.1,Table 14(h)	-	50	-
9.1&11.1,Table 14(Mass (Approx))	-	50	-
9.1&11.1,Table 15(e)	-	50	-
9.1&11.1,Table 15(l)	-	50	-
9.1&11.1,Table 15(Nominal Diameter)	-	50	-
9.1&11.1,Table 15(e1)	-	50	-
9.1&11.1,Table 15(k)	-	50	-
9.1&11.1,Table 15(Mass (Approx))	-	50	-
9.1&11.1,Table 16(e)	-	50	-
9.1&11.1,Table 16(l)	-	50	-
9.1&11.1,Table 16(h)	-	50	-
9.1&11.1,Table 16(Mass (Approx))	-	50	-
9.1&11.1,Table 17(e1)	-	50	-
9.1&11.1,Table 17(l1)	-	50	-
9.1&11.1,Table 17(Nominal Diameter)	-	50	-
9.1&11.1,Table 17(e2)	-	50	-
9.1&11.1,Table 17(l2)	-	50	-
9.1&11.1,Table 17(l3)	-	50	-
9.1&11.1,Table 17(l)	-	50	-
9.1&11.1,Table 17(Mass)	-	50	-
9.1&11.1,Table 18(a)	-	50	-
9.1&11.1,Table 18(P)	-	50	-
9.1&11.1,Table 18(Mass (Approx))	-	50	-
9.1&11.1,Table 19(DC)	-	50	-
9.1&11.1,Table 19(e)	-	50	-
9.1&11.1,Table 19(a)	-	50	-
9.1&11.1,Table 19(l)	-	50	-
9.1&11.1,Table 19(Mass (Approx))	-	50	-
9.1&11.1,Table 20(DI)	-	50	-
9.1&11.1,Table 20(h)	-	50	-
9.1&11.1,Table 20(Mass (Approx))	-	50	-
9.1&11.1,Table 21(e)	-	50	-
9.1&11.1,Table 21(r)	-	50	-
9.1&11.1,Table 21(a)	-	50	-
9.1&11.1,Table 21(b)	-	50	-
9.1&11.1,Table 21(Mass (Approx))	-	50	-
9.1&11.1,Table 22(e)	-	50	-
9.1&11.1,Table 22(r)	-	50	-
9.1&11.1,Table 22(a)	-	50	-
9.1&11.1,Table 22(b)	-	50	-
9.1&11.1,Table 22(c)	-	50	-
9.1&11.1,Table 22(a)	-	50	-
9.1&11.1,Table 22(f)	-	50	-
9.1&11.1,Table 22(g)	-	50	-
9.1&11.1,Table 23(e)	-	50	-
9.1&11.1,Table 23(r)	-	50	-
9.1&11.1,Table 23(a)	-	50	-
9.1&11.1,Table 23(l)	-	50	-
9.1&11.1,Table 23(Mass (Approx))	-	50	-
9.1&11.1,Table 24(e)	-	50	-
9.1&11.1,Table 24(l)	-	50	-
9.1&11.1,Table 24(Nominal Diameter)	-	50	-
9.1&11.1,Table 24(e1)	-	50	-
9.1&11.1,Table 24(h)	-	50	-
9.1&11.1,Table 24(Mass (Approx))	-	50	-
9.1&11.1,Table 25(e)	-	50	-
9.1&11.1,Table 25(l)	-	50	-
9.1&11.1,Table 25(h)	-	50	-
9.1&11.1,Table 25(Mass (Approx))	-	50	-
9.1&11.1,Table 26(e1)	-	50	-
9.1&11.1,Table 26(h1)	-	50	-
9.1&11.1,Table 26(Nominal Diameter)	-	50	-
9.1&11.1,Table 26(e2)	-	50	-
9.1&11.1,Table 26(l2)	-	50	-
9.1&11.1,Table 26(l3)	-	50	-
9.1&11.1,Table 26(l)	-	50	-
9.1&11.1,Table 26(Mass (Approx))	-	50	-
9.1&11.1,Table 27(dn)	-	50	-
9.1&11.1,Table 27(e1)	-	50	-
9.1&11.1,Table 27(b)	-	50	-
9.1&11.1,Table 27(l3)	-	50	-
9.1&11.1,Table 27(l2)	-	50	-
9.1&11.1,Table 27(e2)	-	50	-
9.1&11.1,Table 27(r)	-	50	-
9.1&11.1,Table 27(a)	-	50	-
9.1&11.1,Table 27(l1)	-	50	-
9.1&11.1,Table 27(Mass)	-	50	-
9.1&11.1,Table 28(D)	-	50	-
9.1&11.1,Table 28(t)	-	50	-
9.1&11.1,Table 28(Mass (Approx))	-	50	-
12.1 to 12.7(Coating )	-	500	-
4.1(The metal used for the manufacture of pipe shall be of a quality not less than that specified for grade FG 150 of IS 210 )	-	1000	-
5.1(tensile strength)	-	1000	-
6.1(Brinell hardness tests)	-	1000	-
8(Hydrostatic Test)	-	4000	-
9.1,Table 2 & 3(DI)	-	50	-
9.1,Table 2 & 3(P)	-	50	-
9.1,Table 2 & 3(g)	-	50	-
9.1,Table 2 & 3(h)	-	50	-
9.1,Table 2 & 3(K)	-	50	-
9.1,Table 2 & 3(L)	-	50	-
9.1,Table 2 & 3(M)	-	50	-
9.1,Table 2 & 3(N)	-	50	-
9.1,Table 2 & 3(f)	-	50	-
9.1,Table 4(D)	-	50	-
9.1,Table 4(a)	-	50	-
9.1,Table 4(b)	-	50	-
9.1,Table 4(s)	-	50	-
9.1,Table 4(r)	-	50	-
9.1,Table 5(D)	-	50	-
9.1,Table 5(g)	-	50	-
9.1,Table 5(a)	-	50	-
9.1,Table 5(b)	-	50	-
9.1,Table 5(c)	-	50	-
9.1,Table 5(f)	-	50	-
9.1,Table 5(s)	-	50	-
9.1,Table 5(C)	-	50	-
9.1,Table 5(Holes No)	-	50	-
9.1,Table 5(Holes diameter)	-	50	-
9.1,Table 5(Diameterof Bolts)	-	50	-
9.1,Table 6(D)	-	50	-
9.1,Table 6(C)	-	50	-
9.1,Table 6(Holes No)	-	50	-
9.1,Table 6(Holes diameter)	-	50	-
9.1,Table 6(Diameterof Bolts)	-	50	-
9.1&11.1,Table 7,8&9(e)	-	50	-
9.1&11.1,Table 7,8&9(l)	-	50	-
9.1&11.1,Table 7,8&9(Mass (Approx))	-	50	-
9.1&11.1,Table 10 to13(e)	-	50	-
9.1&11.1,Table 10 to13(r)	-	50	-
9.1&11.1,Table 10 to13(a)	-	50	-
9.1&11.1,Table 10 to13(b)	-	50	-
9.1&11.1,Table 10 to13(Mass (Approx))	-	50	-
9.1&11.1,Table 14(Nominal Diameter)	-	50	-
9.1&11.1,Table 14(e)	-	50	-
9.1&11.1,Table 14(e1)	-	50	-
9.1&11.1,Table 14(l)	-	50	-
9.1&11.1,Table 14(h)	-	50	-
9.1&11.1,Table 14(Mass (Approx))	-	50	-
9.1&11.1,Table 15(e)	-	50	-
9.1&11.1,Table 15(l)	-	50	-
9.1&11.1,Table 15(Nominal Diameter)	-	50	-
9.1&11.1,Table 15(e1)	-	50	-
9.1&11.1,Table 15(k)	-	50	-
9.1&11.1,Table 15(Mass (Approx))	-	50	-
9.1&11.1,Table 16(e)	-	50	-
9.1&11.1,Table 16(l)	-	50	-
9.1&11.1,Table 16(h)	-	50	-
9.1&11.1,Table 16(Mass (Approx))	-	50	-
9.1&11.1,Table 17(e1)	-	50	-
9.1&11.1,Table 17(l1)	-	50	-
9.1&11.1,Table 17(Nominal Diameter)	-	50	-
9.1&11.1,Table 17(e2)	-	50	-
9.1&11.1,Table 17(l2)	-	50	-
9.1&11.1,Table 17(l3)	-	50	-
9.1&11.1,Table 17(l)	-	50	-
9.1&11.1,Table 17(Mass)	-	50	-
9.1&11.1,Table 18(a)	-	50	-
9.1&11.1,Table 18(P)	-	50	-
9.1&11.1,Table 18(Mass (Approx))	-	50	-
9.1&11.1,Table 19(DC)	-	50	-
9.1&11.1,Table 19(e)	-	50	-
9.1&11.1,Table 19(a)	-	50	-
9.1&11.1,Table 19(l)	-	50	-
9.1&11.1,Table 19(Mass (Approx))	-	50	-
9.1&11.1,Table 20(DI)	-	50	-
9.1&11.1,Table 20(h)	-	50	-
9.1&11.1,Table 20(Mass (Approx))	-	50	-
9.1&11.1,Table 21(e)	-	50	-
9.1&11.1,Table 21(r)	-	50	-
9.1&11.1,Table 21(a)	-	50	-
9.1&11.1,Table 21(b)	-	50	-
9.1&11.1,Table 21(Mass (Approx))	-	50	-
9.1&11.1,Table 22(e)	-	50	-
9.1&11.1,Table 22(r)	-	50	-
9.1&11.1,Table 22(a)	-	50	-
9.1&11.1,Table 22(b)	-	50	-
9.1&11.1,Table 22(c)	-	50	-
9.1&11.1,Table 22(a)	-	50	-
9.1&11.1,Table 22(f)	-	50	-
9.1&11.1,Table 22(g)	-	50	-
9.1&11.1,Table 23(e)	-	50	-
9.1&11.1,Table 23(r)	-	50	-
9.1&11.1,Table 23(a)	-	50	-
9.1&11.1,Table 23(l)	-	50	-
9.1&11.1,Table 23(Mass (Approx))	-	50	-
9.1&11.1,Table 24(e)	-	50	-
9.1&11.1,Table 24(l)	-	50	-
9.1&11.1,Table 24(Nominal Diameter)	-	50	-
9.1&11.1,Table 24(e1)	-	50	-
9.1&11.1,Table 24(h)	-	50	-
9.1&11.1,Table 24(Mass (Approx))	-	50	-
9.1&11.1,Table 25(e)	-	50	-
9.1&11.1,Table 25(l)	-	50	-
9.1&11.1,Table 25(h)	-	50	-
9.1&11.1,Table 25(Mass (Approx))	-	50	-
9.1&11.1,Table 26(e1)	-	50	-
9.1&11.1,Table 26(h1)	-	50	-
9.1&11.1,Table 26(Nominal Diameter)	-	50	-
9.1&11.1,Table 26(e2)	-	50	-
9.1&11.1,Table 26(l2)	-	50	-
9.1&11.1,Table 26(l3)	-	50	-
9.1&11.1,Table 26(l)	-	50	-
9.1&11.1,Table 26(Mass (Approx))	-	50	-
9.1&11.1,Table 27(dn)	-	50	-
9.1&11.1,Table 27(e1)	-	50	-
9.1&11.1,Table 27(b)	-	50	-
9.1&11.1,Table 27(l3)	-	50	-
9.1&11.1,Table 27(l2)	-	50	-
9.1&11.1,Table 27(e2)	-	50	-
9.1&11.1,Table 27(r)	-	50	-
9.1&11.1,Table 27(a)	-	50	-
9.1&11.1,Table 27(l1)	-	50	-
9.1&11.1,Table 27(Mass)	-	50	-
9.1&11.1,Table 28(D)	-	50	-
9.1&11.1,Table 28(t)	-	50	-
9.1&11.1,Table 28(Mass (Approx))	-	50	-
12.1 to 12.7(Coating )	-	500	-
9.1,Table 2 & 3(DI)	-	50	-
4.1(The metal used for the manufacture of pipe shall be of a quality not less than that specified for grade FG 150 of IS 210 )	-	50	-
5.1(tensile strength)	-	1000	-
6.1(Brinell hardness tests)	-	1000	-
8(Hydrostatic Test)	-	1000	-
9.1,Table 2 & 3(P)	-	50	-
9.1,Table 2 & 3(g)	-	50	-
9.1,Table 2 & 3(h)	-	50	-
9.1,Table 2 & 3(K)	-	50	-
9.1,Table 2 & 3(L)	-	50	-
9.1,Table 2 & 3(M)	-	50	-
9.1,Table 2 & 3(N)	-	50	-
9.1,Table 2 & 3(f)	-	50	-
9.1,Table 4(D)	-	50	-
9.1,Table 4(a)	-	50	-
9.1,Table 4(b)	-	50	-
9.1,Table 4(s)	-	50	-
9.1,Table 4(r)	-	50	-
9.1,Table 5(D)	-	50	-
9.1,Table 5(g)	-	50	-
9.1,Table 5(a)	-	50	-
9.1,Table 5(b)	-	50	-
9.1,Table 5(c)	-	50	-
9.1,Table 5(f)	-	50	-
9.1,Table 5(s)	-	50	-
9.1,Table 5(C)	-	50	-
9.1,Table 5(Holes No)	-	50	-
9.1,Table 5(Holes diameter)	-	50	-
9.1,Table 5(Diameterof Bolts)	-	50	-
9.1,Table 6(D)	-	50	-
9.1,Table 6(C)	-	50	-
9.1,Table 6(Holes No)	-	50	-
9.1,Table 6(Holes diameter)	-	50	-
9.1,Table 6(Diameterof Bolts)	-	50	-
9.1&11.1,Table 7,8&9(e)	-	50	-
9.1&11.1,Table 7,8&9(l)	-	50	-
9.1&11.1,Table 7,8&9(Mass (Approx))	-	50	-
9.1&11.1,Table 10 to13(e)	-	50	-
9.1&11.1,Table 10 to13(r)	-	50	-
9.1&11.1,Table 10 to13(a)	-	50	-
9.1&11.1,Table 10 to13(b)	-	50	-
9.1&11.1,Table 10 to13(Mass (Approx))	-	50	-
9.1&11.1,Table 14(Nominal Diameter)	-	50	-
9.1&11.1,Table 14(e)	-	50	-
9.1&11.1,Table 14(e1)	-	50	-
9.1&11.1,Table 14(l)	-	50	-
9.1&11.1,Table 14(h)	-	50	-
9.1&11.1,Table 14(Mass (Approx))	-	50	-
9.1&11.1,Table 15(e)	-	50	-
9.1&11.1,Table 15(l)	-	50	-
9.1&11.1,Table 15(Nominal Diameter)	-	50	-
9.1&11.1,Table 15(e1)	-	50	-
9.1&11.1,Table 15(k)	-	50	-
9.1&11.1,Table 15(Mass (Approx))	-	50	-
9.1&11.1,Table 16(e)	-	50	-
9.1&11.1,Table 16(l)	-	50	-
9.1&11.1,Table 16(h)	-	50	-
9.1&11.1,Table 16(Mass (Approx))	-	50	-
9.1&11.1,Table 17(e1)	-	50	-
9.1&11.1,Table 17(l1)	-	50	-
9.1&11.1,Table 17(Nominal Diameter)	-	50	-
9.1&11.1,Table 17(e2)	-	50	-
9.1&11.1,Table 17(l2)	-	50	-
9.1&11.1,Table 17(l3)	-	50	-
9.1&11.1,Table 17(l)	-	50	-
9.1&11.1,Table 17(Mass)	-	50	-
9.1&11.1,Table 18(a)	-	50	-
9.1&11.1,Table 18(P)	-	50	-
9.1&11.1,Table 18(Mass (Approx))	-	50	-
9.1&11.1,Table 19(DC)	-	50	-
9.1&11.1,Table 19(e)	-	50	-
9.1&11.1,Table 19(a)	-	50	-
9.1&11.1,Table 19(l)	-	50	-
9.1&11.1,Table 19(Mass (Approx))	-	50	-
9.1&11.1,Table 20(DI)	-	50	-
9.1&11.1,Table 20(h)	-	50	-
9.1&11.1,Table 20(Mass (Approx))	-	50	-
9.1&11.1,Table 21(e)	-	50	-
9.1&11.1,Table 21(r)	-	50	-
9.1&11.1,Table 21(a)	-	50	-
9.1&11.1,Table 21(b)	-	50	-
9.1&11.1,Table 21(Mass (Approx))	-	50	-
9.1&11.1,Table 22(e)	-	50	-
9.1&11.1,Table 22(r)	-	50	-
9.1&11.1,Table 22(a)	-	50	-
9.1&11.1,Table 22(b)	-	50	-
9.1&11.1,Table 22(c)	-	50	-
9.1&11.1,Table 22(a)	-	50	-
9.1&11.1,Table 22(f)	-	50	-
9.1&11.1,Table 22(g)	-	50	-
9.1&11.1,Table 23(e)	-	50	-
9.1&11.1,Table 23(r)	-	50	-
9.1&11.1,Table 23(a)	-	50	-
9.1&11.1,Table 23(l)	-	50	-
9.1&11.1,Table 23(Mass (Approx))	-	50	-
9.1&11.1,Table 24(e)	-	50	-
9.1&11.1,Table 24(l)	-	50	-
9.1&11.1,Table 24(Nominal Diameter)	-	50	-
9.1&11.1,Table 24(e1)	-	50	-
9.1&11.1,Table 24(h)	-	50	-
9.1&11.1,Table 24(Mass (Approx))	-	50	-
9.1&11.1,Table 25(e)	-	50	-
9.1&11.1,Table 25(l)	-	50	-
9.1&11.1,Table 25(h)	-	50	-
9.1&11.1,Table 25(Mass (Approx))	-	50	-
9.1&11.1,Table 26(e1)	-	50	-
9.1&11.1,Table 26(h1)	-	50	-
9.1&11.1,Table 26(Nominal Diameter)	-	50	-
9.1&11.1,Table 26(e2)	-	50	-
9.1&11.1,Table 26(l2)	-	50	-
9.1&11.1,Table 26(l3)	-	50	-
9.1&11.1,Table 26(l)	-	50	-
9.1&11.1,Table 26(Mass (Approx))	-	50	-
9.1&11.1,Table 27(dn)	-	50	-
9.1&11.1,Table 27(e1)	-	50	-
9.1&11.1,Table 27(b)	-	50	-
9.1&11.1,Table 27(l3)	-	50	-
9.1&11.1,Table 27(l2)	-	50	-
9.1&11.1,Table 27(e2)	-	50	-
9.1&11.1,Table 27(r)	-	50	-
9.1&11.1,Table 27(a)	-	50	-
9.1&11.1,Table 27(l1)	-	50	-
9.1&11.1,Table 27(Mass)	-	50	-
9.1&11.1,Table 28(D)	-	50	-
9.1&11.1,Table 28(t)	-	50	-
9.1&11.1,Table 28(Mass (Approx))	-	50	-
12.1 to 12.7(Coating )	-	1000	-
4.1(The metal used for the manufacture of pipe shall be of a quality not less than that specified for grade FG 150 of IS 210 )	-	50	-
5.1(tensile strength)	-	1000	-
6.1(Brinell hardness tests)	-	1000	-
8(Hydrostatic Test)	-	100	-
9.1,Table 2 & 3(DI)	-	100	-
9.1,Table 2 & 3(P)	-	100	-
9.1,Table 2 & 3(g)	-	100	-
9.1,Table 2 & 3(h)	-	500	-
9.1,Table 2 & 3(K)	-	500	-
9.1,Table 2 & 3(L)	-	500	-
9.1,Table 2 & 3(M)	-	500	-
9.1,Table 2 & 3(N)	-	500	-
9.1,Table 2 & 3(f)	-	500	-
9.1,Table 4(D)	-	500	-
9.1,Table 4(a)	-	500	-
9.1,Table 4(b)	-	500	-
9.1,Table 4(s)	-	500	-
9.1,Table 4(r)	-	500	-
9.1,Table 5(D)	-	500	-
9.1,Table 5(g)	-	500	-
9.1,Table 5(a)	-	500	-
9.1,Table 5(b)	-	500	-
9.1,Table 5(c)	-	500	-
9.1,Table 5(f)	-	500	-
9.1,Table 5(s)	-	500	-
9.1,Table 5(C)	-	500	-
9.1,Table 5(Holes No)	-	500	-
9.1,Table 5(Holes diameter)	-	500	-
9.1,Table 5(Diameterof Bolts)	-	500	-
9.1,Table 6(D)	-	500	-
9.1,Table 6(C)	-	500	-
9.1,Table 6(Holes No)	-	500	-
9.1,Table 6(Holes diameter)	-	500	-
9.1,Table 6(Diameterof Bolts)	-	500	-
9.1&11.1,Table 7,8&9(e)	-	500	-
9.1&11.1,Table 7,8&9(l)	-	500	-
9.1&11.1,Table 7,8&9(Mass (Approx))	-	500	-
9.1&11.1,Table 10 to13(e)	-	500	-
9.1&11.1,Table 10 to13(r)	-	500	-
9.1&11.1,Table 10 to13(a)	-	500	-
9.1&11.1,Table 10 to13(b)	-	500	-
9.1&11.1,Table 10 to13(Mass (Approx))	-	500	-
9.1&11.1,Table 14(Nominal Diameter)	-	500	-
9.1&11.1,Table 14(e)	-	500	-
9.1&11.1,Table 14(e1)	-	500	-
9.1&11.1,Table 14(l)	-	500	-
9.1&11.1,Table 14(h)	-	500	-
9.1&11.1,Table 14(Mass (Approx))	-	500	-
9.1&11.1,Table 15(e)	-	500	-
9.1&11.1,Table 15(l)	-	500	-
9.1&11.1,Table 15(Nominal Diameter)	-	500	-
9.1&11.1,Table 15(e1)	-	500	-
9.1&11.1,Table 15(k)	-	500	-
9.1&11.1,Table 15(Mass (Approx))	-	500	-
9.1&11.1,Table 16(e)	-	500	-
9.1&11.1,Table 16(l)	-	500	-
9.1&11.1,Table 16(h)	-	500	-
9.1&11.1,Table 16(Mass (Approx))	-	500	-
9.1&11.1,Table 17(e1)	-	500	-
9.1&11.1,Table 17(l1)	-	500	-
9.1&11.1,Table 17(Nominal Diameter)	-	500	-
9.1&11.1,Table 17(e2)	-	500	-
9.1&11.1,Table 17(l2)	-	500	-
9.1&11.1,Table 17(l3)	-	50	-
9.1&11.1,Table 17(l)	-	50	-
9.1&11.1,Table 17(Mass)	-	50	-
9.1&11.1,Table 18(a)	-	50	-
9.1&11.1,Table 18(P)	-	50	-
9.1&11.1,Table 18(Mass (Approx))	-	50	-
9.1&11.1,Table 19(DC)	-	50	-
9.1&11.1,Table 19(e)	-	50	-
9.1&11.1,Table 19(a)	-	50	-
9.1&11.1,Table 19(l)	-	50	-
9.1&11.1,Table 19(Mass (Approx))	-	50	-
9.1&11.1,Table 20(DI)	-	50	-
9.1&11.1,Table 20(h)	-	50	-
9.1&11.1,Table 20(Mass (Approx))	-	50	-
9.1&11.1,Table 21(e)	-	50	-
9.1&11.1,Table 21(r)	-	50	-
9.1&11.1,Table 21(a)	-	50	-
9.1&11.1,Table 21(b)	-	50	-
9.1&11.1,Table 21(Mass (Approx))	-	50	-
9.1&11.1,Table 22(e)	-	50	-
9.1&11.1,Table 22(r)	-	50	-
9.1&11.1,Table 22(a)	-	50	-
9.1&11.1,Table 22(b)	-	50	-
9.1&11.1,Table 22(c)	-	50	-
9.1&11.1,Table 22(a)	-	50	-
9.1&11.1,Table 22(f)	-	50	-
9.1&11.1,Table 22(g)	-	50	-
9.1&11.1,Table 23(e)	-	50	-
9.1&11.1,Table 23(r)	-	50	-
9.1&11.1,Table 23(a)	-	50	-
9.1&11.1,Table 23(l)	-	50	-
9.1&11.1,Table 23(Mass (Approx))	-	50	-
9.1&11.1,Table 24(e)	-	50	-
9.1&11.1,Table 24(l)	-	50	-
9.1&11.1,Table 24(Nominal Diameter)	-	50	-
9.1&11.1,Table 24(e1)	-	50	-
9.1&11.1,Table 24(h)	-	50	-
9.1&11.1,Table 24(Mass (Approx))	-	50	-
9.1&11.1,Table 25(e)	-	50	-
9.1&11.1,Table 25(l)	-	50	-
9.1&11.1,Table 25(h)	-	50	-
9.1&11.1,Table 25(Mass (Approx))	-	50	-
9.1&11.1,Table 26(e1)	-	50	-
9.1&11.1,Table 26(h1)	-	50	-
9.1&11.1,Table 26(Nominal Diameter)	-	50	-
9.1&11.1,Table 26(e2)	-	50	-
9.1&11.1,Table 26(l2)	-	50	-
9.1&11.1,Table 26(l3)	-	50	-
9.1&11.1,Table 26(l)	-	50	-
9.1&11.1,Table 26(Mass (Approx))	-	50	-
9.1&11.1,Table 27(dn)	-	50	-
9.1&11.1,Table 27(e1)	-	50	-
9.1&11.1,Table 27(b)	-	50	-
9.1&11.1,Table 27(l3)	-	50	-
9.1&11.1,Table 27(l2)	-	50	-
9.1&11.1,Table 27(e2)	-	50	-
9.1&11.1,Table 27(r)	-	50	-
9.1&11.1,Table 27(a)	-	50	-
9.1&11.1,Table 27(l1)	-	50	-
9.1&11.1,Table 27(Mass)	-	50	-
9.1&11.1,Table 28(D)	-	50	-
9.1&11.1,Table 28(t)	-	50	-
9.1&11.1,Table 28(Mass (Approx))	-	50	-
12.1 to 12.7(Coating )	-	1000	-
9.1,Table 2 & 3(DI)	-	50	-
4.1(The metal used for the manufacture of pipe shall be of a quality not less than that specified for grade FG 150 of IS 210 )	-	0	-
5.1(tensile strength)	-	1000	-
6.1(Brinell hardness tests)	-	1000	-
8(Hydrostatic Test)	-	1000	-
9.1,Table 2 & 3(P)	-	50	-
9.1,Table 2 & 3(g)	-	50	-
9.1,Table 2 & 3(h)	-	50	-
9.1,Table 2 & 3(K)	-	50	-
9.1,Table 2 & 3(L)	-	50	-
9.1,Table 2 & 3(M)	-	50	-
9.1,Table 2 & 3(N)	-	50	-
9.1,Table 2 & 3(f)	-	50	-
9.1,Table 4(D)	-	50	-
9.1,Table 4(a)	-	50	-
9.1,Table 4(b)	-	50	-
9.1,Table 4(s)	-	50	-
9.1,Table 4(r)	-	50	-
9.1,Table 5(D)	-	50	-
9.1,Table 5(g)	-	50	-
9.1,Table 5(a)	-	50	-
9.1,Table 5(b)	-	50	-
9.1,Table 5(c)	-	50	-
9.1,Table 5(f)	-	50	-
9.1,Table 5(s)	-	50	-
9.1,Table 5(C)	-	50	-
9.1,Table 5(Holes No)	-	50	-
9.1,Table 5(Holes diameter)	-	50	-
9.1,Table 5(Diameterof Bolts)	-	50	-
9.1,Table 6(D)	-	50	-
9.1,Table 6(C)	-	50	-
9.1,Table 6(Holes No)	-	50	-
9.1,Table 6(Holes diameter)	-	50	-
9.1,Table 6(Diameterof Bolts)	-	50	-
9.1&11.1,Table 7,8&9(e)	-	50	-
9.1&11.1,Table 7,8&9(l)	-	50	-
9.1&11.1,Table 7,8&9(Mass (Approx))	-	50	-
9.1&11.1,Table 10 to13(e)	-	50	-
9.1&11.1,Table 10 to13(r)	-	50	-
9.1&11.1,Table 10 to13(a)	-	50	-
9.1&11.1,Table 10 to13(b)	-	50	-
9.1&11.1,Table 10 to13(Mass (Approx))	-	50	-
9.1&11.1,Table 14(Nominal Diameter)	-	50	-
9.1&11.1,Table 14(e)	-	50	-
9.1&11.1,Table 14(e1)	-	50	-
9.1&11.1,Table 14(l)	-	50	-
9.1&11.1,Table 14(h)	-	50	-
9.1&11.1,Table 14(Mass (Approx))	-	50	-
9.1&11.1,Table 15(e)	-	50	-
9.1&11.1,Table 15(l)	-	50	-
9.1&11.1,Table 15(Nominal Diameter)	-	50	-
9.1&11.1,Table 15(e1)	-	50	-
9.1&11.1,Table 15(k)	-	50	-
9.1&11.1,Table 15(Mass (Approx))	-	50	-
9.1&11.1,Table 16(e)	-	50	-
9.1&11.1,Table 16(l)	-	50	-
9.1&11.1,Table 16(h)	-	50	-
9.1&11.1,Table 16(Mass (Approx))	-	50	-
9.1&11.1,Table 17(e1)	-	50	-
9.1&11.1,Table 17(l1)	-	50	-
9.1&11.1,Table 17(Nominal Diameter)	-	50	-
9.1&11.1,Table 17(e2)	-	50	-
9.1&11.1,Table 17(l2)	-	50	-
9.1&11.1,Table 17(l3)	-	50	-
9.1&11.1,Table 17(l)	-	50	-
9.1&11.1,Table 17(Mass)	-	50	-
9.1&11.1,Table 18(a)	-	50	-
9.1&11.1,Table 18(P)	-	50	-
9.1&11.1,Table 18(Mass (Approx))	-	50	-
9.1&11.1,Table 19(DC)	-	50	-
9.1&11.1,Table 19(e)	-	50	-
9.1&11.1,Table 19(a)	-	50	-
9.1&11.1,Table 19(l)	-	50	-
9.1&11.1,Table 19(Mass (Approx))	-	50	-
9.1&11.1,Table 20(DI)	-	50	-
9.1&11.1,Table 20(h)	-	50	-
9.1&11.1,Table 20(Mass (Approx))	-	50	-
9.1&11.1,Table 21(e)	-	50	-
9.1&11.1,Table 21(r)	-	50	-
9.1&11.1,Table 21(a)	-	50	-
9.1&11.1,Table 21(b)	-	50	-
9.1&11.1,Table 21(Mass (Approx))	-	50	-
9.1&11.1,Table 22(e)	-	50	-
9.1&11.1,Table 22(r)	-	50	-
9.1&11.1,Table 22(a)	-	50	-
9.1&11.1,Table 22(b)	-	50	-
9.1&11.1,Table 22(c)	-	50	-
9.1&11.1,Table 22(a)	-	50	-
9.1&11.1,Table 22(f)	-	50	-
9.1&11.1,Table 22(g)	-	50	-
9.1&11.1,Table 23(e)	-	50	-
9.1&11.1,Table 23(r)	-	50	-
9.1&11.1,Table 23(a)	-	50	-
9.1&11.1,Table 23(l)	-	50	-
9.1&11.1,Table 23(Mass (Approx))	-	50	-
9.1&11.1,Table 24(e)	-	50	-
9.1&11.1,Table 24(l)	-	50	-
9.1&11.1,Table 24(Nominal Diameter)	-	50	-
9.1&11.1,Table 24(e1)	-	50	-
9.1&11.1,Table 24(h)	-	50	-
9.1&11.1,Table 24(Mass (Approx))	-	50	-
9.1&11.1,Table 25(e)	-	50	-
9.1&11.1,Table 25(l)	-	50	-
9.1&11.1,Table 25(h)	-	50	-
9.1&11.1,Table 25(Mass (Approx))	-	50	-
9.1&11.1,Table 26(e1)	-	50	-
9.1&11.1,Table 26(h1)	-	50	-
9.1&11.1,Table 26(Nominal Diameter)	-	50	-
9.1&11.1,Table 26(e2)	-	50	-
9.1&11.1,Table 26(l2)	-	50	-
9.1&11.1,Table 26(l3)	-	50	-
9.1&11.1,Table 26(l)	-	50	-
9.1&11.1,Table 26(Mass (Approx))	-	50	-
9.1&11.1,Table 27(dn)	-	50	-
9.1&11.1,Table 27(e1)	-	50	-
9.1&11.1,Table 27(b)	-	50	-
9.1&11.1,Table 27(l3)	-	50	-
9.1&11.1,Table 27(l2)	-	50	-
9.1&11.1,Table 27(e2)	-	50	-
9.1&11.1,Table 27(r)	-	50	-
9.1&11.1,Table 27(a)	-	50	-
9.1&11.1,Table 27(l1)	-	50	-
9.1&11.1,Table 27(Mass)	-	50	-
9.1&11.1,Table 28(D)	-	50	-
9.1&11.1,Table 28(t)	-	50	-
9.1&11.1,Table 28(Mass (Approx))	-	50	-
12.1 to 12.7(Coating )	-	500	-
4.1(The metal used for the manufacture of pipe shall be of a quality not less than that specified for grade FG 150 of IS 210 )	-	50	-
5.1(tensile strength)	-	1000	-
6.1(Brinell hardness tests)	-	1000	-
8(Hydrostatic Test)	-	1000	-
9.1,Table 2 & 3(DI)	-	50	-
9.1,Table 2 & 3(P)	-	50	-
9.1,Table 2 & 3(g)	-	50	-
9.1,Table 2 & 3(h)	-	50	-
9.1,Table 2 & 3(K)	-	50	-
9.1,Table 2 & 3(L)	-	50	-
9.1,Table 2 & 3(M)	-	50	-
9.1,Table 2 & 3(N)	-	50	-
9.1,Table 2 & 3(f)	-	50	-
9.1,Table 4(D)	-	50	-
9.1,Table 4(a)	-	50	-
9.1,Table 4(b)	-	50	-
9.1,Table 4(s)	-	50	-
9.1,Table 4(r)	-	50	-
9.1,Table 5(D)	-	50	-
9.1,Table 5(g)	-	50	-
9.1,Table 5(a)	-	50	-
9.1,Table 5(b)	-	50	-
9.1,Table 5(c)	-	50	-
9.1,Table 5(f)	-	50	-
9.1,Table 5(s)	-	50	-
9.1,Table 5(C)	-	50	-
9.1,Table 5(Holes No)	-	50	-
9.1,Table 5(Holes diameter)	-	50	-
9.1,Table 5(Diameterof Bolts)	-	50	-
9.1,Table 6(D)	-	50	-
9.1,Table 6(C)	-	50	-
9.1,Table 6(Holes No)	-	50	-
9.1,Table 6(Holes diameter)	-	50	-
9.1,Table 6(Diameterof Bolts)	-	50	-
9.1&11.1,Table 7,8&9(e)	-	50	-
9.1&11.1,Table 7,8&9(l)	-	50	-
9.1&11.1,Table 7,8&9(Mass (Approx))	-	50	-
9.1&11.1,Table 10 to13(e)	-	50	-
9.1&11.1,Table 10 to13(r)	-	50	-
9.1&11.1,Table 10 to13(a)	-	50	-
9.1&11.1,Table 10 to13(b)	-	50	-
9.1&11.1,Table 10 to13(Mass (Approx))	-	50	-
9.1&11.1,Table 14(Nominal Diameter)	-	50	-
9.1&11.1,Table 14(e)	-	50	-
9.1&11.1,Table 14(e1)	-	50	-
9.1&11.1,Table 14(l)	-	50	-
9.1&11.1,Table 14(h)	-	50	-
9.1&11.1,Table 14(Mass (Approx))	-	50	-
9.1&11.1,Table 15(e)	-	50	-
9.1&11.1,Table 15(l)	-	50	-
9.1&11.1,Table 15(Nominal Diameter)	-	50	-
9.1&11.1,Table 15(e1)	-	50	-
9.1&11.1,Table 15(k)	-	50	-
9.1&11.1,Table 15(Mass (Approx))	-	50	-
9.1&11.1,Table 16(e)	-	50	-
9.1&11.1,Table 16(l)	-	50	-
9.1&11.1,Table 16(h)	-	50	-
9.1&11.1,Table 16(Mass (Approx))	-	50	-
9.1&11.1,Table 17(e1)	-	50	-
9.1&11.1,Table 17(l1)	-	50	-
9.1&11.1,Table 17(Nominal Diameter)	-	50	-
9.1&11.1,Table 17(e2)	-	50	-
9.1&11.1,Table 17(l2)	-	50	-
9.1&11.1,Table 17(l3)	-	50	-
9.1&11.1,Table 17(l)	-	50	-
9.1&11.1,Table 17(Mass)	-	50	-
9.1&11.1,Table 18(a)	-	50	-
9.1&11.1,Table 18(P)	-	50	-
9.1&11.1,Table 18(Mass (Approx))	-	50	-
9.1&11.1,Table 19(DC)	-	50	-
9.1&11.1,Table 19(e)	-	50	-
9.1&11.1,Table 19(a)	-	50	-
9.1&11.1,Table 19(l)	-	50	-
9.1&11.1,Table 19(Mass (Approx))	-	50	-
9.1&11.1,Table 20(DI)	-	50	-
9.1&11.1,Table 20(h)	-	50	-
9.1&11.1,Table 20(Mass (Approx))	-	50	-
9.1&11.1,Table 21(e)	-	50	-
9.1&11.1,Table 21(r)	-	50	-
9.1&11.1,Table 21(a)	-	50	-
9.1&11.1,Table 21(b)	-	50	-
9.1&11.1,Table 21(Mass (Approx))	-	50	-
9.1&11.1,Table 22(e)	-	50	-
9.1&11.1,Table 22(r)	-	50	-
9.1&11.1,Table 22(a)	-	50	-
9.1&11.1,Table 22(b)	-	50	-
9.1&11.1,Table 22(c)	-	50	-
9.1&11.1,Table 22(a)	-	50	-
9.1&11.1,Table 22(f)	-	50	-
9.1&11.1,Table 22(g)	-	50	-
9.1&11.1,Table 23(e)	-	50	-
9.1&11.1,Table 23(r)	-	50	-
9.1&11.1,Table 23(a)	-	50	-
9.1&11.1,Table 23(l)	-	50	-
9.1&11.1,Table 23(Mass (Approx))	-	50	-
9.1&11.1,Table 24(e)	-	50	-
9.1&11.1,Table 24(l)	-	50	-
9.1&11.1,Table 24(Nominal Diameter)	-	50	-
9.1&11.1,Table 24(e1)	-	50	-
9.1&11.1,Table 24(h)	-	50	-
9.1&11.1,Table 24(Mass (Approx))	-	50	-
9.1&11.1,Table 25(e)	-	50	-
9.1&11.1,Table 25(l)	-	50	-
9.1&11.1,Table 25(h)	-	50	-
9.1&11.1,Table 25(Mass (Approx))	-	50	-
9.1&11.1,Table 26(e1)	-	50	-
9.1&11.1,Table 26(h1)	-	50	-
9.1&11.1,Table 26(Nominal Diameter)	-	50	-
9.1&11.1,Table 26(e2)	-	50	-
9.1&11.1,Table 26(l2)	-	50	-
9.1&11.1,Table 26(l3)	-	50	-
9.1&11.1,Table 26(l)	-	50	-
9.1&11.1,Table 26(Mass (Approx))	-	50	-
9.1&11.1,Table 27(dn)	-	50	-
9.1&11.1,Table 27(e1)	-	50	-
9.1&11.1,Table 27(b)	-	50	-
9.1&11.1,Table 27(l3)	-	50	-
9.1&11.1,Table 27(l2)	-	50	-
9.1&11.1,Table 27(e2)	-	50	-
9.1&11.1,Table 27(r)	-	50	-
9.1&11.1,Table 27(a)	-	50	-
9.1&11.1,Table 27(l1)	-	50	-
9.1&11.1,Table 27(Mass)	-	50	-
9.1&11.1,Table 28(D)	-	50	-
9.1&11.1,Table 28(t)	-	50	-
9.1&11.1,Table 28(Mass (Approx))	-	50	-
12.1 to 12.7(Coating )	-	500	-
9.1,Table 2 & 3(DI)	-	50	-
4.1(The metal used for the manufacture of pipe shall be of a quality not less than that specified for grade FG 150 of IS 210 )	-	50	-
5.1(tensile strength)	-	1000	-
6.1(Brinell hardness tests)	-	1000	-
8(Hydrostatic Test)	-	1000	-
9.1,Table 2 & 3(P)	-	50	-
9.1,Table 2 & 3(g)	-	50	-
9.1,Table 2 & 3(h)	-	50	-
9.1,Table 2 & 3(K)	-	50	-
9.1,Table 2 & 3(L)	-	50	-
9.1,Table 2 & 3(M)	-	50	-
9.1,Table 2 & 3(N)	-	50	-
9.1,Table 2 & 3(f)	-	50	-
9.1,Table 4(D)	-	50	-
9.1,Table 4(a)	-	50	-
9.1,Table 4(b)	-	50	-
9.1,Table 4(s)	-	50	-
9.1,Table 4(r)	-	50	-
9.1,Table 5(D)	-	50	-
9.1,Table 5(g)	-	50	-
9.1,Table 5(a)	-	50	-
9.1,Table 5(b)	-	50	-
9.1,Table 5(c)	-	50	-
9.1,Table 5(f)	-	50	-
9.1,Table 5(s)	-	50	-
9.1,Table 5(C)	-	50	-
9.1,Table 5(Holes No)	-	50	-
9.1,Table 5(Holes diameter)	-	50	-
9.1,Table 5(Diameterof Bolts)	-	50	-
9.1,Table 6(D)	-	50	-
9.1,Table 6(C)	-	50	-
9.1,Table 6(Holes No)	-	50	-
9.1,Table 6(Holes diameter)	-	50	-
9.1,Table 6(Diameterof Bolts)	-	50	-
9.1&11.1,Table 7,8&9(e)	-	50	-
9.1&11.1,Table 7,8&9(l)	-	50	-
9.1&11.1,Table 7,8&9(Mass (Approx))	-	50	-
9.1&11.1,Table 10 to13(e)	-	50	-
9.1&11.1,Table 10 to13(r)	-	50	-
9.1&11.1,Table 10 to13(a)	-	50	-
9.1&11.1,Table 10 to13(b)	-	50	-
9.1&11.1,Table 10 to13(Mass (Approx))	-	50	-
9.1&11.1,Table 14(Nominal Diameter)	-	50	-
9.1&11.1,Table 14(e)	-	50	-
9.1&11.1,Table 14(e1)	-	50	-
9.1&11.1,Table 14(l)	-	50	-
9.1&11.1,Table 14(h)	-	50	-
9.1&11.1,Table 14(Mass (Approx))	-	50	-
9.1&11.1,Table 15(e)	-	50	-
9.1&11.1,Table 15(l)	-	50	-
9.1&11.1,Table 15(Nominal Diameter)	-	50	-
9.1&11.1,Table 15(e1)	-	50	-
9.1&11.1,Table 15(k)	-	50	-
9.1&11.1,Table 15(Mass (Approx))	-	50	-
9.1&11.1,Table 16(e)	-	50	-
9.1&11.1,Table 16(l)	-	50	-
9.1&11.1,Table 16(h)	-	50	-
9.1&11.1,Table 16(Mass (Approx))	-	50	-
9.1&11.1,Table 17(e1)	-	50	-
9.1&11.1,Table 17(l1)	-	50	-
9.1&11.1,Table 17(Nominal Diameter)	-	50	-
9.1&11.1,Table 17(e2)	-	50	-
9.1&11.1,Table 17(l2)	-	50	-
9.1&11.1,Table 17(l3)	-	50	-
9.1&11.1,Table 17(l)	-	50	-
9.1&11.1,Table 17(Mass)	-	50	-
9.1&11.1,Table 18(a)	-	50	-
9.1&11.1,Table 18(P)	-	50	-
9.1&11.1,Table 18(Mass (Approx))	-	50	-
9.1&11.1,Table 19(DC)	-	50	-
9.1&11.1,Table 19(e)	-	50	-
9.1&11.1,Table 19(a)	-	50	-
9.1&11.1,Table 19(l)	-	50	-
9.1&11.1,Table 19(Mass (Approx))	-	50	-
9.1&11.1,Table 20(DI)	-	50	-
9.1&11.1,Table 20(h)	-	50	-
9.1&11.1,Table 20(Mass (Approx))	-	50	-
9.1&11.1,Table 21(e)	-	50	-
9.1&11.1,Table 21(r)	-	50	-
9.1&11.1,Table 21(a)	-	50	-
9.1&11.1,Table 21(b)	-	50	-
9.1&11.1,Table 21(Mass (Approx))	-	50	-
9.1&11.1,Table 22(e)	-	50	-
9.1&11.1,Table 22(r)	-	50	-
9.1&11.1,Table 22(a)	-	50	-
9.1&11.1,Table 22(b)	-	50	-
9.1&11.1,Table 22(c)	-	50	-
9.1&11.1,Table 22(a)	-	50	-
9.1&11.1,Table 22(f)	-	50	-
9.1&11.1,Table 22(g)	-	50	-
9.1&11.1,Table 23(e)	-	50	-
9.1&11.1,Table 23(r)	-	50	-
9.1&11.1,Table 23(a)	-	50	-
9.1&11.1,Table 23(l)	-	50	-
9.1&11.1,Table 23(Mass (Approx))	-	50	-
9.1&11.1,Table 24(e)	-	50	-
9.1&11.1,Table 24(l)	-	50	-
9.1&11.1,Table 24(Nominal Diameter)	-	50	-
9.1&11.1,Table 24(e1)	-	50	-
9.1&11.1,Table 24(h)	-	50	-
9.1&11.1,Table 24(Mass (Approx))	-	50	-
9.1&11.1,Table 25(e)	-	50	-
9.1&11.1,Table 25(l)	-	50	-
9.1&11.1,Table 25(h)	-	50	-
9.1&11.1,Table 25(Mass (Approx))	-	50	-
9.1&11.1,Table 26(e1)	-	50	-
9.1&11.1,Table 26(h1)	-	50	-
9.1&11.1,Table 26(Nominal Diameter)	-	50	-
9.1&11.1,Table 26(e2)	-	50	-
9.1&11.1,Table 26(l2)	-	50	-
9.1&11.1,Table 26(l3)	-	50	-
9.1&11.1,Table 26(l)	-	50	-
9.1&11.1,Table 26(Mass (Approx))	-	50	-
9.1&11.1,Table 27(dn)	-	50	-
9.1&11.1,Table 27(e1)	-	50	-
9.1&11.1,Table 27(b)	-	50	-
9.1&11.1,Table 27(l3)	-	50	-
9.1&11.1,Table 27(l2)	-	50	-
9.1&11.1,Table 27(e2)	-	50	-
9.1&11.1,Table 27(r)	-	50	-
9.1&11.1,Table 27(a)	-	50	-
9.1&11.1,Table 27(l1)	-	50	-
9.1&11.1,Table 27(Mass)	-	50	-
9.1&11.1,Table 28(D)	-	50	-
9.1&11.1,Table 28(t)	-	50	-
9.1&11.1,Table 28(Mass (Approx))	-	50	-
12.1 to 12.7(Coating )	-	50	-
4.1(The metal used for the manufacture of pipe shall be of a quality not less than that specified for grade FG 150 of IS 210 )	-	50	-
5.1(tensile strength)	-	1000	-
6.1(Brinell hardness tests)	-	1000	-
8(Hydrostatic Test)	-	1000	-
9.1,Table 2 & 3(DI)	-	50	-
9.1,Table 2 & 3(P)	-	50	-
9.1,Table 2 & 3(g)	-	50	-
9.1,Table 2 & 3(h)	-	50	-
9.1,Table 2 & 3(K)	-	50	-
9.1,Table 2 & 3(L)	-	50	-
9.1,Table 2 & 3(M)	-	50	-
9.1,Table 2 & 3(N)	-	50	-
9.1,Table 2 & 3(f)	-	50	-
9.1,Table 4(D)	-	50	-
9.1,Table 4(a)	-	50	-
9.1,Table 4(b)	-	50	-
9.1,Table 4(s)	-	50	-
9.1,Table 4(r)	-	50	-
9.1,Table 5(D)	-	50	-
9.1,Table 5(g)	-	50	-
9.1,Table 5(a)	-	50	-
9.1,Table 5(b)	-	50	-
9.1,Table 5(c)	-	50	-
9.1,Table 5(f)	-	50	-
9.1,Table 5(s)	-	50	-
9.1,Table 5(C)	-	50	-
9.1,Table 5(Holes No)	-	50	-
9.1,Table 5(Holes diameter)	-	50	-
9.1,Table 5(Diameterof Bolts)	-	50	-
9.1,Table 6(D)	-	50	-
9.1,Table 6(C)	-	50	-
9.1,Table 6(Holes No)	-	50	-
9.1,Table 6(Holes diameter)	-	50	-
9.1,Table 6(Diameterof Bolts)	-	50	-
9.1&11.1,Table 7,8&9(e)	-	50	-
9.1&11.1,Table 7,8&9(l)	-	50	-
9.1&11.1,Table 7,8&9(Mass (Approx))	-	50	-
9.1&11.1,Table 10 to13(e)	-	50	-
9.1&11.1,Table 10 to13(r)	-	50	-
9.1&11.1,Table 10 to13(a)	-	50	-
9.1&11.1,Table 10 to13(b)	-	50	-
9.1&11.1,Table 10 to13(Mass (Approx))	-	50	-
9.1&11.1,Table 14(Nominal Diameter)	-	50	-
9.1&11.1,Table 14(e)	-	50	-
9.1&11.1,Table 14(e1)	-	50	-
9.1&11.1,Table 14(l)	-	50	-
9.1&11.1,Table 14(h)	-	50	-
9.1&11.1,Table 14(Mass (Approx))	-	50	-
9.1&11.1,Table 15(e)	-	50	-
9.1&11.1,Table 15(l)	-	50	-
9.1&11.1,Table 15(Nominal Diameter)	-	50	-
9.1&11.1,Table 15(e1)	-	50	-
9.1&11.1,Table 15(k)	-	50	-
9.1&11.1,Table 15(Mass (Approx))	-	50	-
9.1&11.1,Table 16(e)	-	50	-
9.1&11.1,Table 16(l)	-	50	-
9.1&11.1,Table 16(h)	-	50	-
9.1&11.1,Table 16(Mass (Approx))	-	50	-
9.1&11.1,Table 17(e1)	-	50	-
9.1&11.1,Table 17(l1)	-	50	-
9.1&11.1,Table 17(Nominal Diameter)	-	50	-
9.1&11.1,Table 17(e2)	-	50	-
9.1&11.1,Table 17(l2)	-	50	-
9.1&11.1,Table 17(l3)	-	50	-
9.1&11.1,Table 17(l)	-	50	-
9.1&11.1,Table 17(Mass)	-	50	-
9.1&11.1,Table 18(a)	-	50	-
9.1&11.1,Table 18(P)	-	50	-
9.1&11.1,Table 18(Mass (Approx))	-	50	-
9.1&11.1,Table 19(DC)	-	50	-
9.1&11.1,Table 19(e)	-	50	-
9.1&11.1,Table 19(a)	-	50	-
9.1&11.1,Table 19(l)	-	50	-
9.1&11.1,Table 19(Mass (Approx))	-	50	-
9.1&11.1,Table 20(DI)	-	50	-
9.1&11.1,Table 20(h)	-	50	-
9.1&11.1,Table 20(Mass (Approx))	-	50	-
9.1&11.1,Table 21(e)	-	50	-
9.1&11.1,Table 21(r)	-	50	-
9.1&11.1,Table 21(a)	-	50	-
9.1&11.1,Table 21(b)	-	50	-
9.1&11.1,Table 21(Mass (Approx))	-	50	-
9.1&11.1,Table 22(e)	-	50	-
9.1&11.1,Table 22(r)	-	50	-
9.1&11.1,Table 22(a)	-	50	-
9.1&11.1,Table 22(b)	-	50	-
9.1&11.1,Table 22(c)	-	50	-
9.1&11.1,Table 22(a)	-	50	-
9.1&11.1,Table 22(f)	-	50	-
9.1&11.1,Table 22(g)	-	50	-
9.1&11.1,Table 23(e)	-	50	-
9.1&11.1,Table 23(r)	-	50	-
9.1&11.1,Table 23(a)	-	50	-
9.1&11.1,Table 23(l)	-	50	-
9.1&11.1,Table 23(Mass (Approx))	-	50	-
9.1&11.1,Table 24(e)	-	50	-
9.1&11.1,Table 24(l)	-	50	-
9.1&11.1,Table 24(Nominal Diameter)	-	50	-
9.1&11.1,Table 24(e1)	-	50	-
9.1&11.1,Table 24(h)	-	50	-
9.1&11.1,Table 24(Mass (Approx))	-	50	-
9.1&11.1,Table 25(e)	-	50	-
9.1&11.1,Table 25(l)	-	50	-
9.1&11.1,Table 25(h)	-	50	-
9.1&11.1,Table 25(Mass (Approx))	-	50	-
9.1&11.1,Table 26(e1)	-	50	-
9.1&11.1,Table 26(h1)	-	50	-
9.1&11.1,Table 26(Nominal Diameter)	-	50	-
9.1&11.1,Table 26(e2)	-	50	-
9.1&11.1,Table 26(l2)	-	50	-
9.1&11.1,Table 26(l3)	-	50	-
9.1&11.1,Table 26(l)	-	50	-
9.1&11.1,Table 26(Mass (Approx))	-	50	-
9.1&11.1,Table 27(dn)	-	50	-
9.1&11.1,Table 27(e1)	-	50	-
9.1&11.1,Table 27(b)	-	50	-
9.1&11.1,Table 27(l3)	-	50	-
9.1&11.1,Table 27(l2)	-	50	-
9.1&11.1,Table 27(e2)	-	50	-
9.1&11.1,Table 27(r)	-	50	-
9.1&11.1,Table 27(a)	-	50	-
9.1&11.1,Table 27(l1)	-	50	-
9.1&11.1,Table 27(Mass)	-	50	-
9.1&11.1,Table 28(D)	-	50	-
9.1&11.1,Table 28(t)	-	50	-
9.1&11.1,Table 28(Mass (Approx))	-	50	-
12.1 to 12.7(Coating )	-	50	-
9.1,Table 2 & 3(DI)	-	50	-

28 Nov, 2028

-
Included w.e.f 31.12.2025

IS 8329 (2000)

Centrifugally cast (Spun) ductile iron pressure pipes for water, gas and sewage - Specification (Third Revision)

Up to DN 700

12500 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
Cl 10(Hardness & Tensile Test)	-	5000	-
Cl 11(Hydrostatic Test)	-	5000	-
Cl 13(Length, Diameter, Wall Thickness & Ovality)	-	1000	-
Cl 10(Hardness & Tensile Test)	-	5000	-
Cl 11(Hydrostatic Test)	-	5000	-
Cl 13(Length, Diameter, Wall Thickness & Ovality)	-	1000	-
Cl 10(Hardness & Tensile Test)	-	5000	-
Cl 11(Hydrostatic Test)	-	5000	-
Cl 13(Length, Diameter, Wall Thickness & Ovality)	-	1000	-
Cl 13(Length, Diameter, Wall Thickness & Ovality)	-	1000	-
Cl 11(Hydrostatic Test)	-	5000	-
Cl 10(Hardness & Tensile Test)	-	5000	-
Cl 10(Hardness & Tensile Test)	-	5000	-
Cl 11(Hydrostatic Test)	-	5000	-
Cl 13(Length, Diameter, Wall Thickness & Ovality)	-	1000	-
7.2(Visual Inspection)	-	500	-
15.6(Straightness *)	-	500	-
13.1 & 15.5(Length & tolerance*)	-	1000	-
15.3(Ovality & tolerance)	-	1000	-
16.2, Annex- C 2.3(Checking of bitumen base,)	-	1000	-

28 Nov, 2028

-
Included w.e.f 31.12.2025

IS 398 : Part 6 (2021)

Aluminium Conductors For Overhead Transmission Purposes Part 6: High conductivity aluminium alloy stranded conductors

High conductivity Aluminium Alloy Stranded conductor

100000 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
16.2(Visual Examination)	-	500	-
16.3, Table 4(Measurement of Lay Ratio / Direction of Lay)	-	1000	-
16.3, Table 4(Measurement of Lay Ratio / Direction of Lay)	-	1000	-
16.3, Table 4(Measurement of Lay Ratio / Direction of Lay)	-	1000	-
16.3, Table 4(Measurement of Lay Ratio / Direction of Lay)	-	1000	-
16.4, Table 2(Measurement of Diameter of Individual Aluminium Alloy Wires)	-	1000	-
16.5, Table 2(Breaking Load Test - before stranding)	-	2000	-
16.5, Table 2(Breaking Load Test - after stranding)	-	2000	-
16.6, Table 1(Elongation Test - before stranding)	-	2000	-
16.6, Table 1(Elongation Test - after stranding)	-	2000	-
16.7, Table 2(Resistivity Test)	-	2000	-
16.8(Wrapping Test)	-	1000	-
11(Stranding)	-	500	-
8(Freedom from defects)	-	500	-
Cl-5(MATERIAL COMPOSITION)	-	4000	-
Cl-7, Table-1(Diameter of Wire (mm))	-	1000	-
Cl-7, Table-1(Minimum Tensile Strength of Wire)	-	2000	-
Cl-7, Table-1(Minimum Elongation on 250 mm (percent))	-	1000	-
Cl-8(Freedom from Defects)	-	500	-
Cl-9.1.1(Wires-Nominal Sizes)	-	1000	-
Cl-9.2.1(Stranded Conductors- Size)	-	1000	-
Cl-10(Joints in Wires)	-	500	-
16.10, Table 3(d.c. Resistance Test on Stranded Conductor)	-	4000	-

28 Nov, 2028

-
Included w.e.f. 31.12.2025 "16.9, Table 3 (Ultimate Tensile Strength on Stranded Conductor) 16.11 (Stress-strain Test)"

IS 398 : Part 2 (2025)

Aluminium Conductor for Overhead Transmission Purposes - Specification Part 2 Aluminium Conductors Galvanized Steel Reinforced (Fourth Revision)

Aluminium Conductors galvanized steel-reinforced

20000 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
Cl-7(Freedom From Defects)	-	500	-
Cl-8.1(Wires-Nominal Sizes)	-	1000	-
Cl-8.2(Aluminum Conductors, Galvanized Steel- Reinforced)	-	500	-
Cl-9.1(Joint in Wires)	-	500	-
Cl-9.2(Aluminium Wires)	-	500	-
Cl-9.3(Galvanized Steel Wires)	-	500	-
Cl-10.2(Lay Ratio of Aluminium Conductors Galvanized Steel-Reinforced)	-	500	-
Cl-13.3(Conductor- Visual examination)	-	200	-
Cl- 13.5(Conductor- Measurement of lay ratio/direction of lay)	-	1000	-
Cl- 13.12(Conductor- d.c. Resistance test on stranded conductor)	-	1000	-
Cl-13.4(Aluminium wires-Measurement of diameter)	-	500	-
Cl- 13.6(Aluminium wires -Breaking load test)	-	1000	-
Cl- 13.8(Aluminium wires- Wrapping test)	-	500	-
Cl- 13.9(Aluminium wires- d.c. resistance test)	-	1000	-
Cl- 13.11(Aluminium wires Procedure qualification test on welded joint of aluminium strands)	-	1000	-
Cl- 13.4(Steel wires- Measurement of diameter)	-	500	-
Cl- 13.6(Steel wires- Breaking load test)	-	1000	-
Cl- 13.7(Steel wires- Ductility test)	-	2000	-
Cl- 13.8(Steel wires- Wrapping test)	-	1000	-
Cl- 13.10(Steel wires- Galvanizing test)	-	1000	-
Cl-6(Material)	-	500	-
Cl-6.1.1(chemical composition of high carbon steel)	-	1000	-
Cl-6.2(zinc used for galvanizing)	-	1000	-
Cl-13.7.1(Torsion Test)	-	500	-
Cl-13.7.2(Elongation Test)	-	1000	-
Cl-11.1(Standard Length)	-	200	-
Cl-11.2(Random Lengths)	-	200	-

28 Nov, 2028

-
Included w.e.f. 31.12.2025 "Cl- 13.13 (Conductor- Surface condition test on stranded conductor) Cl- 13.14 (Conductor- Ultimate tensile strength test on stranded conductor) Cl- 13.15 (Conductor- Corona test (for conductors intended for use at 400 kV and above voltage level for a.c. and ± 320 kV and above voltage level for d.c.)) Cl-13.16 (Conductor- Radio interference voltage test)"

IS 398 : Part 1 (1996)

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

Aluminium conductor for Overhead Transmission

18000 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
12.2, Table-1(Measurement of diameter of individual aluminium wire)	-	200	Rs.9000/- for 7 wire stands, Rs. 18000/- for 19 Strands, Rs.500/- for Separated Wire before Stranding (If provided)
12.3, Table-1(Breaking load before stranding)	-	500	-
12.3, Table-1(Breaking load after stranding)	-	500	-
12.4(Wrapping test)	-	500	-
12.5, Table 1(Resistance test)	-	1000	-
12.6, Table 3(Measurement of lay ratio)	-	200	-
9.3(Stranding)	-	200	-
6(Freedom from defects)	-	200	-
7.2.1(Sizes)	-	200	-
8, 8.1, 8.2(Joint in wires, except during stranding)	-	200	-
9.2(Lay ratio)	-	500	-
9.4(Multiple layer of wires)	-	200	-
4.1(Resistivity)	-	500	-
4.2(Density)	-	500	-
5(Material)	-	200	-
7.1.1(Nominal Sizes)	-	500	-
7.2.2(Resistance)	-	1000	-
12.2, Table-1(Measurement of diameter of individual aluminium wire)	-	500	-
12.3, Table-1(Breaking load before stranding)	-	1000	-
12.3, Table-1(Breaking load after stranding)	-	1000	-
12.4(Wrapping test)	-	500	-
12.5, Table 1(Resistance test)	-	1000	-
12.6, Table 3(Measurement of lay ratio)	-	200	-
9.3(Stranding)	-	100	-
6(Freedom from defects)	-	100	-
7.2.1(Sizes)	-	100	-
8, 8.1, 8.2(Joint in wires, except during stranding)	-	100	-
9.2(Lay ratio)	-	100	-
9.4(Multiple layer of wires)	-	100	-
4.1(Resistivity)	-	1000	-
4.2(Density)	-	1000	-
5(Material)	-	100	-
7.1.1(Nominal Sizes)	-	100	-
7.2.2(Resistance)	-	1000	-
4.3(Constant-Mass Temperature Coefficient of Resistance)	-	1000	-
4.4(Coefficient of Linear Expansion)	-	1000	-

28 Nov, 2028

-
included w.e.f 05-01-2026

IS 1554 : Part 1 (1988)

Specification for pvc insulated (Heavy Duty) electric cables: Part 1 for working voltages up to and including 1100 v (Third Revision)

01/C1/C2

24000 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
3.1(MATERIALS : CONDUCTOR)	-	100	Rs. 8000/- for Category-01& Rs. 15000 for category Cl & C2 (1 core) Rs. 12,000/- for Category — 01 & Rs. 20,000 for category Cl & C2 (up to 4 cores) Rs. 16000/- for Category — 01& Rs. 24000 for category Cl & C2 (above 4 cores and up to 12 Cores cable.
4.1.1(INSULATION : General Purjose Insulaiion)	-	100	-
4.1.2(INSULATION : Heat Resisting Insulation)	-	100	-
5.1(MATERIALS : FILLER AND INNER SHEATH)	-	500	-
5.2(MATERIALS : FILLER AND INNER SHEATH)	-	500	-
6.1(MATERIALS : ARMGURING)	-	500	-
6.2(MATERIALS : ARMGURING)	-	500	-
7.1.1(OUTER SHEATH : For Cables with General Purpose InsuIafion)	-	100	-
7.1.2(OUTER SHEATH : For Cables with Heat Resisting InsuIalion)	-	100	-
8.1(CONSTRUCTION : CONDUCTOR)	-	200	-
8.2(CONSTRUCTION : CONDUCTOR)	-	200	-
9.1(INSULATION )	-	200	-
9.2(INSULATION : Thickness of Insulation)	-	1000	-
9.3(INSULATION :Tolerance on Thickness of Insulation)	-	1000	-
9.4(INSULATION : Application of Insulation)	-	200	-
10.1(CORE IDENTIFICATION)	-	100	-
10.2(CORE IDENTIFICATION)	-	100	-
10.3(CORE IDENTIFICATION)	-	100	-
10.3.1(Arrangement of Marking)	-	200	-
11.1(LAYING UP OF CORES)	-	100	-
11.2(LAYING UP OF CORES)	-	100	-
12.1(INNER SHEATH)	-	100	-
12.2(INNER SHEATH)	-	100	-
12.3(INNER SHEATH :Thickness of Inner Sheath)	-	500	-
12.3.1(INNER SHEATH :Thickness of Inner Sheath)	-	500	-
13.1.1(ARMOURING : Application)	-	200	-
13.1.2(Armouring: Coverage )	-	1000	-
13.1.3(ARMOURING : Direction of lay )	-	200	-
13.1.4(ARMOURING : Application)	-	100	-
13.2(ARMOURING : Type of Armour)	-	500	-
13.2.1(ARMOURING : Type of Armour)	-	200	-
13.3(Armouring : Dimensions -Wire Diameter)	-	20	-
13.3(Armouring : Dimensions -Formed wire )	-	200	-
13.4(ARMOURING : Joints)	-	100	-
13.5.1(ARMOURING : Resistance)	-	1000	-
13.5.2(ARMOURING : Resistance)	-	1000	-
13.6 a)(ARMOURING: Tensile Strength)	-	1000	-
13.6 b)(ARMOURING: Elongation )	-	1000	-
13.6 c)(ARMOURING: Torsion Test (For round wire ) )	-	2000	-
13.6 d)(ARMOURING: Winding Test(For formed wire))	-	1000	-
13.6 e)(ARMOURING: Uniformity of zinc coating)	-	1500	-
13.6 f)(ARMOURING: Mass of zinc coating )	-	1500	-
13.6 g)(ARMOURING: Resistivity)	-	1000	-
14.1(OUTER SHEATH)	-	100	-
14.2(OUTER SHEATH)	-	100	-
14.3(OUTER SHEATH : Colour )	-	100	-
14.4.1(Thickness of Outer Sheath : Unarmowed Cables)	-	500	-
14.4.2(Thickness of Outer Sheath : Armoured Cables)	-	500	-
15.1 a) 1)(Tests on conductor : Annealing test ( for copper ))	-	500	-
15.1 a) 2)(Tensile test (for aluminium) - Before stranding )	-	1000	-
15.1 a) 2)(Tensile test (for aluminium) - After stranding )	-	1000	-
15.1 a) 3)(Tests on conductor : Wrapping test ( for aluminium ))	-	500	-
15.1 a) 4)(Tests on conductor : Conductor resistance test)	-	1000	-
15.1 a) 4)(Resistance test - Neutral conductor )	-	1000	-
15.1 d)1)(Phyaical tests for insulation : Tensile Test)	-	1000	-
15.1 d)1)(Phyaical tests for insulation : Elongation )	-	500	-
15.1 d)1)(Physical tests for sheath : Tensile stregth )	-	1000	-
15.1 d)1)(Physical tests for sheath : Elongation )	-	500	-
15.1 d)2)(Phyaical tests for insulation- Ageing in air Oven : Tensile Test)	-	2000	-
15.1 d)2)(Phyaical tests for insulation - Ageing in air oven : Elongation )	-	2000	-
15.1 d)2)(Phyaical tests for insulation - Ageing in air Oven : Tensile Variation )	-	500	-
15.1 d)2)(Phyaical tests for insulation- Ageing in air oven : Elongation Variation )	-	500	-
15.1 d)2)(Physical tests for outer sheath- Ageing in air oven : Tensile stregth )	-	2000	-
15.1 d)2)(Physical tests for outer sheath -Ageing in air oven : Elongation )	-	2000	-
15.1 d)2)(Physical tests for outer sheath- Ageing in air oven : Tensile stregth Variation )	-	1000	-
15.1 d)2)(Physical tests for outer sheath -Ageing in air oven : Elongation Variation )	-	1000	-
15.1 d)3)(Phyaical tests for insulation : Shrinkage )	-	2000	-
15.1 d)3)(Phyaical tests for insulation : Shrinkage - Crack observed )	-	200	-
15.1 d)3)(Phyaical tests for Sheath : Shrinkage )	-	2000	-
15.1 d)3)(Phyaical tests for Sheath : Shrinkage - Crack observed )	-	200	-
15.1 d)4)(Hot deformation : Insulation )	-	3000	-
15.1 d)4)(Hot deformation : Sheath )	-	3000	-
15.1 d)5)( Loss of mass in air oven- Insulation )	-	4000	-
15.1 d)5)( Loss of mass in air oven- sheath )	-	4000	-
15.1 d)6)(Heat shock test- Insulation )	-	2000	-
15.1 d)6)(Heat shock test- sheath )	-	2000	-
15.1 d)7)(Thermal stability- insulation )	-	3000	-
15.1 d)7)(Thermal stability- Sheath )	-	3000	-
15.1 e)(Insulation resistance test : Volume Resistivity )	-	3000	-
15.1 e)(Insulation resistance test : IR Constant )	-	500	-
15.1 f)(High voltage test ( water immersion test ))	-	5000	-
15.1 g)(High voltage test at room temperature)	-	1000	-
15.1 g)(High voltage test at room temperature)	-	1000	-
15.4 a)(Cold bend test- Insulation ( Optional test))	-	3000	-
15.4 a)(Cold bend test- Sheath ( Optional test))	-	3000	-
15.4 b)(Cold impact test- Insulation ( Optional test))	-	3000	-
15.4 b)(Cold impact test- Sheath ( Optional test))	-	3000	-
15.4 c)(Armour resistance test ( for other than mining cables ).- Optional test )	-	1000	-
16.1(DETAILS OF TESTS : General)	-	1000	-
16.2(DETAILS OF TESTS : High Voltage Test at Room Temperature)	-	1000	-
16.3.1(High Voltage Test ( Water Immersion Test ) : a.c. Test)	-	5000	-
16.3.2(High Voltage Test ( Water Immersion Test ) : d.c. Test)	-	3000	-
16.4(Flammability Test)	-	1000	-
16.5(Oxygen Index Test)	-	5000	-
16.6(Flame Retardance Test on Single Cables)	-	3000	-
16.7(Flame Retardance Test on Bunched Cables)	-	5000	-
16.9(Test for Halogen Acid Gas Evolution)	-	50000	-
16.1(Temperature Index)	-	5000	-
17.1(IDENTIFICATION : Manufacturer’s Identification)	-	500	-
17.2(IDENTIFICATION : Cable Identification)	-	500	-
17.2.1(IDENTIFICATION : Cable Identification)	-	200	-
17.3(IDENTIFICATION : Cable Code)	-	200	-
15.1.e(Insulation resistance Test- Insulation resistance At Maximum rated temperature temperature)	-	4000	-
15.1.e(Insulation resistance Test- Insulation resistance constant At Room temperature)	-	2000	-
15.1.e(Insulation resistance Test- Volume Resistivity At Maximum rated temperature temperature)	-	4000	-
15.1.e(Insulation resistance Test- Volume Resistivity At Room temperature)	-	2000	-
16.4(Flammability Test- Un affected portion)	-	2000	-
16.4(Flammability Test- Period of Burning)	-	200	-
9.3(Minimum Thickness of Reduce core insulation)	-	1000	-
9.2(Thickness of Reduce core insulation)	-	1000	-
3.1 Table 2 IS 8130(Number of wires in the conductor)	-	500	-
Cl No. 16.10(Smoke density test)	-	5000	-
Table 4(Copper purity test)	-	4000	-
Cl.8(Conductor, Number of wires.)	-	500	-
Cl.8(Conductor, Number of wires.)	-	500	-
Cl.8(Flexibility class)	-	200	-
[(Cl.15), (d), 2](After ageing, Elongation of Sheath [Percentage])	-	4000	-
Cl No. 16.10(Smoke density test)	-	5000	-
Table 4(Copper purity test)	-	500	-
Cl.8(Conductor, Number of wires.)	-	500	-
Cl.8(Conductor, Number of wires.)	-	500	-
Cl.8(Flexibility class)	-	500	-
[(Cl.15), (d), 2](After ageing, Elongation of Sheath [Percentage])	-	1000	-
Cl No. 16.8(Test for specific optical density of smoke)	-	5000	-

28 Nov, 2028

-
included w.e.f 05-01-2026

IS 7098 : Part 1 (2025)

Crosslinked Polyethylene Insulated Thermoplastic Sheathed Cables - Specification Part 1 For Working Voltages up to and Including 1 100 Volts (Second Revision)

01/C1/C2/C3

70000 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
Cl-4(Conductors -Material)	-	500	Rs. 10,000/- for ST2 Outer sheath , Rs. 15,000/- for C1, Rs. 30,000 for C2 & Rs 70000 for C3. Additional charge Rs 500 for each core Additional charge of Rs 2000 for optional test , Additional charge of Rs 2000 for Armour test
Cl-5, Table-1 (i)(Tensile strength)	-	2000	-
Cl-5, Table-1 (ii) (a)(Elongation at break- Ageing in air oven)	-	3000	-
Cl-5, Table-1 (ii) (b)(Variation in tensile strength, from that without ageing)	-	2000	-
Cl-5, Table-1 (ii) (c)(Variation in elongation at break, from that without ageing)	-	1000	-
Cl-5, Table-1 (iii) (a)(Hot set- Treatment;)	-	4000	-
Cl-5, Table-1 (iii) (b)(Hot set- Elongation under load)	-	1500	-
Cl-5, Table-1 (iii) (c)(Hot set- Permanent elongation after cooling)	-	1500	-
Cl-5, Table-1 (iv)(Shrinkage)	-	1500	-
Cl-5, Table-1 (v)(Water absorption (gravimetric))	-	6000	-
Cl-5, Table-1 (vi)(Volume resistivity)	-	4000	-
Cl-6.1 (a)(Fillers and inner sheath- Vulcanized or unvulcanized rubber)	-	500	-
Cl-6.1 (B)(Fillers and inner sheath- Thermoplastic materials)	-	500	-
Cl-7(Armouring)	-	500	-
Cl-8(Outer Sheath)	-	500	-
Cl-10.3(Tolerance on Thickness of Insulation)	-	1000	-
Cl-11(Core Identification)	-	100	-
Cl-12(Laying up of Cores)	-	100	-
Cl-13(Inner Sheath (Common Covering))	-	500	-
Cl-14.1(Armouring- Application)	-	100	-
Cl-14.1.2(armour round wires/formed wires)	-	500	-
Cl-14.2(Type of Armour)	-	500	-
Cl-14.3(Dimensions)	-	1000	-
Cl-14.4(Joints)	-	100	-
Cl-14.5(Resistance)	-	2000	-
Cl-15.3(Thickness of Outer Sheath)	-	1000	-
Cl-16.1 (i) (a)(Test on conductor: Annealing test (for copper);)	-	1000	-
Cl-16.1 (i) (b)(Test on conductor: Tensile test (for aluminium);)	-	1000	-
Cl-16.1 (i) (c)(Test on conductor: Wrapping test (for aluminium);)	-	1000	-
Cl-16.1 (i) (d)(Test on conductor: Resistance test)	-	4000	-
Cl-14.6 (a)(Physical tests on round wires/formed wires- Tensile strength)	-	2000	-
Cl-14.6 (b)(Physical tests on round wires/formed wires- Elongation at break)	-	3000	-
Cl-14.6 (c)(Physical tests on round wires/formed wires- Torsion test for round wires)	-	2500	-
Cl-14.6 (d)(Physical tests on round wires/formed wires- Winding test for formed wires)	-	2500	-
Cl-14.6 (e)(Physical tests on round wires/formed wires- Uniformity of zinc coating)	-	2000	-
Cl-14.6 (f)(Physical tests on round wires/formed wires- Mass of zinc coating)	-	2000	-
Cl-14.6 (g)(Physical tests on round wires/formed wires- Resistivity.)	-	3000	-
Cl-10, 13, 15(Test for thickness of insulation and sheath)	-	4000	-
Cl-16.1 (v) (1)(PVC Sheath- Tensile strength and elongation at break;)	-	4000	-
Cl-16.1 (v) (2)(PVC Sheath- Ageing in air oven)	-	4000	-
Cl-16.1 (v) (3)(PVC Sheath- Loss of mass in air oven)	-	5000	-
Cl-16.1 (v) (5)(PVC Sheath- Hot deformation test)	-	3000	-
Cl-16.1 (v) (6)(PVC Sheath- Heat shock test)	-	2000	-
Cl-16.1 (v) (7)(PVC Sheath- Thermal stability)	-	3000	-
Cl-8.3-Table 1A(PE Sheath- Carbon black content)	-	3000	-
Cl-8.3-Table 1A(PE Sheath- Tensile strength and elongation at break before and after ageing)	-	5000	-
Cl-8.3-Table 1A(PE Sheath- Hot deformation)	-	3000	-
Cl-8.3-Table 1A(PE Sheath- Shrinkage test.)	-	2000	-
Cl- Table 1B(LSHF Sheath- Tensile strength and elongation at break before and after ageing)	-	6000	-
Cl- Table 1B(LSHF Sheath- Hot deformation)	-	3500	-
Cl- Table 1B(LSHF Sheath- Water absorption test)	-	6000	-
Cl- Table 1B(LSHF Sheath- Shrinkage test)	-	2000	-
Cl-17.2(High voltage test)	-	4000	-
Cl-17.3(Flammability test)	-	2000	-
Cl-17.4(Oxygen index test (FR, FR-LSH or LSHF Sheath))	-	5000	-
Cl-17.5(Flame retardance test on single cable)	-	4000	-
Cl-17.6(Flame retardance test on bunched cables (FR, FR-LSH or LSHF Sheathed Cables))	-	10000	-
Cl-17.7(Test for halogen acid evolution (FR-LSH or LSHF Outer Sheath))	-	5000	-
Cl-17.8(Smoke density test (FR-LSH or LSHF Sheath))	-	5000	-
Cl-17.9(Temperature index test; (FR, FR-LSH or LSHF Sheath))	-	5000	-
Cl-17.10(Test for pH and conductivity of LSHF Sheath)	-	10000	-
Cl-16.4 (i)(Cold bend test for outer sheath)	-	3000	-
Cl-16.4 (ii)(Cold impact test for outer sheath)	-	3000	-
Cl-16.4 (iii)(Cold elongation test for LSHF sheath)	-	1000	-

28 Nov, 2028

-
"1 Cl-17.11 (Test for light transmission for LSHF Sheathed Cables) Test for Light Transmission for LSHF Sheathed Cable Instrument not available as per IS 10810 (Part 63).

IS 694 (2010)

Polyvinyl chloride insulated unsheathed and sheathed cables/cords with rigid and flexible conductor for rated voltages up to and including 450/750 v (Fourth Revision)

Polyvinyl Chloride Insulated Unsheathed And Sheathed Cables/Cords With Rigid And Flexible Conductor For Rated Voltages Up To And Including 1100 V

24000 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
13(Cable code)	-	100	-
11.2(Legibility)	-	100	-
11.1(Durability)	-	100	-
11(Identification)	-	100	-
10.9(Additional ageing test (OU cables only) -HV test (at 60±3oC))	-	5000	-
10.4(Flammability test- Unaffected portion)	-	1000	-
10.4(Flammability test-Burning after flame removal)	-	1000	-
table 1 e) 3) (IR constant- max. Temp)	-	2000	-
table 1 e) 3) (IR constant- Room temp )	-	2000	-
table 1 e) 3) (Volume Resistivity - Maximum temp)	-	2000	-
table 1 e) 3) (Volume Resistivity - Room temp )	-	2000	-
10.2(HV (room temperature))	-	1000	-
10.1(HV (water immersion))	-	5000	-
10.1(HV (water immersion))	-	5000	-
10.8(Smoke density rating)	-	5000	-
10.6(Halogen evolution)	-	5000	-
10.7(Temperature index)	-	2500	-
10.5(Oxygen index)	-	2500	-
Table 1 iii) d) 9)(Cold impact for sheath)	-	2000	-
Table 1 iii) d) 8)(Cold bend for sheath)	-	2000	-
Table 1 iii) c) 9)(Cold impact for insulation)	-	2000	-
Table 1 iii) c) 8)(Cold bend for insulation)	-	2000	-
Table 1(Category Code)	-	100	-
Table 1 iii) d) 7)(Thermal stability- Sheath )	-	3000	-
Table 1 iii) c) 7)(Thermal stability- Insulation )	-	3000	-
Table 1 iii) d) 6)(Hot deformation -Indentation depth - Sheath )	-	5000	-
Table 1 iii) c) 6)(Hot deformation - Indentation depth- Insulation)	-	5000	-
Table 1 iii) d) 5)(Heat shock-Sheath )	-	3000	-
Table 1 iii) c) 5)(Heat shock-Insulation )	-	3000	-
Table 1 iii) d) 4)(Cracks Observed)	-	100	-
Table 1 iii) d) 4)(Shrinkage- Sheath )	-	2000	-
Table 1 iii) c) 4)(Cracks Observed)	-	100	-
Table 1 iii) c) 4)(Shrinkage-Insulation)	-	2000	-
Table 1 iii) d) 2)(Loss of mass- Sheath )	-	5000	-
Table 1 iii) c) 2)(Loss of mass- Insulation )	-	5000	-
Table 1 iii) d) 3)(Sheath- Elongation variation)	-	2000	-
Table 1 iii) d) 3)(Sheath- TS variation)	-	4000	-
Table 1 iii) d) 3)(Sheath- Elongation (After ageing))	-	4000	-
Table 1 iii) d) 3)(Sheath- Tensile strength (After ageing))	-	4000	-
Table 1 iii) d) 1)(Sheath- Elongation (Without ageing))	-	2000	-
Table 1 iii) d) 1)(Sheath -Tensile strength (Without ageing))	-	2000	-
Table 1 iii) c) 3)(Elongation variation)	-	4000	-
Table 1 iii) c) 3)(TS variation)	-	4000	-
Table 1 iii) c) 3)(Elongation (After ageing))	-	4000	-
Table 1 iii) c) 3)(Tensile strength (After ageing))	-	4000	-
Table 1 iii) c) 1)(Elongation (Without ageing))	-	2000	-
Table 1 iii) c) 1)(Tensile strength (Without ageing))	-	2000	-
(Cl. 18.1.4) (Cl. 19.1.5) (Cl. 20.1.4) (Cl. 22.1.4)(Colour of Sheath)	-	100	-
8.3(Thickness of Sheath)	-	2000	-
5.2(Application )	-	100	-
5.3(Thickness of Insulation)	-	2000	-
9.1(Ovality)	-	1000	-
9(Overall dimensions)	-	1000	-
10.11(Per sulphate test (for tinned Cu cable only))	-	5000	-
4.2(Conductor resistance test)	-	2500	-
4.1(Wrapping test (for Al))	-	500	-
4.1(Tensile test (for Al)- After Stranding)	-	1000	-
4.1(Tensile test (for Al)-Before Stranding)	-	1000	-
4.1(Annealing test (for copper))	-	2000	-
(Cl.6.1.3 of IS 8130:2013)(Flexible Conductors (Classes 5))	-	500	-
(Cl.6.1.3 of IS 8130:2013)( Flexible Conductors (Classes 5))	-	500	-
(Cl.6.1.3 of IS 8130:2013)(Stranded circular non compacted conductors(Class-2))	-	500	-
(Cl.6.1.3 of IS 8130:2013)(Stranded compacted circular conductors and shaped conductors (Class 2))	-	500	-
(Cl.6.1.3 of IS 8130:2013)(Stranded circular non compacted conductors (Class-2))	-	500	-
(Cl.6.1.3 of IS 8130:2013)(Stranded circular non compacted conductors (Class-2))	-	500	-
(Cl.6.1.3 of IS 8130:2013)(Solid Conductor (Class 1))	-	500	-
(Cl.6.1 of IS 8130:2013)(Solid Conductor (Class 1))	-	500	-
(Cl.6.1 of IS 8130:2013)(Solid Conductor (Class 1))	-	500	-
(Cl.16.1) (Cl.19.1)(Conductor- Diameter )	-	500	-
(Cl.16.1) (Cl.19.1)(Conductor)	-	500	-
(Cl.16.1) (Cl.19.1)(Conductor)	-	500	-
(Cl.16.1) (Cl.19.1)(Conductor)	-	500	-
(Cl. 18.1.3) (Cl. 19.1.4) (Cl. 20.1.3) (Cl. 21.1.3) (Cl. 22.1.3)(Assembly of cores )	-	500	-
12(CONSTRUCTION Core Identification)	-	500	-
8.1(Sheath Material )	-	500	-
7(Binder Tape)	-	500	-
6.2(Filler)	-	100	-
6.1(Filler)	-	100	-
5.1(Insulation)	-	500	-
4.4(Joints in Conductor)	-	500	-
4.4(Joints in Conductor)	-	500	-
4.1(Conductor - Material)	-	500	-
4.1(Conductor - Material)	-	500	-
10.11(Persulphate Test )	-	4000	-
12.0(Core identification)	-	100	-
4, IS 8130(Construction of conductor)	-	100	-
Table 2, IS 8130(No fo wire in a conductor)	-	100	-
8.3(Minimum thickness of Sheath)	-	2000	-
8.3(Avarage thickness of Sheath)	-	2000	-
5.3(Minimum thickness of insulation)	-	2000	-
5.3(Avarage thickness of insulation)	-	2000	-
Table 4(Copper purity test)	-	5000	-
10.3(Spark test)	-	1000	-
table 1, 4.2(insulation resistance test)	-	2000	-
5.4(Mechanical properties before and after ageing)	-	3000	-
10.3(Spark Test)	-	1000	-
4.1(Material)	-	100	-
4.2(Electrical Resistance)	-	2500	-
5(INSULATION)	-	100	-
6(FILLER)	-	100	-
7(BINDER TAPE)	-	100	-
8(SHEATH)	-	100	-
9(OVERALL DIMENSIONS)	-	500	-
10.1(High Voltage Test (Water Immersion Test))	-	3000	-
10.2(High Voltage Test (at Room Temperature))	-	1000	-
10.3(Spark Test)	-	1000	-
10.4(Flammability Test)	-	2000	-
10.5(Oxygen Index Test)	-	5000	-
10.6(Test for Halogen Acid Gas Evolution)	-	5000	-
10.7(Test for Temperature Index)	-	5000	-
10.8(Smoke Density Rating)	-	5000	-
10.9(Additional Ageing Test (for Cables for Outdoor Use)	-	4000	-
10.1(Flex Test)	-	500	-
10.11(Persulphate Test)	-	4000	-
11(IDENTIFICATION)	-	100	-
12(CORE IDENTIFICATION)	-	100	-
13(CABLE CODE)	-	100	-
15(PACKING AND MARKING)	-	500	-
16.1(Construction)	-	500	-
16.2(Tests)	-	5000	-
17(SINGLE CORE NON-SHEATHED CABLES WITH FLEXIBLE CONDUCTOR FOR GENERAL PURPOSE (MAXIMUM CONDUCTOR TEMPERATURE 70°C OR 85°C))	-	6000	-
18(SINGLE AND MULTICORE CIRCULAR PVC INSULATED AND SHEATHED CABLES WITH RIGID CONDUCTOR (CLASS 1 AND CLASS 2) FOR GENERAL PURPOSE ) FOR MAXIMUM CONDUCTOR TEMPERATURE (70°C OR 85°C))	-	6000	-
19(SINGLE AND MULTICORE CIRCULAR PVC INSULATED AND SHEATHED CABLES/CORDS WITH FLEXIBLE CONDUCTOR (CLASS 5) FOR GENERAL PURPOSE (MAXIMUM CONDUCTOR TEMPERATURE 70°C OR 85°C))	-	6000	-
20(MULTICORE CIRCULAR PVC INSULATED AND SHEATHED CABLES WITH FLEXIBLE CONDUCTOR (CLASS 5) FOR GENERAL PURPOSE (FOR MAXIMUM CONDUCTOR TEMPERATURE 70°C OR 85°C))	-	8000	-
21(ARALLEL TWIN AND TWISTED TWIN FLEXIBLE PVC INSULATED UNSHEATHED CORDS (CLASS 5) FOR GENERAL PURPOSE (FOR MAXIMUM CONDUCTOR TEMPERATURE 70°C OR 85°C))	-	6000	-
22(TWO AND THREE CORE FLAT CABLES WITH PVC INSULATION AND SHEATHED (CLASS 2 OR 5) FOR GENERAL PURPOSE( FOR MAXIMUM CONDUCTOR TEMPERA TURE 70°C OR 85°C))	-	6000	-
(4.3 of IS 8130:2013)(Form of Conductor)	-	500	-
( 4.4.1 of IS 8130:2013)(Joints in Conductor)	-	100	-
(4.4.2 of IS 8130:2013)(Joints in Conductor Solid Conductors (Aluminium Conductors only))	-	100	-
(Cl.6.1.1 of IS 8130:2013)(Solid Conductor (Class 1))	-	100	-
(Cl.6.1.2 of IS 8130:2013)(Solid Conductor (Class 1))	-	100	-
(Cl.6.1.3 of IS 8130:2013)(Solid Conductor (Class 1))	-	100	-
(6.2.1 of IS 8130:2013)(Stranded Circular Non-compacted Conductors (Class 2))	-	100	-
(6.2.2 of IS 8130:2013)(Stranded Circular Non-compacted Conductors (Class 2))	-	100	-
(6.2.3 of IS 8130:2013)(Stranded Circular Non-compacted Conductors (Class 2))	-	500	-
(6.3.1 of IS 8130:2013)(Stranded Compacted Circular Conductors and Shaped Conductors (Class 2))	-	500	-
(6.3.2 of IS 8130:2013)(Stranded Compacted Circular Conductors and Shaped Conductors (Class 2))	-	100	-
(6.3.3 of IS 8130:2013)(Stranded Compacted Circular Conductors and Shaped Conductors (Class 2))	-	100	-
( 6.4.1 of IS 8130:2013)(Flexible Conductors (Class 5))	-	500	-
(6.4.2 of IS 8130:2013)(Flexible Conductors (Class 5))	-	500	-
( 6.4.3 of IS 8130:2013)(Flexible Conductors (Class 5))	-	500	-
Cl.19.1.4(Assembly of Cores)	-	500	-
Cl. 8.2(Application of Sheath)	-	100	-
5.3(Thickness of Insulation)	-	1000	-
(Cl.6.1.3 of IS 8130:2013)(Stranded circular non compacted conductors (Class-2))	-	500	-
Table 4(Copper purity test)	-	2000	-
10.3(Spark test)	-	1000	-
table 1, 4.2(insulation resistance test)	-	3000	-
5.4(Mechanical properties before and after ageing)	-	6000	-
10.3(Spark Test)	-	1000	-
4.1(Material)	-	100	-
4.2(Electrical Resistance)	-	2000	-
5(INSULATION)	-	100	-
6(FILLER)	-	100	-
7(BINDER TAPE)	-	100	-
8(SHEATH)	-	100	-
9(OVERALL DIMENSIONS)	-	500	-
10.1(High Voltage Test (Water Immersion Test))	-	2000	-
10.2(High Voltage Test (at Room Temperature))	-	1000	-
10.3(Spark Test)	-	1000	-
10.4(Flammability Test)	-	2000	-
10.5(Oxygen Index Test)	-	5000	-
10.6(Test for Halogen Acid Gas Evolution)	-	5000	-
10.7(Test for Temperature Index)	-	5000	-
10.8(Smoke Density Rating)	-	5000	-
10.9(Additional Ageing Test (for Cables for Outdoor Use)	-	4000	-
10.1(Flex Test)	-	1000	-
10.11(Persulphate Test)	-	2000	-
11(IDENTIFICATION)	-	100	-
12(CORE IDENTIFICATION)	-	100	-
13(CABLE CODE)	-	100	-
15(PACKING AND MARKING)	-	100	-
16.1(Construction)	-	100	-
16.2(Tests)	-	100	-
17(SINGLE CORE NON-SHEATHED CABLES WITH FLEXIBLE CONDUCTOR FOR GENERAL PURPOSE (MAXIMUM CONDUCTOR TEMPERATURE 70°C OR 85°C))	-	6000	-
18(SINGLE AND MULTICORE CIRCULAR PVC INSULATED AND SHEATHED CABLES WITH RIGID CONDUCTOR (CLASS 1 AND CLASS 2) FOR GENERAL PURPOSE ) FOR MAXIMUM CONDUCTOR TEMPERATURE (70°C OR 85°C))	-	6000	-
19(SINGLE AND MULTICORE CIRCULAR PVC INSULATED AND SHEATHED CABLES/CORDS WITH FLEXIBLE CONDUCTOR (CLASS 5) FOR GENERAL PURPOSE (MAXIMUM CONDUCTOR TEMPERATURE 70°C OR 85°C))	-	6000	-
20(MULTICORE CIRCULAR PVC INSULATED AND SHEATHED CABLES WITH FLEXIBLE CONDUCTOR (CLASS 5) FOR GENERAL PURPOSE (FOR MAXIMUM CONDUCTOR TEMPERATURE 70°C OR 85°C))	-	8000	-
21(ARALLEL TWIN AND TWISTED TWIN FLEXIBLE PVC INSULATED UNSHEATHED CORDS (CLASS 5) FOR GENERAL PURPOSE (FOR MAXIMUM CONDUCTOR TEMPERATURE 70°C OR 85°C))	-	4000	-
22(TWO AND THREE CORE FLAT CABLES WITH PVC INSULATION AND SHEATHED (CLASS 2 OR 5) FOR GENERAL PURPOSE( FOR MAXIMUM CONDUCTOR TEMPERA TURE 70°C OR 85°C))	-	4000	-
(4.3 of IS 8130:2013)(Form of Conductor)	-	500	-
( 4.4.1 of IS 8130:2013)(Joints in Conductor)	-	100	-
(4.4.2 of IS 8130:2013)(Joints in Conductor Solid Conductors (Aluminium Conductors only))	-	100	-
(Cl.6.1.1 of IS 8130:2013)(Solid Conductor (Class 1))	-	100	-
(Cl.6.1.2 of IS 8130:2013)(Solid Conductor (Class 1))	-	100	-
(Cl.6.1.3 of IS 8130:2013)(Solid Conductor (Class 1))	-	100	-
(6.2.1 of IS 8130:2013)(Stranded Circular Non-compacted Conductors (Class 2))	-	100	-
(6.2.2 of IS 8130:2013)(Stranded Circular Non-compacted Conductors (Class 2))	-	100	-
(6.2.3 of IS 8130:2013)(Stranded Circular Non-compacted Conductors (Class 2))	-	100	-
(6.3.1 of IS 8130:2013)(Stranded Compacted Circular Conductors and Shaped Conductors (Class 2))	-	100	-
(6.3.2 of IS 8130:2013)(Stranded Compacted Circular Conductors and Shaped Conductors (Class 2))	-	100	-
(6.3.3 of IS 8130:2013)(Stranded Compacted Circular Conductors and Shaped Conductors (Class 2))	-	100	-
( 6.4.1 of IS 8130:2013)(Flexible Conductors (Class 5))	-	100	-
(6.4.2 of IS 8130:2013)(Flexible Conductors (Class 5))	-	100	-
( 6.4.3 of IS 8130:2013)(Flexible Conductors (Class 5))	-	100	-
Cl.19.1.4(Assembly of Cores)	-	100	-
Cl. 8.2(Application of Sheath)	-	100	-

28 Nov, 2028

-
included w.e.f 27.01.2026

IS 7098 : Part 1 (1988)

Specification for crosslinked polyethylene insulated pvc sheathed cables: Part 1 for working voltages up to and including 1100 volts (First Revision)

Crosslinked Polyethylene IArmoured/Unarmoured with Aluminium/Copper Conductor , Class 1/2, Category 01/C1/C2 , except/suitable for use in Mines , excluding/including Low Temp. application for working Volt. up to and including 1100V

3200 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
3(CONDUCTOR: MATERIALS)	-	100	-
4(INSULATION : MATERIALS)	-	100	-
5.1(FILLER AND INNER SHEATH)	-	100	-
5.2(FILLER AND INNER SHEATH)	-	100	-
6(ARMOURING)	-	100	-
7(OUTER SHEATH)	-	100	-
8.1(CONDUCTOR: CONSTRUCTION)	-	100	-
8.2(PROTECTIVE BARRIER)	-	100	-
8.3(SIZE OF NEUTRAL CONDUCTOR)	-	100	-
9.1(Insulation Applied by extrusicn)	-	100	-
9.2(Thickness of Insulation - Average)	-	100	-
9.3(Thickness of Insulation - Minimum)	-	200	-
9.4(Application of Insulation)	-	100	-
10.1(Core Identification)	-	100	-
10.2(Core Identification- Neutral)	-	100	-
10.3(Core Identification by number )	-	100	-
10.4(Core Identification by number - Neutral )	-	100	-
11(LAVING UP OF CORES)	-	100	-
12.1 & 12.2(Inner sheath : Application)	-	100	-
12.3(Thickness of Inner Sheath)	-	100	-
13.1(Armouring: Application)	-	100	-
13.1.2(Armouring: Coverage )	-	300	-
13.1.3(Armouring: Direction of Lay )	-	100	-
13.2(Type of armour )	-	100	-
13.3(Armouring : Dimensions -Wire Diameter)	-	200	-
13.3(Armouring : Dimensions -Formed wire )	-	200	-
13.4(Armour: Joint)	-	100	-
13.5(Armouring : Resistance Test)	-	500	-
13.6 a)(ARMOURING: Tensile Strength)	-	300	-
13.6 b)(ARMOURING: Elongation )	-	200	-
13.6 c)(ARMOURING: Torsion Test (For round wire ) )	-	200	-
13.6 d)(ARMOURING: Winding Test(For formed wire))	-	200	-
13.6 e)(ARMOURING: Uniformity of zinc coating)	-	500	-
Cl.13.5.1 and Table 7(Resistance Test for Armouring (other than mining Cables))	-	500	-
Cl.15.4(Cold Impact Test (For outer sheath))	-	500	-
Cl.15.4(Cold Bend Test (for outer sheath))	-	500	-
Cl.8(Conductor)	-	100	-
Cl.8(Conductor)	-	100	-
Cl.8(Conductor)	-	100	-
Cl 16(Halogen Acid Gas Test)	-	2500	-
Cl 16(Halogen Acid Gas Test)	-	2500	-
Cl 16(Halogen Acid Gas Test)	-	2500	-
Table 2(Cold bend test for Outer sheath)	-	500	-
Table 2(Cold Impact test for Outer sheath)	-	500	-
Cl No. 16.15(Smoke density test)	-	2500	-
Table 4(Copper purity test)	-	2000	-
13.6 f)(ARMOURING: Mass of zinc coating )	-	500	-
13.6 g)(ARMOURING: Resistivity)	-	500	-
Table 1(Ageing in air oven - Elongation on Insulation)	-	1000	-
Table 1(Ageing in air oven - Tensile strength on Insulation)	-	1000	-
Table 1(Ageing in air oven - Elongation on Insulation)	-	1000	-
15.4 (b)(Cold impact)	-	500	-
15.4 (a)(Cold bend)	-	500	-
17.3(cable Code )	-	100	-
17.2(cable Indentification )	-	100	-
17.1(Manufacturer'. identification)	-	100	-
16.14(Temperature Index)	-	2500	-
16.13(Test for Halogen Acid Gas Evolution)	-	2500	-
16.9(Oxygen Index Test)	-	2500	-
16.3(FLAMMABILITY TEST : Unaffected length )	-	250	-
16.3(FLAMMABILITY TEST : Period of Burning )	-	250	-
16.2(HIGH VOLTAGE TEST )	-	500	-
Table 1(Ageing in air oven - Tensile strength on Insulation)	-	1000	-
14.1(Outer Sheath : Application)	-	100	-
14.2(Colour of outer sheath)	-	100	-
14.3(Thickness of outer sheath - AVERAGE)	-	200	-
14.3(Thickness of outer sheath - minimum)	-	200	-
15.1 a) i)(Annealing Test ( For copper wire ) )	-	300	-
15.1 a) ii)(Tensile test (for aluminium) - Before stranding )	-	500	-
15.1 a) ii)(Tensile test (for aluminium) - After stranding )	-	500	-
15.1 a) iii)(Wrapping test (for aluminium))	-	200	-
15.1 a) iv)(Resistance test - Main conductor)	-	500	-
15.1 a) iv)(Resistance test - Neutral conductor)	-	500	-
15.1 d) i) (Phyaical tests for insulation : Tensile Test)	-	300	-
15.1 d) i) (Phyaical tests for insulation : Elongation)	-	200	-
15.1 d) ii) (Phyaical tests for insulation - Ageing in air Oven : Tensile Variation )	-	1000	-
15.1 d) ii) (Phyaical tests for insulation- Ageing in air oven : Elongation Variation )	-	1000	-
15.1 d) iii) (Phyaical tests for insulation : Hot set )	-	500	-
15.1 d) iii) (Phyaical tests for insulation : Permanent set )	-	300	-
15.1 d) iv) (Phyaical tests for insulation : Shrinkage )	-	500	-
15.1 d) iv) (Phyaical tests for insulation : Shrinkage - Crack observed )	-	500	-
15.1 d) v) (Insulation: Waterabsorption(gravimetric))	-	1500	-
15.1 e) i) (Physical tests for outer sheath : Tensile stregth)	-	300	-
15.1 e) i) (Physical tests for outer sheath : Elongation)	-	200	-
15.1 e) ii) (Physical tests for outer sheath- Ageing in air oven : Tensile stregth )	-	1000	-
15.1 e) ii) (Physical tests for outer sheath -Ageing in air oven : Elongation )	-	100	-
15.1 e) ii) (Physical tests for outer sheath- Ageing in air oven : Tensile stregth Variation )	-	1000	-
15.1 e) ii) (Physical tests for outer sheath -Ageing in air oven : Elongation Variation )	-	1000	-
15.1 e) iii) (Sheath: Loss of mass in air oven)	-	1000	-
15.1 e) iv) (Phyaical tests for Sheath : Shrinkage )	-	500	-
15.1 e) iv) (Phyaical tests for Sheath : Shrinkage - Crack observed )	-	500	-
15.1 e) v) (Sheath : Hot deformation)	-	500	-
15.1 f)(INSULATION RESISTANCE TEST : Volume resistivity )	-	1000	-
15.1 e) vi) (Sheath : Heat shock test)	-	500	-
15.1 e) vii) (Sheath : Thermalstability)	-	300	-
16.1(Flame Retardance Test on Single Cables)	-	1000	-

28 Nov, 2028

-
-

IS 9523 (2000)

Ductile iron fittings for pressure pipes for water, gas and sewage - Specification (First Revision)

15000 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
Cl 5(Thickness)	-	200	-
Cl 6 & Table 4,5,6&7(Design & Tolerance)	-	200	-
Cl 7(Rubber Gasket)	-	200	-
Cl 9(Tensile Test & Hardness Test)	-	200	-
Cl 10(Hydrostatic Test)	-	4000	-
Cl 11(Nominal Diameter, Ovality, Dimensions, No. Of Holes & Bolt Sizes)	-	7000	-
Cl 13(Coating)	-	300	-
Cl 5(Thickness)	-	200	-
Cl 6 & Table 4,5,6&7(Design & Tolerance)	-	7000	-
Cl 7(Rubber Gasket)	-	500	-
Cl 9(Tensile Test & Hardness Test)	-	10000	-
Cl 10(Hydrostatic Test)	-	4000	-
Cl 11(Nominal Diameter, Ovality, Dimensions, No. Of Holes & Bolt Sizes)	-	7000	-
Cl 13(Coating)	-	300	-
Cl 13(Coating)	-	300	-
Cl 11(Nominal Diameter, Ovality, Dimensions, No. Of Holes & Bolt Sizes)	-	7000	-
Cl 10(Hydrostatic Test)	-	4000	-
Cl 9(Tensile Test & Hardness Test)	-	10000	-
Cl 7(Rubber Gasket)	-	200	-
Cl 6 & Table 4,5,6&7(Design & Tolerance)	-	7000	-
Cl 5(Thickness)	-	200	-
Cl 5(Thickness)	-	200	-
Cl 6 & Table 4,5,6&7(Design & Tolerance)	-	7000	-
Cl 7(Rubber Gasket)	-	200	-
Cl 9(Tensile Test & Hardness Test)	-	10000	-
Cl 10(Hydrostatic Test)	-	4000	-
Cl 11(Nominal Diameter, Ovality, Dimensions, No. Of Holes & Bolt Sizes)	-	7000	-
Cl 13(Coating)	-	300	-

28 Nov, 2028

-
-

IS 5312 : Part 1 (2004)

Swing Check Type Reflux (Non-Return] Valves for Water Works Purposes - Part 1 : Single-Door Pattern

PN 1.0 &PN 1.6

9000 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
3(Nominal Pressure)	-	300	-
4(Nominal Sizes)	-	300	-
4.1.1(Actual bore)	-	300	-
6.2(Manufacture Dimensions Table 2 )	-	300	-
6.2(Manufacture Dimensions Table 2 )	-	300	-
6.4(Manufacture )	-	300	-
6.5(Manufacture )	-	300	-
6.6(Manufacture )	-	300	-
6.7(Manufacture )	-	300	-
6.8(Manufacture )	-	300	-
6.8.1(Manufacture )	-	300	-
6.9(Manufacture )	-	300	-
6.9(Manufacture )	-	300	-
6.9(Manufacture )	-	300	-
6.9(Manufacture )	-	300	-
6.9(Manufacture )	-	300	-
6.10(Manufacture )	-	300	-
6.10.1(Manufacture )	-	300	-
6.12(Door Faces)	-	400	-
6.13(By-pass arrangements)	-	400	-
6.13.1(By-pass arrangements)	-	400	-
6.13.1(By-pass arrangements)	-	400	-
7.1(Coating)	-	700	-
7.2(Coating)	-	700	-
8.2(Hydrostatic Body Test )	-	1600	-
8.3(Hydrostatic Seat Test)	-	1600	-
6.5(Manufacture )	-	1600	-

28 Nov, 2028

-
-

IS 14845 (2000)

Resilient seated cast iron air relief valves for water works purposes - specification

S1 , S2 , DS1, DS 2, DK

20000 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
(Cl 3)&(Cl5)(Type & Nom Size)	-	200	-
(Cl 3)&(Cl5)(Type & Nom Size)	-	200	-
(Cl 3)&(Cl5)(Type & Nom Size)	-	200	-
(Cl 4)(Nom.Pressures)	-	5000	-
(Cl 8)(End Connection)	-	200	-
(Cl 8)(End Connection)	-	200	-
(Cl 8)(End Connection)	-	200	-
(Cl 9)(Material)	-	200	-
(Cl10.1)( Design And Manufacture)	-	200	-
(Cl10.2)( Body)	-	200	-
(Cl10.2)( Body)	-	200	-
(Cl10.2)( Body)	-	200	-
(Cl10.2)( Body)	-	200	-
(Cl10.2)( Body)	-	200	-
(Cl10.2)( Body)	-	200	-
(Cl10.2)( Body)	-	200	-
(Cl10.3)( Covers of Large Orifice Chamber)	-	300	-
(Cl10.4)(High Pressure Orifice)	-	300	-
(Cl10.4)(High Pressure Orifice)	-	300	-
(Cl10.4)(High Pressure Orifice)	-	300	-
(Cl10.4)(High Pressure Orifice)	-	300	-
(Cl10.5, Table 3)(Float)	-	300	-
(Cl10.5, Table 3)(Float)	-	300	-
(Cl10.5, Table 3)(Float)	-	300	-
(Cl10.5, Table 3)(Float)	-	300	-
(Cl10.5, Table 3)(Float)	-	300	-
(Cl10.5, Table 3)(Float)	-	300	-
(Cl10.5, Table 3)(Float)	-	300	-
(Cl10.6)(Low Pressure Seat Ring)	-	300	-
(Cl10.6)(Low Pressure Seat Ring)	-	300	-
(Cl10.6)(Low Pressure Seat Ring)	-	300	-
(Cl10.6)(Low Pressure Seat Ring)	-	300	-
(Cl10.6)(Low Pressure Seat Ring)	-	300	-
(Cl10.6)(Low Pressure Seat Ring)	-	300	-
(Cl 10.7)(Joint Supporting Ring)	-	200	-
(Cl 10.8)(Cowl)	-	200	-
(Cl 10.8)(Cowl)	-	200	-
(Cl 10.9)(Gasket or jointing material )	-	200	-
(Cl10.6)(Nut & Bolts)	-	200	-
Cl 10.11(Built- in-isolating Valve)	-	300	-
Cl 10.11(Built- in-isolating Valve)	-	300	-
Cl 10.11(Built- in-isolating Valve)	-	300	-
Cl 10.11(Built- in-isolating Valve)	-	300	-
Cl 10.11(Built- in-isolating Valve)	-	300	-
Cl 10.11(Built- in-isolating Valve)	-	300	-
Cl 10.11(Built- in-isolating Valve)	-	300	-
Cl 10.11(Built- in-isolating Valve)	-	300	-
Cl 10.11(Built- in-isolating Valve)	-	300	-
Cl 10.11(Built- in-isolating Valve)	-	300	-
Cl 10.11(Built- in-isolating Valve)	-	300	-
(Cl.11)(Finish)	-	200	-
(Cl.12)(Testing and Performance)	-	500	-
(Cl.12)(Testing and Performance)	-	500	-
(Cl.12)(Testing and Performance)	-	500	-
(Cl.12.4.4) : (Body Test )	-	300	-
(Cl.14)(Coating)	-	300	-
(Cl.14)(Coating)	-	300	-

28 Nov, 2028

-
-

IS 13095 (2020)

Butterfly Valves for General Purposes ( First Revision )

PN 0.25/PN 0.6/ PN 1.0,/PN 1.6/PN 2.5 AND PN 4.0, Clas 125/150/300, DN Upto 1200 mm

9000 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
4.0(VALVE END CONNECTIONS)	-	600	-
5.0(SERVICE APPLICATIONS)	-	600	-
6.0( NOMINAL SIZES )	-	200	-
7.0(NOMINAL PRESSURES)	-	200	-
7.2(Class designations)	-	200	-
9-Annex B(BODY ENDS ( Double Flanged Body Ends/Wafer Body Ends) - Integral Grey Cast Iron Flanges- IS 6418 (Table 2/3/6/7/10)- Flange-D)	-	200	-
9-Annex B(BODY ENDS ( Double Flanged Body Ends/Wafer Body Ends) - Integral Grey Cast Iron Flanges-IS 6418 (Table 2/3/6/7/10)- Flange-b)	-	200	-
9-Annex B(BODY ENDS ( Double Flanged Body Ends/Wafer Body Ends) - Integral Grey Cast Iron Flanges-IS 6418 (Table 2/3/6/7/10)- Rasied Face-d4)	-	200	-
9-Annex B(BODY ENDS ( Double Flanged Body Ends/Wafer Body Ends) - Integral Grey Cast Iron Flanges-IS 6418 (Table 2/3/6/7/10)- Rasied Face-f)	-	200	-
9-Annex B(BODY ENDS ( Double Flanged Body Ends/Wafer Body Ends) - Integral Grey Cast Iron Flanges- IS 6418 (Table 2/3/6/7/10)- Bolting )	-	200	-
9-Annex B(BODY ENDS ( Double Flanged Body Ends/Wafer Body Ends) - Integral Grey Cast Iron Flanges- IS 6418 (Table 2/3/6/7/10)- Drilling -Nos. )	-	200	-
9-Annex B(BODY ENDS ( Double Flanged Body Ends/Wafer Body Ends) - Integral Grey Cast Iron Flanges- IS 6418 (Table 2/3/6/7/10)- Drilling -k)	-	200	-
9-Annex B(BODY ENDS ( Double Flanged Body Ends/Wafer Body Ends) - Integral Grey Cast Iron Flanges- IS 6418 (Table 2/3/6/7/10)- Neck -d3)	-	200	-
9-Annex B(BODY ENDS ( Double Flanged Body Ends/Wafer Body Ends) - Integral Grey Cast Iron Flanges- IS 6418 (Table 2/3/6/7/10)- Neck- r)	-	200	-
9-Annex B(BODY ENDS ( Double Flanged Body Ends/Wafer Body Ends) -Malleable Cast Iron Integral Flanges- IS 6418 (Table 4/8/11)- Flange-D)	-	200	-
9-Annex B(BODY ENDS ( Double Flanged Body Ends/Wafer Body Ends) -Malleable Cast Iron Integral Flanges- IS 6418 (Table 4/8/11)- Flange-b)	-	200	-
9-Annex B(BODY ENDS ( Double Flanged Body Ends/Wafer Body Ends) -Malleable Cast Iron Integral Flanges- IS 6418 (Table 4/8/11)- Rasied Face-d4)	-	200	-
9-Annex B(BODY ENDS ( Double Flanged Body Ends/Wafer Body Ends) -Malleable Cast Iron Integral Flanges- IS 6418 (Table 4/8/11)- Rasied Face-f)	-	200	-
9-Annex B(BODY ENDS ( Double Flanged Body Ends/Wafer Body Ends) -Malleable Cast Iron Integral Flanges- IS 6418 (Table 4/8/11)- Bolting)	-	200	-
9-Annex B(BODY ENDS ( Double Flanged Body Ends/Wafer Body Ends) -Malleable Cast Iron Integral Flanges- IS 6418 (Table 4/8/11)- Drilling -Nos. )	-	200	-
9-Annex B(BODY ENDS ( Double Flanged Body Ends/Wafer Body Ends) -Malleable Cast Iron Integral Flanges- IS 6418 (Table 4/8/11)- Drilling -d2 )	-	200	-
9-Annex B(BODY ENDS ( Double Flanged Body Ends/Wafer Body Ends) -Malleable Cast Iron Integral Flanges- IS 6418 (Table 4/8/11)- Drilling -k)	-	200	-
9-Annex B(BODY ENDS ( Double Flanged Body Ends/Wafer Body Ends) -Malleable Cast Iron Integral Flanges- IS 6418 (Table 4/8/11)- Neck -d3)	-	200	-
9-Annex B(BODY ENDS ( Double Flanged Body Ends/Wafer Body Ends) -Malleable Cast Iron Integral Flanges- IS 6418 (Table 4/8/11)- Neck-r)	-	200	-
9-Annex B(BODY ENDS ( Double Flanged Body Ends/Wafer Body Ends) -Steel Plate Flanges for Welding- IS 6392 (Table 3/5/11/17/23/28)- Pipe O.D.- d1)	-	200	-
9-Annex B(BODY ENDS ( Double Flanged Body Ends/Wafer Body Ends) -Steel Plate Flanges for Welding- IS 6392 (Table 3/5/11/17/23/28)- Flange - D)	-	200	-
9-Annex B(BODY ENDS ( Double Flanged Body Ends/Wafer Body Ends) -Steel Plate Flanges for Welding- IS 6392 (Table 3/5/11/17/23/28)- Flange - b)	-	200	-
9-Annex B(BODY ENDS ( Double Flanged Body Ends/Wafer Body Ends) -Steel Plate Flanges for Welding- IS 6392 (Table 3/5/11/17/23/28)- Raised Face - d4)	-	200	-
9-Annex B(BODY ENDS ( Double Flanged Body Ends/Wafer Body Ends) -Steel Plate Flanges for Welding- IS 6392 (Table 3/5/11/17/23/28)- Raised Face - f)	-	200	-
9-Annex B(BODY ENDS ( Double Flanged Body Ends/Wafer Body Ends) -Steel Plate Flanges for Welding- IS 6392 (Table 3/5/11/17/23/28)- Bolting)	-	200	-
9-Annex B(BODY ENDS ( Double Flanged Body Ends/Wafer Body Ends) -Steel Plate Flanges for Welding- IS 6392 (Table 3/5/11/17/23/28)- Drilling - Nos.)	-	200	-
9-Annex B(BODY ENDS ( Double Flanged Body Ends/Wafer Body Ends) -Steel Plate Flanges for Welding- IS 6392 (Table 3/5/11/17/23/28)- Drilling -d2)	-	200	-
9-Annex B(BODY ENDS ( Double Flanged Body Ends/Wafer Body Ends) -Steel Plate Flanges for Welding- IS 6392 (Table 3/5/11/17/23/28)- Drilling -k)	-	200	-
9-Annex B(BODY ENDS ( Double Flanged Body Ends/Wafer Body Ends) -Integral Steel Flanges- IS 6392 (Table 15/21/26)- Flange -D)	-	200	-
9-Annex B(BODY ENDS ( Double Flanged Body Ends/Wafer Body Ends) -Integral Steel Flanges- IS 6392 (Table 15/21/26)- Flange - b)	-	200	-
9-Annex B(BODY ENDS ( Double Flanged Body Ends/Wafer Body Ends) -Integral Steel Flanges- IS 6392 (Table 15/21/26)- Raised Face - d4)	-	200	-
9-Annex B(BODY ENDS ( Double Flanged Body Ends/Wafer Body Ends) -Integral Steel Flanges- IS 6392 (Table 15/21/26)- Raised Face - f)	-	200	-
9-Annex B(BODY ENDS ( Double Flanged Body Ends/Wafer Body Ends) -Integral Steel Flanges- IS 6392 (Table 15/21/26)- Bolting)	-	200	-
9-Annex B(BODY ENDS ( Double Flanged Body Ends/Wafer Body Ends) -Integral Steel Flanges- IS 6392 (Table 15/21/26)- Drilling - Nos.)	-	200	-
9-Annex B(BODY ENDS ( Double Flanged Body Ends/Wafer Body Ends) -Integral Steel Flanges- IS 6392 (Table 15/21/26)- Drilling -d2)	-	200	-
9-Annex B(BODY ENDS ( Double Flanged Body Ends/Wafer Body Ends) -Integral Steel Flanges- IS 6392 (Table 15/21/26)- Drilling -k)	-	200	-
9.1.1 ( Double Flanged Body Ends)	-	200	-
9.2.2(Wafer Body Ends)	-	200	-
10.1 -Table1 (FACE TO FACE DIMENSIONS)	-	200	-
11.0(Bodies)	-	200	-
12.0(DISC AND SHAFT)	-	200	-
13.0(SEATING AND LININGS)	-	200	-
14.0(BEARINGS)	-	200	-
14.2(BEARINGS)	-	200	-
14.3(BEARINGS)	-	200	-
16.0(OPERATION)	-	700	-
17.1(Performance Testing)	-	5000	-
17.2(Body Test)	-	5000	-
17.3(Seat Test)	-	5000	-
17.4(Disc Strength Test)	-	5000	-
Cl. 15 Table 2(Materials)	-	10000	-
9-Annex B(BODY ENDS ( Double Flanged Body Ends/Wafer Body Ends) - Integral Grey Cast Iron Flanges- IS 6418 (Table 2/3/6/7/10)- Drilling -d2)	-	200	-

28 Nov, 2028

-
-

IS 14846 (2000)

Sluice valve for water works purposes (50 To 1200 mm size) - specification

Upto NB 700 mm

15000 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
4(Nominal Pressures)	-	1000	-
5.1(Nominal Sizes)	-	1000	-
5.1.1(Actual Bore)	-	1000	-
6(Material)	-	5000	-
7.2.1(Manufacture - Bodies and Bonnets)	-	1000	-
7.2.1(Manufacture - Bodies )	-	1000	-
7.2.2(Manufacture - Bodies and Bonnets)	-	1000	-
7.2.3(Manufacture)	-	1000	-
7.2.4(Manufacture)	-	1000	-
7.2.4(Manufacture)	-	1000	-
7.2.4(Manufacture)	-	1000	-
7.3 Table 3A 1(Flanges)	-	1000	-
7.3 Table 3A 2(Flanges)	-	1000	-
7.3 Table 3A 3(Flanges)	-	1000	-
7.3 Table 3A 4(Flanges)	-	1000	-
7.3 Table 3A 5(Flanges)	-	1000	-
7.3 Table 3A 6(Flanges)	-	1000	-
7.4.1(Wedges )	-	1000	-
7.4.1(Wedges)	-	1000	-
7.4.1(Wedges)	-	1000	-
7.4.2(Wedge Faces)	-	1000	-
7.5(Guides and Lugs)	-	1000	-
7.5(Guides and Lugs)	-	1000	-
7.5(Guides and Lugs)	-	1000	-
7.5.1(Guides and Lugs)	-	1000	-
7.6 Table 4(Facing or Seat Rings)	-	1000	-
7.6 Table 4(Facing or Seat Rings)	-	1000	-
7.6 Table 4(Facing or Seat Rings)	-	1000	-
7.6 Table 4(Facing or Seat Rings)	-	1000	-
7.7.1 Table 2,3(Dimension of Stem and Wedge Nuts)	-	1000	-
7.7.1 Table 2,3(Dimension of Stem and Wedge Nuts)	-	1000	-
7.7.1 Table 2,3(Dimension of Stem and Wedge Nuts)	-	1000	-
7.7.1 Table 2,3(Dimension of Stem and Wedge Nuts)	-	1000	-
7.7.1 Table 2,4(Dimension of Stem and Wedge Nuts)	-	1000	-
7.7.1 Table 2,5(Dimension of Stem and Wedge Nuts)	-	1000	-
7.7.2(Stem and Wedge Nuts)	-	1000	-
7.7.3(Stem and Wedge Nuts)	-	1000	-
7.7.4(Stem and Wedge Nuts)	-	1000	-
7.7.4(Stem and Wedge Nuts)	-	1000	-
7.9(Height of Valve)	-	1000	-
7.1(Gears)	-	1000	-
7.11(Hand Wheel)	-	1000	-
7.11(Hand Wheel)	-	1000	-
7.11(Hand Wheel)	-	1000	-
7.12(Valve Caps)	-	1000	-
7.12(Valve Caps)	-	1000	-
7.12(Valve Caps)	-	1000	-
7.12(Valve Caps)	-	1000	-
7.13 Table 2, 3(Stuffing Box )	-	1000	-
7.13 Table 2, 3(Stuffing Box )	-	1000	-
7.13 Table 2, 3(Stuffing Box )	-	1000	-
7.13 Table 2, 3(Stuffing Box )	-	1000	-
7.14(By Pass Arrangements)	-	1000	-
7.14(By Pass Arrangements)	-	1000	-
8(Accessories or Optical Features)	-	1000	-
9(Coating)	-	1000	-
10.1 Annex B-1(Hydraulic Test)	-	5000	-
10.1 Annex B-2(Hydraulic Test)	-	5000	-
10.2(Flaw Detection Test for Stems)	-	2000	-
Cl.6, Table-1(CARBON)	-	500	-
Cl.6, Table-1(SULPHUR)	-	500	-
Cl.6, Table-1(PHOSPHURS)	-	500	-
Cl.6, Table-1(MANGANESE)	-	500	-
Cl.6, Table-1(NITROGEN)	-	500	-
Cl.6, Table-1(SILICON)	-	500	-
Cl.6, Table-1(ALUMINIUM)	-	500	-
Cl.6, Table-1(CHROMIUM)	-	500	-
Cl.6, Table-1(NIOBIUM)	-	500	-
Cl.6, Table-1(NICKEL)	-	500	-
Cl.6, Table-1(VANADIUM)	-	500	-
Cl.6, Table-1(TITANIUM)	-	500	-
Cl.6, Table-1(MOLYBDENUM)	-	500	-
Cl.6, Table-1(ZINC)	-	500	-
Cl.6, Table-1(CADMIUM)	-	500	-
Cl.6, Table-1(IRON)	-	500	-
Cl.6, Table-1(TIN)	-	500	-
Cl.6, Table-1(COPPER)	-	500	-
Cl.6, Table-1(THALLIUM)	-	500	-
Cl.6, Table-1(INDIUM)	-	500	-
Cl.6, Table-1(TOTAL IMPURITIES)	-	500	-
Cl.6, Table-1(CARBON)	-	500	-

28 Nov, 2028

-
-

IS 7887 (1992)

Mild steel wire rod for general engineering purposes - Specification (First Revision)

1 , 2 , 3, 4 , 4M , 5, 6 , 6M, 7 , 7M, 8 ,8M, 9 , 10 , 10M

5500 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
Cl 8(Workmanship)	-	200	-
Cl 9(Nominal Diameter & Out Of Shape)	-	200	-
Cl 8(Workmanship)	-	200	-
Cl 9(Nominal Diameter & Out Of Shape)	-	200	-
Cl 8(Freedom from defects)	-	200	-
Cl 9(Nominal Diameter & Out Of Shape)	-	200	-
6.1(Carbon %)	-	200	-
6.1(Manganese %)	-	200	-
6.1(Phosphorus %)	-	200	-
6.1(Sulphur %)	-	200	-
6.1(Silicon %)	-	200	-
6.1( Aluminium %)	-	200	-
6.1(Carbon %)	-	200	-
6.1(Manganese %)	-	200	-
6.1(Phosphorus %)	-	200	-
6.1(Sulphur %)	-	200	-
6.1(Silicon %)	-	200	-
6.1( Aluminium %)	-	200	-
6.1(Carbon %)	-	200	-
6.1(Manganese %)	-	200	-
6.1(Phosphorus %)	-	200	-
6.1(Sulphur %)	-	200	-
6.1(Silicon %)	-	200	-
6.1( Aluminium %)	-	200	-
Cl. 9(Out of Shape)	-	200	-
Cl 9(Nominal Diameter & Out Of Shape)	-	200	-
Cl 8(Workmanship)	-	200	-
Cl 8(Workmanship)	-	200	-
Cl 9(Nominal Diameter & Out Of Shape)	-	200	-
Table 1 Note 3(Any Instrumental Method/Chemical Method)	-	800	-
Amendment 1(Any Instrumental Method/Chemical Method)	-	800	-
Amendment 1(Any Instrumental Method/Chemical Method)	-	800	-
Amendment 1(Any Instrumental Method/Chemical Method)	-	800	-
Amendment 1(By Calculation)	-	200	-
Table 1 Note 3(Any Instrumental Method/Chemical Method)	-	800	-
Amendment 1(Any Instrumental Method/Chemical Method)	-	800	-
Amendment 1(Any Instrumental Method/Chemical Method)	-	800	-
Amendment 1(Any Instrumental Method/Chemical Method)	-	800	-
Amendment 1(Any Instrumental Method/Chemical Method)	-	800	-
Amendment 1(By Calculation)	-	800	-
Table 1 Note 3(Copper)	-	200	-
Amendment 1(Niobium)	-	200	-
Amendment 1(Vanadium)	-	200	-
Amendment 1(Titanium)	-	200	-
Amendment 1(Micro Alloying Element (Nb+V+Ti))	-	800	-
9.1(Diameter - SOP-MT-23)	-	200	-
9.3(Out of Shape - SOP-MT-23)	-	200	-
11(Marking)	-	200	-
Table 1 Note 3(Copper)	-	200	-
Amendment 1(Niobium)	-	200	-
Amendment 1(Vanadium)	-	200	-
Amendment 1(Titanium)	-	200	-
Amendment 1(Micro Alloying Element (Nb+V+Ti))	-	800	-
Cl 9("1.Outer dia (08) 2.Out of shape (08)")	-	200	-
Cl 9(Avarage Outer dia (08))	-	200	-
Cl 9(Maximum Out of shape (08))	-	200	-

28 Nov, 2028

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IS 14255 (1995)

Aertal bunched cables - For working voltages up to and including 1100 Volts - Specification

XLPE / PE insulated Three / Single Phase Conductor With / Without Insulated Neutral Conductor and With/ Without Street Lighting Conductor with Nominal Cross Sectional Areas of Phase Conductor Upto and Including 95 mm²

25000 View breakup
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Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
4.1(Phase/Street Lighting conductor)	-	250	-
4.2(Messenger (Neutral Conductor or Otherwise))	-	2000	-
5.1(Insulation)	-	750	-
6.1(Flexibility class)	-	100	-
6.2(Compactness)	-	100	-
6.2(No of strands)	-	100	-
6.2(Surface)	-	100	-
6.3(Protective barrier)	-	100	-
6.4(size of street lighting conductor)	-	250	-
6.5(Size of messenger conductor )	-	250	-
6.6(Joints in messenger conductor )	-	100	-
6.6(Direction of outer layer)	-	100	-
7.1(Insulation)	-	750	-
7.2( Thickness of insulation)	-	250	-
7.3(Tolerance on thickness of insulation )	-	250	-
7.4(Aplication of the insulation )	-	100	-
7.5(Colour of the insulation )	-	100	-
8.1(Core identification)	-	100	-
8.2(Core identification)	-	100	-
8.3(Identification by other means)	-	100	-
9.1(Assembly (Laying up))	-	250	-
9.2(Assembly (Laying up))	-	250	-
9.3(Direction of lay)	-	100	-
10.1 a) i)(Tests on phase/street light conductor: tensile test - Test method IS10810:Part 2)	-	250	-
10.1 a) ii)(Wrapping test - 10810: Part 3)	-	250	-
10.1 a) iii)(Resistance test - IS10810: Part 5)	-	500	-
10.1 b) i)(Test on messenger conductor: Breaking load - IS 10810: Part 2)	-	1000	-
10.1 b) ii)(Test on messenger conductor: Elongation test - Cl 11.3)	-	250	-
10.1 b) iii)(Test on messenger conductor: Resistance test - IS 10810: Part 5)	-	500	-
10.1 c) i)(Physical tests for XLPE Insulation: Tensile strength - IS 10810: Part 7)	-	250	-
10.1 c) i)(Physical tests for XLPE Insulation: elongation at break - IS 10810: part 7)	-	250	-
10.1 c) ii)(Ageing in air oven : Tensile strength variation - IS 10810:Part 11)	-	1000	-
10.1 c) ii)(Ageing in air oven : Elongation variation- IS 10810: Part 11)	-	1000	-
10.1 c) iii)(Hot set test: Elongation under load - IS 10810: Part 30)	-	750	-
10.1 c) iii)(Hot set test: Permanent elongation (set) after cooling - IS 10810: Part 30)	-	500	-
10.1 c) iv)(Shrinkage test : Shrinkage - 10810:Part 12)	-	500	-
10.1 c) iv)(Shrinkage test : Crack Observed - 10810:Part 12)	-	200	-
10.1 c) v)(Water ahsorption (Gravimetric) - IS 10810: Part 33 )	-	2500	-
10.1 d) i)(Physical test for PE insulation: Tensile strength - IS 10810: Part 7 )	-	250	-
10.1 d) i)(Physical test for PE insulation: elongation at break - IS 10810: Part 7)	-	250	-
10.1 d) ii)(Melt flow index- IS 10810: Part 23)	-	500	-
10.1 d) iv)(Vicat softening point -IS 10810: Part 22)	-	1000	-
10.1 d) v)(Environmental stress cracking -IS 10810:Part29)	-	1000	-
10.1 f)(Insulation resistance (Volume resistivity) test a) volume resistivity at 27°C - IS 10810: Part 43)	-	500	-
10.1 f)(Insulation resistance (Volume resistivity) test b) volume resistivity at 70°C - IS 10810: Part 43)	-	500	-
10.1 g)(High voltage test - IS10810:Part 45)	-	1000	-
11.4(Bending Test on the Completed Cable ( Optional) )	-	500	-
11.4(Bending Test on the Completed Cable ( Optional))	-	250	-
10.1 d) iii)(Carbon Black Content)	-	1000	-
6.1(Construction of phase conductor)	-	100	-
6.1(Number of wires (phase conductor))	-	100	-
6.1(Construction of Street Lighting conductor)	-	100	-
6.1(Number of wires (Street Lighting conductor))	-	100	-
12.1(Manufacturer's Identification)	-	100	-
12.2(Cable Identification)	-	100	-

28 Nov, 2028

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IS 398 : Part 4 (1994)

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

15 mm² to 767 mm²

20000 View breakup
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Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
6.1(Freedom from Defects)	-	100	-
7.1 Table-1(Dimensional measurement of wires)	-	100	( For Each Wire )
7.2.2 Table-2, Table-4(Calculated resistance of Stranded Conductor)	-	500	-
8.1(Joints in wires-Conductors Containing Seven Wires)	-	100	-
8.2(Joints in wires-Conductors Containing More Than Seven Wires)	-	300	-
9.1(Stranding)	-	500	-
9.2 Table 3(Lay Ratio of stranded conductors)	-	250	( For Each Layer )
9.3(Direction of Lay)	-	100	-
9.4(Multiple layers of wires)	-	100	-
11(Packing and Marking)	-	100	-
12.2 Table 1(Breaking Load Test- Before Stranding)	-	500	-
12.2 Table 1(Breaking Load Test- After Stranding)	-	500	-
12.3 Table 1(Elongation Test- Before Stranding)	-	500	-
12.3 Table 1(Elongation Test- After Stranding)	-	500	-
12.4 Table 1(Resistance of Aluminium wire)	-	500	-
9.2(Lay Ratio 24 wire layer)	-	100	-
9.2(Lay Ratio 18 wire layer)	-	100	-
9.2(Lay Ratio 12 wire layer)	-	100	-
9.2(Lay Ratio 3/6 wire layer)	-	100	-
7.2.1(Sizes)	-	500	-
Cl-7.2 (7.2.1, 7.2.2), Table-2(Stranding and Wire Dia)	-	500	-
Cl- 7.2 (7.2.1, 7.2.2), Table-2(Approx Overall Dia)	-	100	-
Cl. 7.2 (7.2.1, 7.2.2), Table 2(Approx Mass)	-	500	-
Cl- 7.2 (7.2.1, 7.2.2), Table-2(Calculated Maximum Resistance at 20°C)	-	500	-
Cl- 7.2 (7.2.1, 7.2.2), Table-2(Approx Calculated Breaking Load)	-	500	-

28 Nov, 2028

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IS 210 (2009)

Grey iron castings - Specification (First Revision)

FG 150 to FG 400

8000 View breakup
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Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
6(Chemical Composition(chemical composition shall be as agreed to between the purchaser and the manufacturer.))	-	1000	-
7.1(WORKMANSHIP AND FINISH)	-	200	-
10.1(FREEDOM FROM DEFECTS)	-	200	-
10.2(FREEDOM FROM DEFECTS)	-	200	-
13(SIZE OF TEST BARS-Diameter)	-	200	-
13(SIZE OF TEST BARS-Length)	-	200	-
15, Table 3(TENSIL.E TEST- IS 1608 Part1 )	-	1000	-
16, Table 3(Hardness Test)	-	200	-
17,Annex B(TRANSVERSE TEST)	-	1000	-
18(HYDROSTATIC TEST)	-	2000	-
9(IS 7754)	-	500	-
9(IS 7754)	-	500	-
9(Microstructure)	-	500	-
21(Marking)	-	200	-
9(Microstructure)	-	500	-
7.2(Casting dimensions)	-	200	-
Cl-6(Phosprorus (P) - IS 12308 ( P-5))	-	400	-
18(HYDROSTATIC TEST)	-	1000	-
6(Chemical Composition(chemical composition shall be as agreed to between the purchaser and the manufacturer.))	-	1000	-
7.1(WORKMANSHIP AND FINISH)	-	200	-
10.1(FREEDOM FROM DEFECTS)	-	200	-
10.2(FREEDOM FROM DEFECTS)	-	200	-
13(SIZE OF TEST BARS-Diameter)	-	200	-
13(SIZE OF TEST BARS-Length)	-	200	-
15, Table 3(TENSIL.E TEST- IS 1608 Part1 )	-	200	-
16, Table 3(Hardness Test)	-	200	-
17,Annex B(TRANSVERSE TEST)	-	1000	-

28 Nov, 2028

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Bureau of Indian Standards

The National Standards Body of India

ARYAVRAT TEST HOUSE PRIVATE LIMITED

L.R. DAG No .257 AND 259, MOUZA ARGOURI, NH 6, BOMBAY ROAD, JANGALPUR,NATIBPUR, Howrah, Howrah, West Bengal, 711302

8240118890 aryavrat.lab@gmail.com

Scope List