| 1 |
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) |
Effective Date |
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 |
| 2 |
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) |
Effective Date |
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 |
| 3 |
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) |
Effective Date |
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 |
-
- |
| 4 |
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) |
Effective Date |
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 |
-
- |
| 5 |
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) |
Effective Date |
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 |
-
- |
| 6 |
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) |
Effective Date |
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 |
-
- |
| 7 |
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) |
Effective Date |
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 |
-
- |
| 8 |
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) |
Effective Date |
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 |
-
- |
| 9 |
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) |
Effective Date |
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 |
-
- |
| 10 |
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
-
| Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
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 |
-
- |
| 11 |
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
-
| Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
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 |
-
- |
| 12 |
IS 210 (2009) |
Grey iron castings - Specification (First Revision) |
FG 150 to FG 400 |
8000 View breakup
-
| Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
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 |
-
- |
