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 Designation |
3500 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
Cl 5.1(Workmanship) |
- |
300 |
|
- |
Cl 6.2(Diameter & Ovality) |
- |
500 |
|
- |
Cl 6.2(Weight) |
- |
300 |
|
- |
Cl 8.2(Bend test) |
- |
500 |
|
- |
Cl 9.3(Press) |
- |
400 |
|
- |
Cl 5.1(Workmanship) |
- |
300 |
|
- |
Cl 6.1(Diameter) |
- |
500 |
|
- |
Cl 6.2(Weight) |
- |
400 |
|
- |
Cl 8.1(ultimate tensile stress, yield stress and percentage elongation) |
- |
1000 |
|
- |
Cl 9.3(Press) |
- |
400 |
|
- |
Cl 5.1(Workmanship) |
- |
300 |
|
- |
Cl 6.2(Diameter & Ovality) |
- |
400 |
|
- |
Cl 6.2(Weight) |
- |
300 |
|
- |
Cl 8(Physical Requirements) |
- |
1000 |
|
- |
Cl 9.3(Press) |
- |
300 |
|
- |
Clause -4, 4.3(TITANIUM) |
- |
500 |
|
- |
Clause -4, 4.2(VANADIUM) |
- |
500 |
|
- |
Clause -4, 4.1(NIOBIUM) |
- |
500 |
|
- |
Clause -4, 4.1(Molybdenum) |
- |
500 |
|
- |
Clause -4, 4.1(Chromium) |
- |
500 |
|
- |
Clause -4, 4.1(Nickel) |
- |
500 |
|
- |
Clause -4, 4.1( ALUMINIUM) |
- |
500 |
|
- |
Clause -4, 4.1(SILICON) |
- |
500 |
|
- |
Clause -4, 4.1(NITROGEN) |
- |
500 |
|
- |
Clause -4, 4.1(MANGANESE) |
- |
500 |
|
- |
Clause -4, 4.1(SULPHUR) |
- |
5005 |
|
- |
Clause -4, 4.1( CARBON) |
- |
500 |
|
- |
Cl. 8.1 Table 1(Elongation) |
- |
500 |
|
- |
Cl. 8.1 Table 1(Yield Stress) |
- |
500 |
|
- |
Clause 8.1(Elongation) |
- |
500 |
|
- |
Clause 8.1(Yield Stress) |
- |
500 |
|
- |
Clause 9.3(Bend test) |
- |
500 |
|
- |
Clause 6.1(Size) |
- |
200 |
|
- |
Cl 9.3(Press) |
- |
300 |
|
- |
Cl 8(UTM) |
- |
1000 |
|
- |
Cl 6.2(Weight) |
- |
300 |
|
- |
Cl 6.2(Diameter & Ovality) |
- |
400 |
|
- |
Cl 5.1(Workmanship) |
- |
300 |
|
- |
7(Tolerance) |
- |
200 |
|
- |
Cl 5.1(Workmanship) |
- |
200 |
|
- |
Cl 6.2(Diameter & Ovality) |
- |
400 |
|
- |
Cl 6.2(Weight) |
- |
400 |
|
- |
Cl 8(UTM) |
- |
500 |
|
- |
Cl 9.3(Press) |
- |
400 |
|
- |
Cl 4.1(Workmanship) |
- |
400 |
|
- |
Cl 5 & 6(Diameter) |
- |
500 |
|
- |
Cl 7(UTM) |
- |
500 |
|
- |
Cl 8.3(Bending To Both Side At 90°, Then Straight) |
- |
500 |
|
- |
Clause 5.1(IS 432 Part 1) |
- |
500 |
|
- |
Clause 6.2(IS 1732) |
- |
500 |
|
- |
Clause 8.1(IS 1608 Part 1) |
- |
500 |
|
- |
Clause 4(Any Instrumental Method/Chemical Method) |
- |
500 |
|
- |
Clause 4(By Calculation) |
- |
500 |
|
- |
Clause 4(By Calculation) |
- |
500 |
|
- |
Clause 4(Any Instrumental Method/Chemical Method) |
- |
500 |
|
- |
Clause 5.1(Freedom from Defect) |
- |
500 |
|
- |
Clause 6.2(Mass) |
- |
400 |
|
- |
Clause 8.1(Ultimate Tensile Stress) |
- |
500 |
|
- |
Clause 4(Boron) |
- |
400 |
|
- |
Clause 4(By Calculation) |
- |
200 |
|
- |
Clause 4(By Calculation) |
- |
200 |
|
- |
Clause 4(Copper) |
- |
200 |
|
- |
8.1 & 9.2(Yield Strength - IS: 1608 (P1)) |
- |
400 |
|
- |
8.1 & 9.2(Elongation on SoA 5.65mm GL - IS: 1608 (P1)) |
- |
500 |
|
- |
11(Marking) |
- |
400 |
|
- |
Clause 5.1(Freedom from Defect) |
- |
400 |
|
- |
Clause 6.2(Mass) |
- |
300 |
|
- |
Clause 8.1(Ultimate Tensile Stress) |
- |
500 |
|
- |
Clause 4(Boron) |
- |
400 |
|
- |
Clause 4(Carbon Equivalent) |
- |
400 |
|
- |
Clause 4(Ni+V+Ti) |
- |
500 |
|
- |
Clause 4(Copper) |
- |
500 |
|
- |
Clause 4(Copper) |
- |
500 |
|
- |
Clause -4, 4.1(PHOSPHURS) |
- |
500 |
|
- |
|
27 May, 2028 |
- Included w.e.f 26.08.2025 |
2 |
IS 1254 (2025) |
Corrugated Aluminium Sheet (Fifth Revision) |
All Designstion |
14000 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
Cl-4(FREEDOM FROM DEFECTS) |
- |
1000 |
|
- |
Cl-5(SUPPLY OF MATERIALS) |
- |
1000 |
|
- |
Cl-6(PROFILE) |
- |
1000 |
|
- |
Cl-7(MATERIAL) |
- |
5000 |
|
- |
Cl-8.1(Tolerance on the thickness) |
- |
1000 |
|
- |
Cl-8.2(Width) |
- |
1000 |
|
- |
Cl-8.3(Length) |
- |
1000 |
|
- |
Cl-8.4(Squareness) |
- |
1000 |
|
- |
Cl-8.5(Depth and Pitch of the Corrugation) |
- |
1000 |
|
- |
Cl-10(Finish) |
- |
1000 |
|
- |
Cl-12(Marking) |
- |
1000 |
|
- |
|
27 May, 2028 |
- Included w.e.f 18.08.2025 |
3 |
IS 2067 (1975) |
Specification for wrought aluminium wire for electrical purposes (Fourth Revision) |
All Designation |
14000 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
Clause No 4("Chemical
Composition") |
- |
5000 |
|
- |
Clause No 5.1("Mechanical properties
") |
- |
3000 |
|
- |
Clause No 6("Freedom from
defects
") |
- |
1000 |
|
- |
Clause No 7.1(Electrical resistivity of the wire condition o, H3, H4) |
- |
2000 |
|
- |
Clause No 8("Mechanical properties
condition o, H3, H4") |
- |
2000 |
|
- |
Clause No 9(Joints) |
- |
1000 |
|
- |
Clause No 10.1(Tolerances (on size)) |
- |
1000 |
|
- |
Clause No 12.1(Tensile test) |
- |
2000 |
|
- |
Clause No 12.2(Elongation test) |
- |
1000 |
|
- |
Clause No 12.3(Wrapping test) |
- |
1000 |
|
- |
Clause No 12.4.1(Electrical resistivity shall be measured at room temp.) |
- |
2000 |
|
- |
Clause No 15(Marking) |
- |
1000 |
|
- |
|
27 May, 2028 |
- Included w.e.f.18.08.2025 |
4 |
IS 739 (1992) |
Wrought aluminium and aluminium alloys - Wire for general engineering purposes - Specification (Third Revision) |
All Designation |
12000 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
6.0(Freedom from defects) |
- |
1000 |
|
- |
7.0(Dimension and Tolerances) |
- |
2000 |
|
- |
8.1 Table-1(Al) |
- |
5000 |
|
- |
8.1 Table-1(Cu) |
- |
5000 |
|
- |
8.1 Table-1(Mg) |
- |
5000 |
|
- |
8.1 Table-1(Si) |
- |
5000 |
|
- |
8.1 Table-1(Fe) |
- |
5000 |
|
- |
8.1 Table-1(Mn) |
- |
5000 |
|
- |
8.1 Table-1(Zn) |
- |
5000 |
|
- |
8.1 Table-1(Ti) |
- |
5000 |
|
- |
8.1 Table-1(Cr) |
- |
5000 |
|
- |
9.1(Tensile Strength) |
- |
2000 |
|
- |
9.3(Wrapping Test) |
- |
1000 |
|
- |
10(Selection of Test Samples) |
- |
1000 |
|
- |
|
27 May, 2028 |
- Included w.e.f.18.08.2025 |
5 |
IS 21 (2025) |
Wrought Aluminium and Aluminium Alloys for Manufacture of Utensils - Specification (Fifth Revision) |
All Designation |
7500 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
Cl-4(General requirements) |
- |
500 |
|
- |
Cl-5.1(Material) |
- |
5000 |
|
- |
Cl-5.2(Chemical composition and mechanical properties of grades in Cl 5.1) |
- |
5000 |
|
- |
Cl-5.3.1 a("Wrought Aluminium (with Minimum
99 Percent Al Content)- Iron+ Silicon") |
- |
5000 |
|
- |
Cl-5.3.1 b("Wrought Aluminium (with Minimum
99 Percent Al Content)- Chromium") |
- |
5000 |
|
- |
Cl-5.3.1 b("Wrought Aluminium (with Minimum
99 Percent Al Content)- Magnesium") |
- |
5000 |
|
- |
Cl-5.3.1 b("Wrought Aluminium (with Minimum
99 Percent Al Content)- Manganese") |
- |
5000 |
|
- |
Cl-5.3.1 b("Wrought Aluminium (with Minimum
99 Percent Al Content)- Nickel") |
- |
5000 |
|
- |
Cl-5.3.1 b("Wrought Aluminium (with Minimum
99 Percent Al Content)- Zinc") |
- |
5000 |
|
- |
Cl-5.3.1 b("Wrought Aluminium (with Minimum
99 Percent Al Content)- Titanium") |
- |
5000 |
|
- |
Cl-5.3.1 b("Wrought Aluminium (with Minimum
99 Percent Al Content)- Tin") |
- |
5000 |
|
- |
Cl-5.3.1 c("Wrought Aluminium (with Minimum
99 Percent Al Content)- Copper") |
- |
5000 |
|
- |
Cl-5.3.1 Note 1("Wrought Aluminium (with Minimum
99 Percent Al Content)- Aluminium") |
- |
5000 |
|
- |
Cl-5.3.1 d("Wrought Aluminium (with Minimum
99 Percent Al Content)- Others") |
- |
5000 |
|
- |
Cl-5.3.2, Table-1 (i)(Wrought Aluminium Alloys-Silicon) |
- |
5000 |
|
- |
Cl-5.3.2, Table-1 (ii)(Wrought Aluminium Alloys-Iron) |
- |
5000 |
|
- |
Cl-5.3.2, Table-1 (iii)(Wrought Aluminium Alloys-Copper) |
- |
5000 |
|
- |
Cl-5.3.2, Table-1 (iv)(Wrought Aluminium Alloys-Manganese) |
- |
5000 |
|
- |
Cl-5.3.2, Table-1 (v)(Wrought Aluminium Alloys-Magnesium) |
- |
5000 |
|
- |
Cl-5.3.2, Table-1 (vi)(Wrought Aluminium Alloys-Chromium) |
- |
5000 |
|
- |
Cl-5.3.2, Table-1 (vii)(Wrought Aluminium Alloys-Nickel) |
- |
5000 |
|
- |
Cl-5.3.2, Table-1 (viii)(Wrought Aluminium Alloys-Zinc) |
- |
5000 |
|
- |
Cl-5.3.2, Table-1 (ix)(Wrought Aluminium Alloys -Zirconium) |
- |
5000 |
|
- |
Cl-5.3.2, Table-1 (x)(Wrought Aluminium Alloys - Titanium) |
- |
5000 |
|
- |
Cl-5.3.2, Table-1 (Note 3)(Wrought Aluminium Alloys- Aluminium) |
- |
5000 |
|
- |
Cl-5.3.2, Table-1 (xi)(Wrought Aluminium Alloys- Others) |
- |
5000 |
|
- |
Cl 5.4(Lead) |
- |
5000 |
|
- |
Cl 5.4(Cadmium) |
- |
5000 |
|
- |
Cl 5.4(Arsenic) |
- |
5000 |
|
- |
Cl-7(Dimension) |
- |
2000 |
|
- |
|
27 May, 2028 |
- Included w.e.f.18.08.2025
Exclusion
"Cl-8 (EARING TEST (OPTIONAL TEST))
" |
6 |
IS 2141 (2000) |
Hot dip galvanized stay strand - Specification (Fourth Revision) |
All Grade |
11000 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
9.2 referes to IS 4826, Table 1(Uniformity of zinc coating- As per IS 2633 for Dia 0.80 to 0.90 mm) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
9.2 referes to IS 4826, Table 1(Mass of Zinc coating- as per IS 6745 fo1.80 to 2.00 mm dia) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
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) |
- |
2000 |
|
- |
11(a) Size) |
- |
2000 |
|
- |
11(b) Construction) |
- |
2000 |
|
- |
11(c) tensile designation) |
- |
2000 |
|
- |
11(d) lay) |
- |
2000 |
|
- |
11(e) coating) |
- |
2000 |
|
- |
11(f) length) |
- |
2000 |
|
- |
11( g) mass) |
- |
2000 |
|
- |
11(h) manufacturer's name or trade mark) |
- |
2000 |
|
- |
11(i) lot number along with the order number) |
- |
2000 |
|
- |
11(j) BIS Standards Mark) |
- |
2000 |
|
- |
5(a) Grade) |
- |
2000 |
|
- |
5(b) Tensile Grade) |
- |
2000 |
|
- |
6(a) Lay) |
- |
2000 |
|
- |
6(b) Construction) |
- |
2000 |
|
- |
7(Freedom from defects) |
- |
2000 |
|
- |
9(a) Tensile) |
- |
2000 |
|
- |
9(b) Elongation) |
- |
2000 |
|
- |
9(c) Galvanizing Test) |
- |
2000 |
|
- |
11(a) Size) |
- |
2000 |
|
- |
11(b) Construction) |
- |
2000 |
|
- |
11(c) tensile designation) |
- |
2000 |
|
- |
11(d) lay) |
- |
2000 |
|
- |
11(e) coating) |
- |
2000 |
|
- |
11(f) length) |
- |
2000 |
|
- |
11( g) mass) |
- |
2000 |
|
- |
11(h) manufacturer's name or trade mark) |
- |
2000 |
|
- |
11(i) lot number along with the order number) |
- |
2000 |
|
- |
11(j) BIS Standards Mark) |
- |
2000 |
|
- |
5(a) Grade) |
- |
2000 |
|
- |
5(b) Tensile Grade) |
- |
2000 |
|
- |
6(a) Lay) |
- |
2000 |
|
- |
6(b) Construction) |
- |
2000 |
|
- |
7(Freedom from defects) |
- |
2000 |
|
- |
9(a) Tensile) |
- |
2000 |
|
- |
9(b) Elongation) |
- |
2000 |
|
- |
9(c) Galvanizing Test) |
- |
2000 |
|
- |
11(a) Size) |
- |
2000 |
|
- |
11(b) Construction) |
- |
2000 |
|
- |
11(c) tensile designation) |
- |
2000 |
|
- |
11(d) lay) |
- |
2000 |
|
- |
11(e) coating) |
- |
2000 |
|
- |
11(f) length) |
- |
2000 |
|
- |
11( g) mass) |
- |
2000 |
|
- |
11(h) manufacturer's name or trade mark) |
- |
2000 |
|
- |
11(i) lot number along with the order number) |
- |
2000 |
|
- |
11(j) BIS Standards Mark) |
- |
2000 |
|
- |
5(a) Grade) |
- |
2000 |
|
- |
5(b) Tensile Grade) |
- |
2000 |
|
- |
6(a) Lay) |
- |
2000 |
|
- |
6(b) Construction) |
- |
2000 |
|
- |
7(Freedom from defects) |
- |
2000 |
|
- |
9(a) Tensile) |
- |
2000 |
|
- |
9(b) Elongation) |
- |
2000 |
|
- |
9(c) Galvanizing Test) |
- |
2000 |
|
- |
CL 8.2(AVG single wire dia (08)) |
- |
2000 |
|
- |
|
27 May, 2028 |
- Included w.e.f.18.08.2025 |
7 |
IS 278 (2009) |
Galvanized steel barbed wire for fencing - Specification (Fourth Revision) |
All Grade |
6000 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
4(Type A/Type B) |
- |
1000 |
|
- |
5 Table-1(Sizes Diameter of Line wire) |
- |
1000 |
|
- |
5 Table-1(Sizes Diamater of Point wire) |
- |
1000 |
|
- |
5 Table-1(Sizes Mass of Completed barbed wire) |
- |
1000 |
|
- |
5 Table-1(Sizes Distance between two barbs) |
- |
1000 |
|
- |
5 Table-1(Sizes No. of Lays between the two consequtive barbs) |
- |
1000 |
|
- |
7.1(Manufacture) |
- |
1000 |
|
- |
7.2(Manufacture) |
- |
1000 |
|
- |
7.2(Manufacture) |
- |
1000 |
|
- |
7.3(Manufacture) |
- |
1000 |
|
- |
8(CHROMATING) |
- |
1000 |
|
- |
9.1(Freedom from defects) |
- |
1000 |
|
- |
9.2(Freedom from defects) |
- |
1000 |
|
- |
9.2(Freedom from defects) |
- |
1000 |
|
- |
9.2(Freedom from defects) |
- |
1000 |
|
- |
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) |
- |
1000 |
|
- |
Cl. 7.2(Length of Barbs) |
- |
1000 |
|
- |
Cl. 7.2(Finishing of Barbs) |
- |
1000 |
|
- |
Cl. 7.1(General) |
- |
1000 |
|
- |
11(Sampling) |
- |
1000 |
|
- |
13(Marking) |
- |
1000 |
|
- |
CL 05(Average dia of line wire (08)) |
- |
1000 |
|
- |
CL 05(Average dia of point wire (08)) |
- |
1000 |
|
- |
CL 05(Average Distance Between Two Barbs (08)) |
- |
1000 |
|
- |
|
27 May, 2028 |
- Included w.e.f 31.07.2025 |
8 |
IS 280 (2006) |
Mild steel wire for general engineering purposes (Fourth Revision) |
All Grade |
12000 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
Cl 7 & Table 1(Diameter & Difference Between Two Reading On Any Two Diameters) |
- |
1000 |
|
- |
Cl 9(Tensile Test On UTM) |
- |
1000 |
|
- |
Cl 11(Workmanship) |
- |
500 |
|
- |
Cl 13(Workmanship) |
- |
500 |
|
- |
Cl 7 & Table 1(Diameter & Difference Between Two Reading On Any Two Diameters) |
- |
1000 |
|
- |
Cl 9(Tensile Test On UTM) |
- |
1000 |
|
- |
Cl 11(Workmanship) |
- |
500 |
|
- |
Cl 13(Workmanship) |
- |
500 |
|
- |
Cl 7 & Table 1(Diameter & Difference Between Two Reading On Any Two Diameters) |
- |
1000 |
|
- |
Cl 9(Tensile Test On UTM) |
- |
1000 |
|
- |
Cl 11(Workmanship) |
- |
500 |
|
- |
Cl 13(Workmanship) |
- |
500 |
|
- |
6 AND AS PER IS 7887(MICRO ALLOY) |
- |
5000 |
|
- |
6 AND AS PER IS 7887(ALUMINIUM) |
- |
5000 |
|
- |
6 AND AS PER IS 7887(PHOSPHORUS) |
- |
5000 |
|
- |
6 AND AS PER IS 7887(SULPHUR) |
- |
5000 |
|
- |
6 AND AS PER IS 7887(MANGANESE) |
- |
5000 |
|
- |
6 AND AS PER IS 7887(SILICON) |
- |
5000 |
|
- |
6 AND AS PER IS 7887(CARBON) |
- |
5000 |
|
- |
7 & 8(Ovality) |
- |
1000 |
|
- |
7 & 8(Diameter) |
- |
1000 |
|
- |
9.2(Wrapping Test) |
- |
1000 |
|
- |
9.3(Bend test) |
- |
1000 |
|
- |
10(Finish) |
- |
500 |
|
- |
11(Coating test) |
- |
1000 |
|
- |
13(Freedom from defects) |
- |
500 |
|
- |
Cl 13(Workmanship) |
- |
500 |
|
- |
Cl 11(Workmanship) |
- |
500 |
|
- |
Cl 9(Tensile Test On UTM) |
- |
1000 |
|
- |
Cl 7 & Table 1(Diameter & Difference Between Two Reading On Any Two Diameters) |
- |
1000 |
|
- |
Cl 7 & Table 1(Diameter & Difference Between Two Reading On Any Two Diameters) |
- |
1000 |
|
- |
Cl 9(Tensile Test On UTM) |
- |
1000 |
|
- |
Cl 11(Workmanship) |
- |
500 |
|
- |
Cl 13(Workmanship) |
- |
500 |
|
- |
Clause 6 and Note 3 of IS 7887(Any Instrumental Method/Chemical Method) |
- |
5000 |
|
- |
Clause 6 and Note 3 of IS 7887(Copper) |
- |
5000 |
|
- |
14(Packing) |
- |
500 |
|
- |
15(Marking) |
- |
500 |
|
- |
Clause 6 and Note 3 of IS 7887(Copper) |
- |
5000 |
|
- |
CL 08(AVG Outer dia (08)) |
- |
1000 |
|
- |
CL 08(MAX OVALITY (08)) |
- |
1000 |
|
- |
|
27 May, 2028 |
- Included w.e.f 31.07.2025 |
9 |
IS 17153 (2019) |
Domestic gas stoves for use with piped natural gas (PNG) - Specification |
All Grade |
42000 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
26(Burner-5) |
- |
42000 |
|
- |
26(Burner-4) |
- |
42000 |
|
- |
26(Burner-3) |
- |
42000 |
|
- |
26(Burner-2) |
- |
42000 |
|
- |
26(Burner-1) |
- |
42000 |
|
- |
25.2(With the Burner lighted on full on, the flame temperature at a height of H+20 mm) |
- |
42000 |
|
- |
25.1(Temperature of synthetic rubber diaphragm in gas carrying components) |
- |
42000 |
|
- |
25.1(Temperature of the surface in normal use) |
- |
42000 |
|
- |
25.1(Temperature of the portion of the surface other than the working surface likely to be touched accidentally.) |
- |
42000 |
|
- |
25.1(Rise of Temperature above room temperature in (Wall, Floor, Ceiling), after two hours of operation) |
- |
42000 |
|
- |
24(Burner-5) |
- |
42000 |
|
- |
24(Burner-4) |
- |
42000 |
|
- |
24(Burner-3) |
- |
42000 |
|
- |
24(Burner-2) |
- |
42000 |
|
- |
24(Burner-1) |
- |
42000 |
|
- |
23(When operated at pressure 20-25 gf/cm2 , there shall be no extinction of flame on any of the burneroperating at the max of the burner, when the appliance is placed in normal current of air with velocity of 2 m/s.) |
- |
42000 |
|
- |
22(When operated at pressure 20-25 gf/cm2 , for one at full on position, no soot shall be deposited on burner or on the bottom of the vessel.) |
- |
42000 |
|
- |
21(When operated at pressure 20-25 gf/cm2 for half an hour flame shall be reduced to simmer and then brought back to full on, operation shall be repeated five times, no flash back shall occur during the test.) |
- |
42000 |
|
- |
20(Ignition of Burner flame, their operation and turning off shall not give rise to undue excessive noise during the operation.) |
- |
42000 |
|
- |
19.3(Fixed Min Pilot flame shall be sufficient to relight the main burner at the 21 mbar gas inlet pressure.) |
- |
42000 |
|
- |
19.2(Pilot Flame shall be Stable without lifting or soot deposition at gas inlet pressure from 20-25 gf/cm2) |
- |
42000 |
|
- |
19.1.1(When the gas consumption of the burner is reduced to simmer after operating half an hour on full ON flame shall not extinguish, blow off, strike back or form soot at 21 mbar gas inlet pressure.) |
- |
42000 |
|
- |
19.1(It shall be possible to operate stove with taps fully open at gas inlet pressure , without the flame extinguishing, blowing off or striking back and without the formation of soot.) |
- |
42000 |
|
- |
18.4.1(The flame failure device if provided shall confirm to IS:5116) |
- |
42000 |
|
- |
18.3(When the burner is ignited from a pilot flame and/or by an electric/electronic method, the ignition and flame travel shall be smooth at pressure……..) |
- |
42000 |
|
- |
18.2(if the flame is applied to any of the outer row of the burner ports when the gas is flowing , flame travel shall be complete……..) |
- |
42000 |
|
- |
18.1(Where the burner or burners are lighted by automatic ignition (Battery of flint operated or by a pilot flame , it shall not be possible for gas to be admitted to the main burner without being smoothly ignited by the pilot flame. Each burner should be at room temperature at the begining of the test and should be tested in turn. ) |
- |
42000 |
|
- |
18.1(There shall be easy and safe access of lighting each burner by matchstick and it shall be easy to see that the burner is lighted) |
- |
42000 |
|
- |
17.3(When the gas consumption of the burner is reduced to simmer, the flame shall not extinguish, blow off, strike back or form soot, when tested with commercial PNG at 21 mbar gas inlet pressure.) |
- |
42000 |
|
- |
17.2(Burner-5) |
- |
42000 |
|
- |
17.2(Burner-4) |
- |
42000 |
|
- |
17.2(Burner-3) |
- |
42000 |
|
- |
17.2(Burner-2) |
- |
42000 |
|
- |
17.2(Burner-1) |
- |
42000 |
|
- |
17.2(Sim Rating Declared) |
- |
42000 |
|
- |
17.1.2(Total Gas Consumption) |
- |
42000 |
|
- |
17.1(Burner-5) |
- |
42000 |
|
- |
17.1(Burner-4) |
- |
42000 |
|
- |
17.1( Burner-3) |
- |
42000 |
|
- |
17.1( Burner-2) |
- |
42000 |
|
- |
17.1( Burner-1) |
- |
42000 |
|
- |
17.1(Rating Declared) |
- |
42000 |
|
- |
15.2(Fragmentation test of the toughened glass to ) |
- |
42000 |
|
- |
15.1(Verification of the strength of the gas stove surface of the toughened glass top against thermal stress) |
- |
42000 |
|
- |
15(Width wise deflection) |
- |
42000 |
|
- |
15(Length wise deflection) |
- |
42000 |
|
- |
15(Vertical Deflection) |
- |
42000 |
|
- |
14.5(The position of the gas inlet shall allow connection to a gas supply on either side of the appliances, the rear end or bottom is also permitted. It shall be possible to change gas inlet from one side to other side easily by standard tools.) |
- |
42000 |
|
- |
14.4(Any other connection made from the main gas rail shall be only metallic.) |
- |
42000 |
|
- |
14.4(The external surface of the gas rail shall be treated to resist corrosion) |
- |
42000 |
|
- |
14.4(The wall thickness of main gas rail) |
- |
42000 |
|
- |
14.4(The pipe/tube used for main gas rail shall be of mild steel) |
- |
42000 |
|
- |
14.3(Screwed gas Inlet and outlet connections shall confirm to IS:554, Declared by party) |
- |
42000 |
|
- |
14.2((e)) |
- |
42000 |
|
- |
14.2((d)) |
- |
42000 |
|
- |
14.2(( c)) |
- |
42000 |
|
- |
14.2((b)) |
- |
42000 |
|
- |
14.2(Shape of Nozzles as per fig. 3 : (a)) |
- |
42000 |
|
- |
14.2(Where Nozzles for flexible tubing are fitted, they shall be so positioned as to facilitate fitting of the tubing and also to prevent heating of the tubing to more than 60°C) |
- |
42000 |
|
- |
14.1(Nozzle shall be machined from free cutting brass, MS, SS, Zinc) |
- |
42000 |
|
- |
13(All gas carrying parts of the appliances should be sound and these parts when connected to form complete assembly shall also be sound against any gas leakage. The complete assembly shall be checked at 14.71 kN/m²) |
- |
42000 |
|
- |
12.1.2(The material of the pan support shall be metallic.) |
- |
42000 |
|
- |
12.1.1(Loose Pan support shall be so designed that it is not possible to place them firmly in other than proper position) |
- |
42000 |
|
- |
12.1(Prongs of the Support shall have suitable taper to accommodate round bottom pans.) |
- |
42000 |
|
- |
12.1(The design of the pan supports shall be such that it is practicable to support a pan of 100 mm diameter over at least one top burner without the use of loose rings and such that 125 mm diameter vessel remains stable over each burner. ) |
- |
42000 |
|
- |
11.7(The appliance comprising two or more burners shall include one burner having a rating of at least 1450 kCal/hr, based on net calorific value of the gas (When using domestic PNG)) |
- |
42000 |
|
- |
11.6(For Burners having centre flame, provision shall be made to protect the centre flame from pan resting directly on burner top and smothering the centre flame. ) |
- |
42000 |
|
- |
11.5(If the burner is made and assembled in two or more parts they shall be so designed to provide proper self locating arrangement so that they are always reassembled to its original design preventing any maladjustment in their assembly. This shall also be applicable for primary air regulators.) |
- |
42000 |
|
- |
11.4(If primary air regulators are used, they shall be so designed that they are not easily maladjusted by the user and the construction shall be such that primary air adjustment can be made with the burner in place.) |
- |
42000 |
|
- |
11.3(The tightness of the joints in the burner assembly shall not be depended upon adhesives or any kind of packing.) |
- |
42000 |
|
- |
11.2(The Burner supports shall be rigid and shall be fixed in their place. Their construction shall ensure the stability of the burners and shall prevent their undue movement in a horizontal plane.) |
- |
42000 |
|
- |
11.1(The construction of the burners and the assembly shall allow their dismantling from the supports easily with or without the use of tools) |
- |
42000 |
|
- |
10.2(The Size of the jet in Litres per hour of flow of PNG at STP conditions shall be impressed upon it.) |
- |
42000 |
|
- |
10.1.1(Injector Jet shall be made of metal , with or without ceramic tip. The melting point of the metal shall not be less than 650°C) |
- |
42000 |
|
- |
10.1(Dimension- Threads) |
- |
42000 |
|
- |
10.1(Dimension- Projection from the face of mounting, Nominal) |
- |
42000 |
|
- |
10.1(Dimension- Across Flats) |
- |
42000 |
|
- |
10.1(The Injector Jets shall be fixed calibrated type and it shall not be possible to loosen them without the use of tools.) |
- |
42000 |
|
- |
9.12(The noting means adopted shall be sufficiently robust to withstand normal use without distortion or damage.) |
- |
42000 |
|
- |
9.11.1(Simmer flame shall be obtained by fixed simmer orifice.) |
- |
42000 |
|
- |
9.11(Taps having an 'OFF' position shall have positive stops at the 'OFF' and simmer position except that special purpose taps (for appliance incorporating auto or self ignition device)) |
- |
42000 |
|
- |
9.1(Screw-down valves shall be so designed that it is impossible to withdraw completely the valve stem in the normal operation of the tap.) |
- |
42000 |
|
- |
9.9(Screws nuts etc., which regulate the tension of taps valve or springs shall not loosen in operation of the appliance. It shall not be possible to cause a leak during normal manual operation of tap.) |
- |
42000 |
|
- |
9.8(All controls or taps shall be easy to operate at all temperatures normally attained in use) |
- |
42000 |
|
- |
9.7(C1) |
- |
42000 |
|
- |
9.7(B1) |
- |
42000 |
|
- |
9.7(A1) |
- |
42000 |
|
- |
9.7(D) |
- |
42000 |
|
- |
9.7(C) |
- |
42000 |
|
- |
9.7(B) |
- |
42000 |
|
- |
9.7(A) |
- |
42000 |
|
- |
9.7(Dimension of Taper plugs in off position:) |
- |
42000 |
|
- |
9.6(Each taper plug tap shall be spring loaded to maintain a gas tight fit. Helical springs fitted in taps and valves shall have flattened ends, which shall be rounded before fitting.) |
- |
42000 |
|
- |
9.5.1(Taps shall be lubricated with suitable grease, resistant to the action of the gas and capable of operating at the maximum temperature of 110°C.) |
- |
42000 |
|
- |
9.5(Taps shall be so made that in normal use and reasonable application of lubricant, the gas passages do not become blocked.) |
- |
42000 |
|
- |
9.4(Preferably all taps (Excluding pilot taps) should lock in the off position, but in all cases it shall be impossible to handle or tap to move accidentally…. ) |
- |
42000 |
|
- |
9.3(When Taps are fitted with adjustable stops, there shall be means of looking the stops in position. If screws are used for this purpose, they shall not lead into gas passages.) |
- |
42000 |
|
- |
9.2(Taps shall be designed so that when placed in any position and viewed from a distance of 3 m, will definitely indicate whether the valve is open, closed or in intermediate position.) |
- |
42000 |
|
- |
9.2(All Taps shall close in the same direction. The direction of rotation of knob from off-on-simmer shall be anti-clockwise.) |
- |
42000 |
|
- |
9.2(The 'ON' "OFF" and any fixed position of tap handles shall be clearly and durably indicated or shall be obvious by design or position else some indication shall be provided.) |
- |
42000 |
|
- |
9.1(The Appliance shall have at least one tap for each burner) |
- |
42000 |
|
- |
8.7(The external Finished surfaces shall be easily cleanable.) |
- |
42000 |
|
- |
8.6(All springs, screws, nuts and bolts which are visible or to be removed for maintenance, shall be of corrosion-resistant material or treated to resist corrosion.) |
- |
42000 |
|
- |
8.5(Concealed Gas Supplies: Concealed tubular fittings liable to corrode shall be protected by bituminous paint or other equally protective material.) |
- |
42000 |
|
- |
8.4 (b)(Resistance to Heating) |
- |
42000 |
|
- |
8.4 (a)(Resistance to Abrasion) |
- |
42000 |
|
- |
8.3.3(Corrosion Resistance test) |
- |
42000 |
|
- |
8.3.2(Adhesion Test) |
- |
42000 |
|
- |
8.3.1(Thickness of Chromium coating) |
- |
42000 |
|
- |
8.3(Thickness of Nickel coating of the top flat surface of the body of electroplated stove.) |
- |
42000 |
|
- |
8.2(Vitreous enameled component shall meet the requirement when tested in accordance with Annex E of IS:5116) |
- |
42000 |
|
- |
8.1(The finishes shall, on visual examination, show no defects, such as pin-holes, blisters, roughness or exposed area of metal, which give rise to undualy rapid deterioration in use.) |
- |
42000 |
|
- |
8.1(Parts, which will come in contact with the foodstuff, shall be capable of being hygienically cleaned.) |
- |
42000 |
|
- |
8.1(The Finish of exposed parts shall be durable, easy to clean and not subject to excessive deterioration in normal use.) |
- |
42000 |
|
- |
7(Rigidity and Stability : The appliance shall be so designed that it remains stable and shall not be easily overturned.) |
- |
42000 |
|
- |
6.7(Thickness of Sheet) |
- |
42000 |
|
- |
6.6(All nuts, bolts and fittings having spanner flats shall be capable of being moved by suitable spanner or be readily accessible to an adjustable spanner.) |
- |
42000 |
|
- |
6.5(Parts, which are intented to be removable by the user, shall be easy to replace correctly and difficult to assemble incorrectly.) |
- |
42000 |
|
- |
6.4(Burners and parts of Burner only of same rating , model and make shall be interchangeable or replaceable without effecting performance.) |
- |
42000 |
|
- |
6.3(Burner ports shall be so designed and located that in normal use spilage of food shall not cause internal fouling of mixing tube and or blockage of injector jet.) |
- |
42000 |
|
- |
6.2(The relative distance between the centres of the adjoining burner-) |
- |
42000 |
|
- |
6.2(the parts of the burner shall not become disconnected during operation of the appliance.) |
- |
42000 |
|
- |
6.1(The appliance, including all the component parts, shall be easy to clean and maintain in good working order, there shall be easy access to the accessories and controls for maintenance and adjustment.) |
- |
42000 |
|
- |
5.8.3(The number of glass fragments contained in a 50 mm side square, when tested as Cl. 15.2) |
- |
42000 |
|
- |
5.8.3(Toughened glass shall fragment into small particles.) |
- |
42000 |
|
- |
5.8.2(Pan support for an uncovered burner in contact with the glass ceramic surface.The surface area of the pan support in contact with the glass ceramic) |
- |
42000 |
|
- |
5.8.2(The toughened glass top shall ensure durability against damage in normal use) |
- |
42000 |
|
- |
5.8.2(The means to hold the glass top of the gas stove shall not allow any stress or risk of mechanical change to the glass top.) |
- |
42000 |
|
- |
5.8.1(Toughened glass top including their edges or corners shall not have fissures or scratches) |
- |
42000 |
|
- |
5.7(Drip tray if provided shall be made of non-corrosive material) |
- |
42000 |
|
- |
5.6(Meltiing poin of metal used in oven, griller or auxilliary or anyother combination) |
- |
42000 |
|
- |
5.6(Melting point of metal for burner top) |
- |
42000 |
|
- |
5.5(The main body of the burner including mixer head, mixing tube and burner head shall be of substantial and durable construction) |
- |
42000 |
|
- |
5.4(Change in weight or volume of a non metallic material, when immerse in n-Pentane or PNG for 72 hours) |
- |
42000 |
|
- |
5.3(Mercurous Nitrate test for copper and copper alloy Parts) |
- |
42000 |
|
- |
5.2(The burner parts shall not melt or distort when burner is operated with flames flashed back for half an hour in the mixing tube.) |
- |
42000 |
|
- |
5.1.1(Plastic components which are liable to heating (For example, tap handles push buttons etc.) shall be free of fissures, distortion, blemishes and discolouration) |
- |
42000 |
|
- |
5.1(The use of low pressure rubber or plastic tubing fitted or pushed on nozzle is not recommended.) |
- |
42000 |
|
- |
5.1(If flexible tubing is used, it shall not be fitted on the outlet side of any control which is capable of cutting of the gas completely, except where screwed metal connection are fitted.) |
- |
42000 |
|
- |
5.1(The appliance shall be free from swarf, grit and other foreign matters.) |
- |
42000 |
|
- |
4.3(No pressure regulator shall be included as part of the stove.) |
- |
42000 |
|
- |
4.2(Rivets, Fastening screws and plugs , etc. shall not lead into gas passages.) |
- |
42000 |
|
- |
4.1(The construction of all the parts of equipment shall be sound and of high standard of workmanship and appropriate finish. The construction shall ensure durability and shall comply with the safety requirements.) |
- |
42000 |
|
- |
4.1(General) |
- |
42000 |
|
- |
4.2(General) |
- |
42000 |
|
- |
4.3(General) |
- |
42000 |
|
- |
5.1(Materials) |
- |
42000 |
|
- |
5.1(Materials) |
- |
42000 |
|
- |
5.1(Materials) |
- |
42000 |
|
- |
5.1(Materials) |
- |
42000 |
|
- |
5.1.1(Materials) |
- |
42000 |
|
- |
5.2(Materials) |
- |
42000 |
|
- |
5.3(Materials) |
- |
42000 |
|
- |
5.4(Materials) |
- |
42000 |
|
- |
5.5(Materials) |
- |
42000 |
|
- |
5.5(Materials) |
- |
42000 |
|
- |
5.5(Materials) |
- |
42000 |
|
- |
5.7(Materials) |
- |
42000 |
|
- |
5.8.1(Materials) |
- |
42000 |
|
- |
26(Thermal Efficiency) |
- |
42000 |
|
- |
5.8.2 (a)(Materials) |
- |
42000 |
|
- |
5.8.2 (a)(Materials) |
- |
42000 |
|
- |
5.8.2 (a)(Materials) |
- |
42000 |
|
- |
26(Thermal Efficiency) |
- |
42000 |
|
- |
5.8.2 (a)(Materials) |
- |
42000 |
|
- |
5.8.2 (a)(Materials) |
- |
42000 |
|
- |
26(Thermal Efficiency) |
- |
42000 |
|
- |
5.8.2 (a)(Materials) |
- |
42000 |
|
- |
26(Thermal Efficiency) |
- |
42000 |
|
- |
5.8.2 (b)(Materials) |
- |
42000 |
|
- |
26(Thermal Efficiency) |
- |
42000 |
|
- |
5.8.2 (c )(Materials) |
- |
42000 |
|
- |
25.2(Fire Hazard and Limiting Temperature) |
- |
42000 |
|
- |
5.8.2 (d)(Materials) |
- |
42000 |
|
- |
25.1(Fire Hazard and Limiting Temperature) |
- |
42000 |
|
- |
5.8.2 (d)(Materials) |
- |
42000 |
|
- |
25.1(Fire Hazard and Limiting Temperature) |
- |
42000 |
|
- |
25.1(Fire Hazard and Limiting Temperature) |
- |
42000 |
|
- |
5.8.2 (e)(Materials) |
- |
42000 |
|
- |
25.1(Fire Hazard and Limiting Temperature) |
- |
42000 |
|
- |
5.8.2 (e)(Materials) |
- |
42000 |
|
- |
5.8.2 (e)(Materials) |
- |
42000 |
|
- |
24.2(Combustion) |
- |
42000 |
|
- |
5.8.2 (e)(Materials) |
- |
42000 |
|
- |
24.1(Combustion) |
- |
42000 |
|
- |
5.8.2 (e)(Materials) |
- |
42000 |
|
- |
24.1(Combustion) |
- |
42000 |
|
- |
5.8.3 (a)(Materials) |
- |
42000 |
|
- |
23(Resistance to Draught) |
- |
42000 |
|
- |
5.8.3 (b)(Materials) |
- |
42000 |
|
- |
5.8.3 (c)(Materials) |
- |
42000 |
|
- |
22(Formation of soot) |
- |
42000 |
|
- |
21(Flash Back) |
- |
42000 |
|
- |
5.8.3 (d)(Materials) |
- |
42000 |
|
- |
20(Noise Control) |
- |
42000 |
|
- |
5.8.3 (e)(Materials) |
- |
42000 |
|
- |
5.8.3 (f)(Materials) |
- |
42000 |
|
- |
19.3(Flame Stability) |
- |
42000 |
|
- |
6.1(Design for Maintenance) |
- |
42000 |
|
- |
19.2(Flame Stability) |
- |
42000 |
|
- |
6.1(Design for Maintenance) |
- |
42000 |
|
- |
19.1.1(Flame Stability) |
- |
42000 |
|
- |
6.2(Design for Maintenance) |
- |
42000 |
|
- |
6.2(Design for Maintenance) |
- |
42000 |
|
- |
19.1(Flame Stability) |
- |
42000 |
|
- |
6.3(Design for Maintenance) |
- |
42000 |
|
- |
18.4(Ignition and Flame Travel) |
- |
42000 |
|
- |
6.4(Design for Maintenance) |
- |
42000 |
|
- |
18.3(Ignition and Flame Travel) |
- |
42000 |
|
- |
6.5(Design for Maintenance) |
- |
42000 |
|
- |
18.2(Ignition and Flame Travel) |
- |
42000 |
|
- |
18.1(Ignition and Flame Travel) |
- |
42000 |
|
- |
18.1(Ignition and Flame Travel) |
- |
42000 |
|
- |
6.6(Design for Maintenance) |
- |
42000 |
|
- |
17.0(Gas Consumption) |
- |
42000 |
|
- |
6.7(Design for Maintenance) |
- |
42000 |
|
- |
17.0(Gas Consumption) |
- |
42000 |
|
- |
17.0(Gas Consumption) |
- |
42000 |
|
- |
17.0(Gas Consumption) |
- |
42000 |
|
- |
17.0(Gas Consumption) |
- |
42000 |
|
- |
17.0(Gas Consumption) |
- |
42000 |
|
- |
17.0(Gas Consumption) |
- |
42000 |
|
- |
17.0(Gas Consumption) |
- |
42000 |
|
- |
17.0(Gas Consumption) |
- |
42000 |
|
- |
9.11(Gas Taps) |
- |
42000 |
|
- |
7.1(Rigidity and Stability) |
- |
42000 |
|
- |
7.2(Rigidity and Stability) |
- |
42000 |
|
- |
7.3(Rigidity and Stability) |
- |
42000 |
|
- |
8.1(Workmanship and Finish) |
- |
42000 |
|
- |
8.1(Workmanship and Finish) |
- |
42000 |
|
- |
8.2 & 8.2.1(Workmanship and Finish) |
- |
42000 |
|
- |
8.3(Workmanship and Finish) |
- |
42000 |
|
- |
8.3(Workmanship and Finish) |
- |
42000 |
|
- |
8.3.2(Workmanship and Finish) |
- |
42000 |
|
- |
8.4 (a)(Workmanship and Finish) |
- |
42000 |
|
- |
8.4 (b)(Workmanship and Finish) |
- |
42000 |
|
- |
8.5(Workmanship and Finish) |
- |
42000 |
|
- |
8.6(Workmanship and Finish) |
- |
42000 |
|
- |
8.7(Workmanship and Finish) |
- |
42000 |
|
- |
9.1(Gas Taps) |
- |
42000 |
|
- |
9.2(Gas Taps) |
- |
42000 |
|
- |
9.2(Gas Taps) |
- |
42000 |
|
- |
9.2(Gas Taps) |
- |
42000 |
|
- |
9.3(Gas Taps) |
- |
42000 |
|
- |
9.4(Gas Taps) |
- |
42000 |
|
- |
9.5(Gas Taps) |
- |
42000 |
|
- |
9.11.1(Gas Taps) |
- |
42000 |
|
- |
9.12(Gas Taps) |
- |
42000 |
|
- |
10.1(Injector Jets) |
- |
42000 |
|
- |
10.1 (a)(Injector Jets) |
- |
42000 |
|
- |
10.1 (b)(Injector Jets) |
- |
42000 |
|
- |
10.1 (c )(Injector Jets) |
- |
42000 |
|
- |
10.1.1(Injector Jets) |
- |
42000 |
|
- |
9.5.1(Gas Taps) |
- |
42000 |
|
- |
10.2(Injector Jets) |
- |
42000 |
|
- |
9.6(Gas Taps) |
- |
42000 |
|
- |
11.1(Burners) |
- |
42000 |
|
- |
9.7(Gas Taps) |
- |
42000 |
|
- |
11.2(Burners) |
- |
42000 |
|
- |
9.7(Gas Taps) |
- |
42000 |
|
- |
11.3(Burners) |
- |
42000 |
|
- |
9.7(Gas Taps) |
- |
42000 |
|
- |
11.4(Burners) |
- |
42000 |
|
- |
9.7(Gas Taps) |
- |
42000 |
|
- |
9.7(Gas Taps) |
- |
42000 |
|
- |
11.5(Burners) |
- |
42000 |
|
- |
9.7(Gas Taps) |
- |
42000 |
|
- |
11.6(Burners) |
- |
42000 |
|
- |
9.7(Gas Taps) |
- |
42000 |
|
- |
11.7(Burners) |
- |
42000 |
|
- |
9.7(Gas Taps) |
- |
42000 |
|
- |
9.8(Gas Taps) |
- |
42000 |
|
- |
9.9(Gas Taps) |
- |
42000 |
|
- |
9.10(Gas Taps) |
- |
42000 |
|
- |
12.1(Pan Supports) |
- |
42000 |
|
- |
12.1.1(Pan Supports) |
- |
42000 |
|
- |
12.1.2(Pan Supports) |
- |
42000 |
|
- |
13.1(Gas Soundness) |
- |
42000 |
|
- |
14.1(Gas Inlet Connection) |
- |
42000 |
|
- |
14.2(Gas Inlet Connection) |
- |
42000 |
|
- |
14.2(Gas Inlet Connection) |
- |
42000 |
|
- |
14.2(Gas Inlet Connection) |
- |
42000 |
|
- |
14.2(Gas Inlet Connection) |
- |
42000 |
|
- |
14.2(Gas Inlet Connection) |
- |
42000 |
|
- |
14.2(Gas Inlet Connection) |
- |
42000 |
|
- |
14.2(Gas Inlet Connection) |
- |
42000 |
|
- |
14.3(Gas Inlet Connection) |
- |
42000 |
|
- |
14.4(Gas Inlet Connection) |
- |
42000 |
|
- |
14.4(Gas Inlet Connection) |
- |
42000 |
|
- |
14.4(Gas Inlet Connection) |
- |
42000 |
|
- |
14.4(Gas Inlet Connection) |
- |
42000 |
|
- |
14.5(Gas Inlet Connection) |
- |
42000 |
|
- |
14.5(Gas Inlet Connection) |
- |
42000 |
|
- |
14.5(Gas Inlet Connection) |
- |
42000 |
|
- |
15.0(Strength and Rigidity) |
- |
42000 |
|
- |
15.0(Strength and Rigidity) |
- |
42000 |
|
- |
15.0(Strength and Rigidity) |
- |
42000 |
|
- |
15.0(Strength and Rigidity) |
- |
42000 |
|
- |
17.0(Gas Consumption) |
- |
42000 |
|
- |
17.0(Gas Consumption) |
- |
42000 |
|
- |
26(Burner-5) |
- |
- |
|
- |
26(Burner-4) |
- |
- |
|
- |
26(Burner-3) |
- |
- |
|
- |
26(Burner-2) |
- |
- |
|
- |
26(Burner-1) |
- |
- |
|
- |
25.2(With the Burner lighted on full on, the flame temperature at a height of H+20 mm) |
- |
- |
|
- |
25.1(Temperature of synthetic rubber diaphragm in gas carrying components) |
- |
- |
|
- |
25.1(Temperature of the surface in normal use) |
- |
- |
|
- |
25.1(Temperature of the portion of the surface other than the working surface likely to be touched accidentally.) |
- |
- |
|
- |
25.1(Rise of Temperature above room temperature in (Wall, Floor, Ceiling), after two hours of operation) |
- |
- |
|
- |
24(Burner-5) |
- |
- |
|
- |
24(Burner-4) |
- |
- |
|
- |
24(Burner-3) |
- |
- |
|
- |
24(Burner-2) |
- |
- |
|
- |
24(Burner-1) |
- |
- |
|
- |
23(When operated at pressure 20-25 gf/cm2 , there shall be no extinction of flame on any of the burneroperating at the max of the burner, when the appliance is placed in normal current of air with velocity of 2 m/s.) |
- |
- |
|
- |
22(When operated at pressure 20-25 gf/cm2 , for one at full on position, no soot shall be deposited on burner or on the bottom of the vessel.) |
- |
- |
|
- |
21(When operated at pressure 20-25 gf/cm2 for half an hour flame shall be reduced to simmer and then brought back to full on, operation shall be repeated five times, no flash back shall occur during the test.) |
- |
- |
|
- |
20(Ignition of Burner flame, their operation and turning off shall not give rise to undue excessive noise during the operation.) |
- |
- |
|
- |
19.3(Fixed Min Pilot flame shall be sufficient to relight the main burner at the 21 mbar gas inlet pressure.) |
- |
- |
|
- |
19.2(Pilot Flame shall be Stable without lifting or soot deposition at gas inlet pressure from 20-25 gf/cm2) |
- |
- |
|
- |
19.1.1(When the gas consumption of the burner is reduced to simmer after operating half an hour on full ON flame shall not extinguish, blow off, strike back or form soot at 21 mbar gas inlet pressure.) |
- |
- |
|
- |
19.1(It shall be possible to operate stove with taps fully open at gas inlet pressure , without the flame extinguishing, blowing off or striking back and without the formation of soot.) |
- |
- |
|
- |
18.4.1(The flame failure device if provided shall confirm to IS:5116) |
- |
- |
|
- |
18.3(When the burner is ignited from a pilot flame and/or by an electric/electronic method, the ignition and flame travel shall be smooth at pressure……..) |
- |
- |
|
- |
18.2(if the flame is applied to any of the outer row of the burner ports when the gas is flowing , flame travel shall be complete……..) |
- |
- |
|
- |
18.1(Where the burner or burners are lighted by automatic ignition (Battery of flint operated or by a pilot flame , it shall not be possible for gas to be admitted to the main burner without being smoothly ignited by the pilot flame. Each burner should be at room temperature at the begining of the test and should be tested in turn. ) |
- |
- |
|
- |
18.1(There shall be easy and safe access of lighting each burner by matchstick and it shall be easy to see that the burner is lighted) |
- |
- |
|
- |
17.3(When the gas consumption of the burner is reduced to simmer, the flame shall not extinguish, blow off, strike back or form soot, when tested with commercial PNG at 21 mbar gas inlet pressure.) |
- |
- |
|
- |
17.2(Burner-5) |
- |
- |
|
- |
17.2(Burner-4) |
- |
- |
|
- |
17.2(Burner-3) |
- |
- |
|
- |
17.2(Burner-2) |
- |
- |
|
- |
17.2(Burner-1) |
- |
- |
|
- |
17.2(Sim Rating Declared) |
- |
- |
|
- |
17.1.2(Total Gas Consumption) |
- |
- |
|
- |
17.1(Burner-5) |
- |
- |
|
- |
17.1(Burner-4) |
- |
- |
|
- |
17.1( Burner-3) |
- |
- |
|
- |
17.1( Burner-2) |
- |
- |
|
- |
17.1( Burner-1) |
- |
- |
|
- |
17.1(Rating Declared) |
- |
- |
|
- |
15.2(Fragmentation test of the toughened glass to ) |
- |
- |
|
- |
15.1(Verification of the strength of the gas stove surface of the toughened glass top against thermal stress) |
- |
- |
|
- |
15(Width wise deflection) |
- |
- |
|
- |
15(Length wise deflection) |
- |
- |
|
- |
15(Vertical Deflection) |
- |
- |
|
- |
14.5(The position of the gas inlet shall allow connection to a gas supply on either side of the appliances, the rear end or bottom is also permitted. It shall be possible to change gas inlet from one side to other side easily by standard tools.) |
- |
- |
|
- |
14.4(Any other connection made from the main gas rail shall be only metallic.) |
- |
- |
|
- |
14.4(The external surface of the gas rail shall be treated to resist corrosion) |
- |
- |
|
- |
14.4(The wall thickness of main gas rail) |
- |
- |
|
- |
14.4(The pipe/tube used for main gas rail shall be of mild steel) |
- |
- |
|
- |
14.3(Screwed gas Inlet and outlet connections shall confirm to IS:554, Declared by party) |
- |
- |
|
- |
14.2((e)) |
- |
- |
|
- |
14.2((d)) |
- |
- |
|
- |
14.2(( c)) |
- |
- |
|
- |
14.2((b)) |
- |
- |
|
- |
14.2(Shape of Nozzles as per fig. 3 : (a)) |
- |
- |
|
- |
14.2(Where Nozzles for flexible tubing are fitted, they shall be so positioned as to facilitate fitting of the tubing and also to prevent heating of the tubing to more than 60°C) |
- |
- |
|
- |
14.1(Nozzle shall be machined from free cutting brass, MS, SS, Zinc) |
- |
- |
|
- |
13(All gas carrying parts of the appliances should be sound and these parts when connected to form complete assembly shall also be sound against any gas leakage. The complete assembly shall be checked at 14.71 kN/m²) |
- |
- |
|
- |
12.1.2(The material of the pan support shall be metallic.) |
- |
- |
|
- |
12.1.1(Loose Pan support shall be so designed that it is not possible to place them firmly in other than proper position) |
- |
- |
|
- |
12.1(Prongs of the Support shall have suitable taper to accommodate round bottom pans.) |
- |
- |
|
- |
12.1(The design of the pan supports shall be such that it is practicable to support a pan of 100 mm diameter over at least one top burner without the use of loose rings and such that 125 mm diameter vessel remains stable over each burner. ) |
- |
- |
|
- |
11.7(The appliance comprising two or more burners shall include one burner having a rating of at least 1450 kCal/hr, based on net calorific value of the gas (When using domestic PNG)) |
- |
- |
|
- |
11.6(For Burners having centre flame, provision shall be made to protect the centre flame from pan resting directly on burner top and smothering the centre flame. ) |
- |
- |
|
- |
11.5(If the burner is made and assembled in two or more parts they shall be so designed to provide proper self locating arrangement so that they are always reassembled to its original design preventing any maladjustment in their assembly. This shall also be applicable for primary air regulators.) |
- |
- |
|
- |
11.4(If primary air regulators are used, they shall be so designed that they are not easily maladjusted by the user and the construction shall be such that primary air adjustment can be made with the burner in place.) |
- |
- |
|
- |
11.3(The tightness of the joints in the burner assembly shall not be depended upon adhesives or any kind of packing.) |
- |
- |
|
- |
11.2(The Burner supports shall be rigid and shall be fixed in their place. Their construction shall ensure the stability of the burners and shall prevent their undue movement in a horizontal plane.) |
- |
- |
|
- |
11.1(The construction of the burners and the assembly shall allow their dismantling from the supports easily with or without the use of tools) |
- |
- |
|
- |
10.2(The Size of the jet in Litres per hour of flow of PNG at STP conditions shall be impressed upon it.) |
- |
- |
|
- |
10.1.1(Injector Jet shall be made of metal , with or without ceramic tip. The melting point of the metal shall not be less than 650°C) |
- |
- |
|
- |
10.1(Dimension- Threads) |
- |
- |
|
- |
10.1(Dimension- Projection from the face of mounting, Nominal) |
- |
- |
|
- |
10.1(Dimension- Across Flats) |
- |
- |
|
- |
10.1(The Injector Jets shall be fixed calibrated type and it shall not be possible to loosen them without the use of tools.) |
- |
- |
|
- |
9.12(The noting means adopted shall be sufficiently robust to withstand normal use without distortion or damage.) |
- |
- |
|
- |
9.11.1(Simmer flame shall be obtained by fixed simmer orifice.) |
- |
- |
|
- |
9.11(Taps having an 'OFF' position shall have positive stops at the 'OFF' and simmer position except that special purpose taps (for appliance incorporating auto or self ignition device)) |
- |
- |
|
- |
9.1(Screw-down valves shall be so designed that it is impossible to withdraw completely the valve stem in the normal operation of the tap.) |
- |
- |
|
- |
9.9(Screws nuts etc., which regulate the tension of taps valve or springs shall not loosen in operation of the appliance. It shall not be possible to cause a leak during normal manual operation of tap.) |
- |
- |
|
- |
9.8(All controls or taps shall be easy to operate at all temperatures normally attained in use) |
- |
- |
|
- |
9.7(C1) |
- |
- |
|
- |
9.7(B1) |
- |
- |
|
- |
9.7(A1) |
- |
- |
|
- |
9.7(D) |
- |
- |
|
- |
9.7(C) |
- |
- |
|
- |
9.7(B) |
- |
- |
|
- |
9.7(A) |
- |
- |
|
- |
9.7(Dimension of Taper plugs in off position:) |
- |
- |
|
- |
9.6(Each taper plug tap shall be spring loaded to maintain a gas tight fit. Helical springs fitted in taps and valves shall have flattened ends, which shall be rounded before fitting.) |
- |
- |
|
- |
9.5.1(Taps shall be lubricated with suitable grease, resistant to the action of the gas and capable of operating at the maximum temperature of 110°C.) |
- |
- |
|
- |
9.5(Taps shall be so made that in normal use and reasonable application of lubricant, the gas passages do not become blocked.) |
- |
- |
|
- |
9.4(Preferably all taps (Excluding pilot taps) should lock in the off position, but in all cases it shall be impossible to handle or tap to move accidentally…. ) |
- |
- |
|
- |
9.3(When Taps are fitted with adjustable stops, there shall be means of looking the stops in position. If screws are used for this purpose, they shall not lead into gas passages.) |
- |
- |
|
- |
9.2(Taps shall be designed so that when placed in any position and viewed from a distance of 3 m, will definitely indicate whether the valve is open, closed or in intermediate position.) |
- |
- |
|
- |
9.2(All Taps shall close in the same direction. The direction of rotation of knob from off-on-simmer shall be anti-clockwise.) |
- |
- |
|
- |
9.2(The 'ON' "OFF" and any fixed position of tap handles shall be clearly and durably indicated or shall be obvious by design or position else some indication shall be provided.) |
- |
- |
|
- |
9.1(The Appliance shall have at least one tap for each burner) |
- |
- |
|
- |
8.7(The external Finished surfaces shall be easily cleanable.) |
- |
- |
|
- |
8.6(All springs, screws, nuts and bolts which are visible or to be removed for maintenance, shall be of corrosion-resistant material or treated to resist corrosion.) |
- |
- |
|
- |
8.5(Concealed Gas Supplies: Concealed tubular fittings liable to corrode shall be protected by bituminous paint or other equally protective material.) |
- |
- |
|
- |
8.4 (b)(Resistance to Heating) |
- |
- |
|
- |
8.4 (a)(Resistance to Abrasion) |
- |
- |
|
- |
8.3.3(Corrosion Resistance test) |
- |
- |
|
- |
8.3.2(Adhesion Test) |
- |
- |
|
- |
8.3.1(Thickness of Chromium coating) |
- |
- |
|
- |
8.3(Thickness of Nickel coating of the top flat surface of the body of electroplated stove.) |
- |
- |
|
- |
8.2(Vitreous enameled component shall meet the requirement when tested in accordance with Annex E of IS:5116) |
- |
- |
|
- |
8.1(The finishes shall, on visual examination, show no defects, such as pin-holes, blisters, roughness or exposed area of metal, which give rise to undualy rapid deterioration in use.) |
- |
- |
|
- |
8.1(Parts, which will come in contact with the foodstuff, shall be capable of being hygienically cleaned.) |
- |
- |
|
- |
8.1(The Finish of exposed parts shall be durable, easy to clean and not subject to excessive deterioration in normal use.) |
- |
- |
|
- |
7(Rigidity and Stability : The appliance shall be so designed that it remains stable and shall not be easily overturned.) |
- |
- |
|
- |
6.7(Thickness of Sheet) |
- |
- |
|
- |
6.6(All nuts, bolts and fittings having spanner flats shall be capable of being moved by suitable spanner or be readily accessible to an adjustable spanner.) |
- |
- |
|
- |
6.5(Parts, which are intented to be removable by the user, shall be easy to replace correctly and difficult to assemble incorrectly.) |
- |
- |
|
- |
6.4(Burners and parts of Burner only of same rating , model and make shall be interchangeable or replaceable without effecting performance.) |
- |
- |
|
- |
6.3(Burner ports shall be so designed and located that in normal use spilage of food shall not cause internal fouling of mixing tube and or blockage of injector jet.) |
- |
- |
|
- |
6.2(The relative distance between the centres of the adjoining burner-) |
- |
- |
|
- |
6.2(the parts of the burner shall not become disconnected during operation of the appliance.) |
- |
- |
|
- |
6.1(The appliance, including all the component parts, shall be easy to clean and maintain in good working order, there shall be easy access to the accessories and controls for maintenance and adjustment.) |
- |
- |
|
- |
5.8.3(The number of glass fragments contained in a 50 mm side square, when tested as Cl. 15.2) |
- |
- |
|
- |
5.8.3(Toughened glass shall fragment into small particles.) |
- |
- |
|
- |
5.8.2(Pan support for an uncovered burner in contact with the glass ceramic surface.The surface area of the pan support in contact with the glass ceramic) |
- |
- |
|
- |
5.8.2(The toughened glass top shall ensure durability against damage in normal use) |
- |
- |
|
- |
5.8.2(The means to hold the glass top of the gas stove shall not allow any stress or risk of mechanical change to the glass top.) |
- |
- |
|
- |
5.8.1(Toughened glass top including their edges or corners shall not have fissures or scratches) |
- |
- |
|
- |
5.7(Drip tray if provided shall be made of non-corrosive material) |
- |
- |
|
- |
5.6(Meltiing poin of metal used in oven, griller or auxilliary or anyother combination) |
- |
- |
|
- |
5.6(Melting point of metal for burner top) |
- |
- |
|
- |
5.5(The main body of the burner including mixer head, mixing tube and burner head shall be of substantial and durable construction) |
- |
- |
|
- |
5.4(Change in weight or volume of a non metallic material, when immerse in n-Pentane or PNG for 72 hours) |
- |
- |
|
- |
5.3(Mercurous Nitrate test for copper and copper alloy Parts) |
- |
- |
|
- |
5.2(The burner parts shall not melt or distort when burner is operated with flames flashed back for half an hour in the mixing tube.) |
- |
- |
|
- |
5.1.1(Plastic components which are liable to heating (For example, tap handles push buttons etc.) shall be free of fissures, distortion, blemishes and discolouration) |
- |
- |
|
- |
5.1(The use of low pressure rubber or plastic tubing fitted or pushed on nozzle is not recommended.) |
- |
- |
|
- |
5.1(If flexible tubing is used, it shall not be fitted on the outlet side of any control which is capable of cutting of the gas completely, except where screwed metal connection are fitted.) |
- |
- |
|
- |
5.1(The appliance shall be free from swarf, grit and other foreign matters.) |
- |
- |
|
- |
4.3(No pressure regulator shall be included as part of the stove.) |
- |
- |
|
- |
4.2(Rivets, Fastening screws and plugs , etc. shall not lead into gas passages.) |
- |
- |
|
- |
4.1(The construction of all the parts of equipment shall be sound and of high standard of workmanship and appropriate finish. The construction shall ensure durability and shall comply with the safety requirements.) |
- |
- |
|
- |
4.1(General) |
- |
- |
|
- |
4.2(General) |
- |
- |
|
- |
4.3(General) |
- |
- |
|
- |
5.1(Materials) |
- |
- |
|
- |
5.1(Materials) |
- |
- |
|
- |
5.1(Materials) |
- |
- |
|
- |
5.1(Materials) |
- |
- |
|
- |
5.1.1(Materials) |
- |
- |
|
- |
5.2(Materials) |
- |
- |
|
- |
5.3(Materials) |
- |
- |
|
- |
5.4(Materials) |
- |
- |
|
- |
5.5(Materials) |
- |
- |
|
- |
5.5(Materials) |
- |
- |
|
- |
5.5(Materials) |
- |
- |
|
- |
5.7(Materials) |
- |
- |
|
- |
5.8.1(Materials) |
- |
- |
|
- |
26(Thermal Efficiency) |
- |
- |
|
- |
5.8.2 (a)(Materials) |
- |
- |
|
- |
5.8.2 (a)(Materials) |
- |
- |
|
- |
5.8.2 (a)(Materials) |
- |
- |
|
- |
26(Thermal Efficiency) |
- |
- |
|
- |
5.8.2 (a)(Materials) |
- |
- |
|
- |
5.8.2 (a)(Materials) |
- |
- |
|
- |
26(Thermal Efficiency) |
- |
- |
|
- |
5.8.2 (a)(Materials) |
- |
- |
|
- |
26(Thermal Efficiency) |
- |
- |
|
- |
5.8.2 (b)(Materials) |
- |
- |
|
- |
26(Thermal Efficiency) |
- |
- |
|
- |
5.8.2 (c )(Materials) |
- |
- |
|
- |
25.2(Fire Hazard and Limiting Temperature) |
- |
- |
|
- |
5.8.2 (d)(Materials) |
- |
- |
|
- |
25.1(Fire Hazard and Limiting Temperature) |
- |
- |
|
- |
5.8.2 (d)(Materials) |
- |
- |
|
- |
25.1(Fire Hazard and Limiting Temperature) |
- |
- |
|
- |
25.1(Fire Hazard and Limiting Temperature) |
- |
- |
|
- |
5.8.2 (e)(Materials) |
- |
- |
|
- |
25.1(Fire Hazard and Limiting Temperature) |
- |
- |
|
- |
5.8.2 (e)(Materials) |
- |
- |
|
- |
5.8.2 (e)(Materials) |
- |
- |
|
- |
24.2(Combustion) |
- |
- |
|
- |
5.8.2 (e)(Materials) |
- |
- |
|
- |
24.1(Combustion) |
- |
- |
|
- |
5.8.2 (e)(Materials) |
- |
- |
|
- |
24.1(Combustion) |
- |
- |
|
- |
5.8.3 (a)(Materials) |
- |
- |
|
- |
23(Resistance to Draught) |
- |
- |
|
- |
5.8.3 (b)(Materials) |
- |
- |
|
- |
5.8.3 (c)(Materials) |
- |
- |
|
- |
22(Formation of soot) |
- |
- |
|
- |
21(Flash Back) |
- |
- |
|
- |
5.8.3 (d)(Materials) |
- |
- |
|
- |
20(Noise Control) |
- |
- |
|
- |
5.8.3 (e)(Materials) |
- |
- |
|
- |
5.8.3 (f)(Materials) |
- |
- |
|
- |
19.3(Flame Stability) |
- |
- |
|
- |
6.1(Design for Maintenance) |
- |
- |
|
- |
19.2(Flame Stability) |
- |
- |
|
- |
6.1(Design for Maintenance) |
- |
- |
|
- |
19.1.1(Flame Stability) |
- |
- |
|
- |
6.2(Design for Maintenance) |
- |
- |
|
- |
6.2(Design for Maintenance) |
- |
- |
|
- |
19.1(Flame Stability) |
- |
- |
|
- |
6.3(Design for Maintenance) |
- |
- |
|
- |
18.4(Ignition and Flame Travel) |
- |
- |
|
- |
6.4(Design for Maintenance) |
- |
- |
|
- |
18.3(Ignition and Flame Travel) |
- |
- |
|
- |
6.5(Design for Maintenance) |
- |
- |
|
- |
18.2(Ignition and Flame Travel) |
- |
- |
|
- |
18.1(Ignition and Flame Travel) |
- |
- |
|
- |
18.1(Ignition and Flame Travel) |
- |
- |
|
- |
6.6(Design for Maintenance) |
- |
- |
|
- |
17.0(Gas Consumption) |
- |
- |
|
- |
6.7(Design for Maintenance) |
- |
- |
|
- |
17.0(Gas Consumption) |
- |
- |
|
- |
17.0(Gas Consumption) |
- |
- |
|
- |
17.0(Gas Consumption) |
- |
- |
|
- |
17.0(Gas Consumption) |
- |
- |
|
- |
17.0(Gas Consumption) |
- |
- |
|
- |
17.0(Gas Consumption) |
- |
- |
|
- |
17.0(Gas Consumption) |
- |
- |
|
- |
17.0(Gas Consumption) |
- |
- |
|
- |
9.11(Gas Taps) |
- |
- |
|
- |
7.1(Rigidity and Stability) |
- |
- |
|
- |
7.2(Rigidity and Stability) |
- |
- |
|
- |
7.3(Rigidity and Stability) |
- |
- |
|
- |
8.1(Workmanship and Finish) |
- |
- |
|
- |
8.1(Workmanship and Finish) |
- |
- |
|
- |
8.2 & 8.2.1(Workmanship and Finish) |
- |
- |
|
- |
8.3(Workmanship and Finish) |
- |
- |
|
- |
8.3(Workmanship and Finish) |
- |
- |
|
- |
8.3.2(Workmanship and Finish) |
- |
- |
|
- |
8.4 (a)(Workmanship and Finish) |
- |
- |
|
- |
8.4 (b)(Workmanship and Finish) |
- |
- |
|
- |
8.5(Workmanship and Finish) |
- |
- |
|
- |
8.6(Workmanship and Finish) |
- |
- |
|
- |
8.7(Workmanship and Finish) |
- |
- |
|
- |
9.1(Gas Taps) |
- |
- |
|
- |
9.2(Gas Taps) |
- |
- |
|
- |
9.2(Gas Taps) |
- |
- |
|
- |
9.2(Gas Taps) |
- |
- |
|
- |
9.3(Gas Taps) |
- |
- |
|
- |
9.4(Gas Taps) |
- |
- |
|
- |
9.5(Gas Taps) |
- |
- |
|
- |
9.11.1(Gas Taps) |
- |
- |
|
- |
9.12(Gas Taps) |
- |
- |
|
- |
10.1(Injector Jets) |
- |
- |
|
- |
10.1 (a)(Injector Jets) |
- |
- |
|
- |
10.1 (b)(Injector Jets) |
- |
- |
|
- |
10.1 (c )(Injector Jets) |
- |
- |
|
- |
10.1.1(Injector Jets) |
- |
- |
|
- |
9.5.1(Gas Taps) |
- |
- |
|
- |
10.2(Injector Jets) |
- |
- |
|
- |
9.6(Gas Taps) |
- |
- |
|
- |
11.1(Burners) |
- |
- |
|
- |
9.7(Gas Taps) |
- |
- |
|
- |
11.2(Burners) |
- |
- |
|
- |
9.7(Gas Taps) |
- |
- |
|
- |
11.3(Burners) |
- |
- |
|
- |
9.7(Gas Taps) |
- |
- |
|
- |
11.4(Burners) |
- |
- |
|
- |
9.7(Gas Taps) |
- |
- |
|
- |
9.7(Gas Taps) |
- |
- |
|
- |
11.5(Burners) |
- |
- |
|
- |
9.7(Gas Taps) |
- |
- |
|
- |
11.6(Burners) |
- |
- |
|
- |
9.7(Gas Taps) |
- |
- |
|
- |
11.7(Burners) |
- |
- |
|
- |
9.7(Gas Taps) |
- |
- |
|
- |
9.8(Gas Taps) |
- |
- |
|
- |
9.9(Gas Taps) |
- |
- |
|
- |
9.10(Gas Taps) |
- |
- |
|
- |
12.1(Pan Supports) |
- |
- |
|
- |
12.1.1(Pan Supports) |
- |
- |
|
- |
12.1.2(Pan Supports) |
- |
- |
|
- |
13.1(Gas Soundness) |
- |
- |
|
- |
14.1(Gas Inlet Connection) |
- |
- |
|
- |
14.2(Gas Inlet Connection) |
- |
- |
|
- |
14.2(Gas Inlet Connection) |
- |
- |
|
- |
14.2(Gas Inlet Connection) |
- |
- |
|
- |
14.2(Gas Inlet Connection) |
- |
- |
|
- |
14.2(Gas Inlet Connection) |
- |
- |
|
- |
14.2(Gas Inlet Connection) |
- |
- |
|
- |
14.2(Gas Inlet Connection) |
- |
- |
|
- |
14.3(Gas Inlet Connection) |
- |
- |
|
- |
14.4(Gas Inlet Connection) |
- |
- |
|
- |
14.4(Gas Inlet Connection) |
- |
- |
|
- |
14.4(Gas Inlet Connection) |
- |
- |
|
- |
14.4(Gas Inlet Connection) |
- |
- |
|
- |
14.5(Gas Inlet Connection) |
- |
- |
|
- |
14.5(Gas Inlet Connection) |
- |
- |
|
- |
14.5(Gas Inlet Connection) |
- |
- |
|
- |
15.0(Strength and Rigidity) |
- |
- |
|
- |
15.0(Strength and Rigidity) |
- |
- |
|
- |
15.0(Strength and Rigidity) |
- |
- |
|
- |
15.0(Strength and Rigidity) |
- |
- |
|
- |
17.0(Gas Consumption) |
- |
- |
|
- |
17.0(Gas Consumption) |
- |
- |
|
- |
|
27 May, 2028 |
- Included w.e.f. 19.08.2025 |
10 |
IS 4246 (2002) |
Domestic gas stoves for use with liquefied petroleum gases - Specification (Fifth Revision) |
All Grade |
17500 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
Cl.24(Annexure E)(on no account the carbon monoxidel
carbon dioxide ratio of the exhaust gases of any burner.
operating at any consumption at which the burner is
stable at gas inlet pressure from 2452 kN/m2 to
3432 kN/m2 (25 gf/cm2 to 35 gf/cm2), exceed 0.02.) |
- |
1000 |
|
- |
Cl.23(There shall be no extinction of the flames on any
of the burners operating at maximum consumption
when the appliance is placed in a general (not
localized) current of air with a velocity of 2 m/s, as
measured with a rotating vane anemometer. The
location of the appliance relative to neighboring walls
and the direction of the draught shall be varied to
correspond to likely conditions of appliance installation.
This applies for all pressures from 2452 kN/m2 to
3432 kN/m2 (25 gf/cm2 to 35 gf/cm2).) |
- |
500 |
|
- |
24 (Annex - E)(Combustion (CO and CO2 ratio)) |
- |
1000 |
|
- |
4.1(Requirement) |
- |
500 |
|
- |
5(Materials) |
- |
500 |
|
- |
6(Design for Maintenance) |
- |
500 |
|
- |
7(Rigidity and Stability) |
- |
500 |
|
- |
8(Workmanship and Finish) |
- |
500 |
|
- |
9(Gas Taps) |
- |
500 |
|
- |
10(Injector Jets) |
- |
1000 |
|
- |
11(Burners) |
- |
1000 |
|
- |
12(Burner Pan Supports) |
- |
500 |
|
- |
13.1(Gas Soundness) |
- |
1000 |
|
- |
13.2(Gas Leak Detector) |
- |
1000 |
|
- |
14(Gas Inlet Connections) |
- |
1000 |
|
- |
15(Strength and Rigidity) |
- |
1000 |
|
- |
16(General Conditions of Test) |
- |
500 |
|
- |
17.1.1(Gas Consumption) |
- |
1000 |
|
- |
18(Ignition and Flame Travel) |
- |
1000 |
|
- |
19(Flame Stability) |
- |
1000 |
|
- |
20(Noise Control) |
- |
1000 |
|
- |
21(Flash Back) |
- |
1000 |
|
- |
22(Formation of Soot) |
- |
1000 |
|
- |
23(Resistance to Draught) |
- |
1000 |
|
- |
24(Combustion) |
- |
1000 |
|
- |
25(Fire Hazard and Limiting Temperature) |
- |
1000 |
|
- |
26(Thermal Efficiency) |
- |
1000 |
|
- |
27.1(Type Tests) |
- |
0 |
|
- |
27.2(Routine Tests) |
- |
0 |
|
- |
29(Marking) |
- |
500 |
|
- |
30(Packing) |
- |
500 |
|
- |
5.1.2(Toughened glass- Adhesive tape) |
- |
1000 |
|
- |
5.1.3(Thermal Shock test) |
- |
500 |
|
- |
|
27 May, 2028 |
- Included w.e.f. 19.08.2025 |
11 |
IS 1786 (2008) |
High strength deformed steel bars and wires for concretere inforcement - Specification (Fourth Revision) |
All Designation |
25000 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
Cl 9.4(Load In Other Direction From Bend) |
- |
1000 |
|
- |
Cl 9.3(Load In One Direction) |
- |
1000 |
|
- |
Cl 7.2(Weight) |
- |
1000 |
|
- |
Cl 6.1(Length, Width & Thickness) |
- |
1000 |
|
- |
Cl 5(Deformations and Surface Characteristics) |
- |
1000 |
|
- |
Cl 9.4(Load In Other Direction From Bend) |
- |
1000 |
|
- |
Cl 9.3(Load In One Direction) |
- |
1000 |
|
- |
Cl 7.2(Weight) |
- |
1000 |
|
- |
Cl 6.1(Length, Width & Thickness) |
- |
1000 |
|
- |
Cl 5(Deformations and Surface Characteristics) |
- |
1000 |
|
- |
Cl 9.4(Load In Other Direction From Bend) |
- |
1000 |
|
- |
Cl 9.3(Load In One Direction) |
- |
1000 |
|
- |
Cl 8.1(UTM) |
- |
1000 |
|
- |
Cl 7.2(Weight) |
- |
1000 |
|
- |
Cl 6.1(Length, Width & Thickness) |
- |
1000 |
|
- |
Cl 5(Deformations and Surface Characteristics) |
- |
1000 |
|
- |
Clause - 4.2 & 4.2.1(Fe- 415, Fe- 415D, Fe-500, Fe-500D, Fe-550, Fe-550D, Fe-600 CARBON +EQUIVELENT ) |
- |
5000 |
|
- |
4.1(Sulphur and phosphorous) |
- |
5000 |
|
- |
4.1(CE) |
- |
5000 |
|
- |
4.1( Nitrogen%) |
- |
5000 |
|
- |
4.1(Ni) |
- |
5000 |
|
- |
4.1(Mo) |
- |
5000 |
|
- |
4.1(Cr) |
- |
5000 |
|
- |
4.1( Ti) |
- |
5000 |
|
- |
4.1(V) |
- |
5000 |
|
- |
4.1( Nb) |
- |
5000 |
|
- |
4.1( Aluminium %) |
- |
5000 |
|
- |
4.1( Copper %) |
- |
5000 |
|
- |
4.1(Silicon %) |
- |
5000 |
|
- |
4.1(Sulphur %) |
- |
5000 |
|
- |
4.1(Phosphorus %) |
- |
5000 |
|
- |
4.1(Manganese %) |
- |
5000 |
|
- |
4.1(Carbon %) |
- |
5000 |
|
- |
Cl.9.4 & Cl. 9.4.1(Rebend test) |
- |
1000 |
|
- |
Cl. 9.3, Table 4(Bend Test ) |
- |
1000 |
|
- |
Cl. 8.1 Table 3(Elongation, percentage) |
- |
1000 |
|
- |
Cl. 8.1 Table 3(TS/YS ratio) |
- |
1000 |
|
- |
Cl. 8.1 Table 3(Tensile Strength (TS)) |
- |
1000 |
|
- |
Cl. 8.1 Table 3(Yield Stress (YS)) |
- |
1000 |
|
- |
Cl. 7.2 Table -2 (Nominal Mass) |
- |
1000 |
|
- |
Cl. 6.1(Nominal Size) |
- |
1000 |
|
- |
Cl. 5 (Cl. 5 - Mean projected area of transverse ribs (1/3 of Ar)) |
- |
1000 |
|
- |
Cl. 5 (Cl.5 Mean area of ribs/unit length (Ar), ) |
- |
1000 |
|
- |
Clause - 4.2 & 4.2.1(Fe- 415, Fe- 415D, Fe-500, Fe-500D, Fe-550, Fe-550D, Fe-600 SULPHUR+PHOSPHUR) |
- |
5000 |
|
- |
Clause - 4.2 & 4.2.1(Fe- 415, Fe- 415D, Fe-500, Fe-500D, Fe-550, Fe-550D, Fe-600 MANGANESE) |
- |
5000 |
|
- |
Clause - 4.2 & 4.2.1(Fe- 415, Fe- 415D, Fe-500, Fe-500D, Fe-550, Fe-550D, Fe-600 NITROGEN) |
- |
5000 |
|
- |
Clause - 4.2 & 4.2.1(Fe- 415, Fe- 415D, Fe-500, Fe-500D, Fe-550, Fe-550D, Fe-600 PHOSPHURS) |
- |
5000 |
|
- |
Clause - 4.2 & 4.2.1(Fe- 415, Fe- 415D, Fe-500, Fe-500D, Fe-550, Fe-550D, Fe-600 SULPHUR) |
- |
5000 |
|
- |
Clause - 4.2 & 4.2.1(Fe- 415, Fe- 415D, Fe-500, Fe-500D, Fe-550, Fe-550D, Fe-600 CARBON ) |
- |
5000 |
|
- |
Cl.4.2 of IS 1786 (Vanadium- IS 228 and relevant parts or any other established Instrumental/Chemical method.) |
- |
5000 |
|
- |
Cl.4.2 of IS 1786 (Molybdenum- IS 228 and relevant parts or any other established Instrumental/Chemical method.) |
- |
5000 |
|
- |
Cl.4.2 of IS 1786 (Chromium- IS 228 and relevant parts or any other established Instrumental/Chemical method.) |
- |
5000 |
|
- |
Cl.4.2 of IS 1786 (Nickel- IS 228 and relevant parts or any other established Instrumental/Chemical method.) |
- |
5000 |
|
- |
Cl.4.2 of IS 1786 (Copper- IS 228 and relevant parts or any other established Instrumental/Chemical method.) |
- |
5000 |
|
- |
Cl.4.2 of IS 1786 (Nitrogen- IS 228 and relevant parts or any other established Instrumental/Chemical method.) |
- |
5000 |
|
- |
Cl.4.2 of IS 1786 (Manganese- IS 228 and relevant parts or any other established Instrumental/Chemical method.) |
- |
5000 |
|
- |
Cl.4.2 of IS 1786 (Grade:- Fe 415D,Fe 415S, Fe 500D,Fe 500S,Fe 550D)(Carbon Equivalent) |
- |
5000 |
|
- |
Cl.4.2 of IS 1786 (Grade:- Fe 415,Fe 415D,Fe 415S,Fe 500,Fe 500D,Fe 500S,Fe 550,Fe 550D,Fe600,Fe 650,Fe 700)(Sulphur & Phosphorous) |
- |
5000 |
|
- |
Cl.4.2 of IS 1786 (Grade:- Fe 415,Fe 415D,Fe 415S,Fe 500,Fe 500D,Fe 500S,Fe 550,Fe 550D,Fe600,Fe 650,Fe 700)(Phosphorous- IS 228) |
- |
5000 |
|
- |
Cl.4.2 of IS 1786 (Grade:- Fe 415,Fe 415D,Fe 415S,Fe 500,Fe 500D,Fe 500S,Fe 550,Fe 550D,Fe600,Fe 650,Fe 700)(Sulphur-IS 228) |
- |
5000 |
|
- |
Cl.4.2 of IS 1786 (Grade:- Fe 415,Fe 415D,Fe 415S,Fe 500,Fe 500D,Fe 500S,Fe 550,Fe 550D,Fe600,Fe 650,Fe 700)(Carbon-IS 228) |
- |
5000 |
|
- |
8.18.1 Table 3(Total elongation at maximum force) |
- |
1000 |
|
- |
Cl 5(Deformations and Surface Characteristics) |
- |
1000 |
|
- |
5.7(PullOut (Bond Test)) |
- |
2500 |
|
- |
4.2(Niobium (Nb)) |
- |
5000 |
|
- |
4.2(Boron (B)) |
- |
5000 |
|
- |
Cl. 5.7(Average compressive strength of cubes at 28 days) |
- |
2500 |
|
- |
Cl. 5.7(Bond Strength at 0.25 mm slip) |
- |
2500 |
|
- |
Cl. 5.7(Date of testing of concrete cubes) |
- |
500 |
|
- |
Cl. 5.7(Date of casting of concrete cubes) |
- |
500 |
|
- |
Cl. 8.1 Table 3(TS/YS Ratio) |
- |
1000 |
|
- |
Cl. 5.3 (b)(The ribs contributing the projected area - Transverse Ribs) |
- |
1000 |
|
- |
Cl. 5.3 (a)(The ribs contributing the projected area - Longitudinal Ribs) |
- |
1000 |
|
- |
Cl. 8.1 Table 3(Maximum Extension) |
- |
1000 |
|
- |
Cl. 8.1 Table 3(Total Elongation at Maximum Force) |
- |
1000 |
|
- |
Cl. 6.2, 6.3 Table 1(Gross Cross Sectional Area, A) |
- |
1000 |
|
- |
Cl. 4.3(Visual Inspection.) |
- |
1000 |
|
- |
Cl. 5.2(Surface Characteristics) |
- |
1000 |
|
- |
Clause 9.4(Rebend Test) |
- |
1000 |
|
- |
Clause 6.3(Effective Cross-sectional Area) |
- |
1000 |
|
- |
Clause 8.1(Table 3)(Total Elongation at Maximum Force) |
- |
1000 |
|
- |
Cl 9.4(Load In Other Direction From Bend) |
- |
1000 |
|
- |
Cl 9.3(Load In One Direction) |
- |
1000 |
|
- |
Cl 8.1(UTM) |
- |
1000 |
|
- |
Cl 7.2(Weight) |
- |
1000 |
|
- |
Cl 6.1(Length, Width & Thickness) |
- |
1000 |
|
- |
Cl 5(Deformations and Surface Characteristics) |
- |
1000 |
|
- |
Cl 5(Deformations and Surface Characteristics) |
- |
1000 |
|
- |
Cl 6.1(Length, Width & Thickness) |
- |
1000 |
|
- |
Cl 7.2(Weight) |
- |
1000 |
|
- |
Cl 8.1(UTM) |
- |
1000 |
|
- |
Cl 9.3(Load In One Direction) |
- |
1000 |
|
- |
Cl 9.4(Load In Other Direction From Bend) |
- |
1000 |
|
- |
13(Identification and marking) |
- |
500 |
|
- |
5.7(Pull-out test - IS:2770(P1)) |
- |
2500 |
|
- |
7.0 & 7.1(Specified lengths - SOP MT-23) |
- |
1000 |
|
- |
8.0 & 8.1("Total elongation at maximum force on
5.65 vSo mm GL.
") |
- |
1000 |
|
- |
4.3(Rolling and cold working of bars/wire) |
- |
1000 |
|
- |
7.1(Specified length) |
- |
1000 |
|
- |
9.1(Preparation of test sample) |
- |
1000 |
|
- |
9.2(Tensile test,IS:1608(Pt1)-2018) |
- |
1000 |
|
- |
9.5(Retest) |
- |
1000 |
|
- |
12(Inspection) |
- |
500 |
|
- |
Clause 4.2 Note 2, Amendment 1 & 3(Nb+V+B+Ti) |
- |
5000 |
|
- |
Clause 4.2 Note 3, Amendment 1 & 3(Cr+Cu+Ni+Mo+P) |
- |
5000 |
|
- |
Clause 4.2, Amendment 3 Note 4("In order to ascertain whether sufficient quantities of nitrogen binding elements are present, following formula may be used, where all elements are in ppm.
(N−120)< (Al free/10)+((Ti+V)/7)+(Nb/14)") |
- |
5000 |
|
- |
1() |
- |
0 |
|
- |
|
27 May, 2028 |
- Included w.e.f 31.07.2025 |
12 |
IS 6754 (1972) |
Specification for aluminium alloy ingots for bearings |
All Designation |
15000 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
2.1(General requirements) |
- |
500 |
|
- |
3.1(Manufacture) |
- |
500 |
|
- |
4.1(Chemical composition) |
- |
5000 |
|
- |
5.1(Shape and size) |
- |
1000 |
|
- |
6(Freedom from Defects) |
- |
500 |
|
- |
7(Selection of Sample for chemical analysis) |
- |
5000 |
|
- |
8(Retest) |
- |
1000 |
|
- |
9(Marking) |
- |
500 |
|
- |
Table-1, Clause - 4.1(Copper) |
- |
5000 |
|
- |
Table-1, Clause - 4.1(Magnesium) |
- |
5000 |
|
- |
Table-1, Clause - 4.1(Manganese) |
- |
5000 |
|
- |
Table-1, Clause - 4.1(Titanium) |
- |
5000 |
|
- |
Table-1, Clause - 4.1(Silicon) |
- |
5000 |
|
- |
Table-1, Clause - 4.1(Nickel) |
- |
5000 |
|
- |
Table-1, Clause - 4.1(Tin) |
- |
5000 |
|
- |
Table-1, Clause - 4.1(Other elements) |
- |
5000 |
|
- |
Table-1, Clause - 4.1(Total of Fe+Si+Mn) |
- |
5000 |
|
- |
Table-1, Clause - 4.1(Aluminium) |
- |
5000 |
|
- |
|
27 May, 2028 |
- Included w.e.f 23.07.2025 |
13 |
IS 5484 (2023) |
EC GRADE ALUMINIUM ROD PRODUCED BY CONTINUOUS CASTING AND ROLLING - SPECIFICATION |
ALL Designation |
9900 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
Cl-5(Manufacture) |
- |
0 |
|
- |
Cl-6.1(Grades and chemical composition of EC grade aluminium rod produced) |
- |
0 |
|
- |
Cl-6.2(Chemical analysis of the material) |
- |
5000 |
|
- |
Cl-7.1(General condition for delivery and inspection relating) |
- |
0 |
|
- |
Cl-9(Ultimate tensile strength and elongation) |
- |
1000 |
|
- |
Cl-10.1(Resistivity) |
- |
1000 |
|
- |
Cl-10.1(electrical conductivity) |
- |
1000 |
|
- |
Cl-10.1.1(Resistivity and Conductivity Limit) |
- |
1000 |
|
- |
Cl-11(Dimensions) |
- |
500 |
|
- |
Cl-13(Finish and freedom from defects) |
- |
500 |
|
- |
Cl-14(Rejection and retest) |
- |
0 |
|
- |
Cl-16(Marking) |
- |
0 |
|
- |
CL 9(ULTIMATE TENSILE STRENGTH AND ELONGATION) |
- |
1000 |
|
- |
CL 11(DIMENSIONS) |
- |
500 |
|
- |
CL 13(FINISH AND FREEDOM FROM DEFECTS) |
- |
500 |
|
- |
9(Elongation) |
- |
1000 |
|
- |
12(Joint) |
- |
500 |
|
- |
Cl.6.1 as per IS 4026(Silicon - IS 504 and its parts or any other intrumental/chemical methods) |
- |
5000 |
|
- |
Cl.6.1 as per IS 4026(Iron - IS 504 and its parts or any other intrumental/chemical methods) |
- |
5000 |
|
- |
Cl.6.1 as per IS 4026(Copper - IS 228 and its parts or any other intrumental/chemical methods) |
- |
5000 |
|
- |
Cl.6.1 as per IS 4026(Manganese - IS 228 and its parts or any other intrumental/chemical methods) |
- |
5000 |
|
- |
Cl.6.1 as per IS 4026(Magnesium - IS 228 and its parts or any other intrumental/chemical methods) |
- |
5000 |
|
- |
Cl.6.1 as per IS 4026(Chromium - IS 228 and its parts or any other intrumental/chemical methods) |
- |
5000 |
|
- |
Cl.6.1 as per IS 4026(Zinc - IS 228 and its parts or any other intrumental/chemical methods) |
- |
5000 |
|
- |
Cl.6.1 as per IS 4026(Titanium - IS 228 and its parts or any other intrumental/chemical methods) |
- |
5000 |
|
- |
|
27 May, 2028 |
- Included w.e.f 23.07.2025 |
14 |
IS 617 (2024) |
Aluminium and Aluminium Alloys Ingots for Remelting and Castings for General Engineering Purposes â Specification (Fourth Revision) |
All Designation |
14700 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
Cl-6.1, Table-1(Si) |
- |
5000 |
|
- |
Cl-6.1, Table-1(Fe) |
- |
5000 |
|
- |
Cl-6.1, Table-1(Cu) |
- |
5000 |
|
- |
Cl-6.1, Table-1(Mn) |
- |
5000 |
|
- |
Cl-6.1, Table-1(Mg) |
- |
5000 |
|
- |
Cl-6.1, Table-1(Cr) |
- |
5000 |
|
- |
Cl-6.1, Table-1(Ni) |
- |
5000 |
|
- |
Cl-6.1, Table-1(Zn) |
- |
5000 |
|
- |
Cl-6.1, Table-1(Pb) |
- |
5000 |
|
- |
Cl-6.1, Table-1(Sn) |
- |
5000 |
|
- |
Cl-6.1, Table-1(Ti) |
- |
5000 |
|
- |
Cl-6.1, Table-1(Others elements Each) |
- |
5000 |
|
- |
Cl-6.1, Table-1(Others elements Total) |
- |
5000 |
|
- |
Cl-6.1, Table-1(Aluminium) |
- |
5000 |
|
- |
Cl-6.2(The chemical analysis) |
- |
5000 |
|
- |
Cl-7.1, Table-2(Sand-Cast Alloys- Tensile Strength) |
- |
1000 |
|
- |
Cl-7.1, Table-2(Sand-Cast Alloys- Proof Stress) |
- |
1000 |
|
- |
Cl-7.1, Table-2(Sand-Cast Alloys- Elongation) |
- |
1000 |
|
- |
Cl-7.1, Table-2(Sand-Cast Alloys- Brinell Hardness HBW) |
- |
1000 |
|
- |
Cl-7.1, Table-3(Chill Cast Alloys- Tensile Strength) |
- |
1000 |
|
- |
Cl-7.1, Table-3(Chill Cast Alloys- Proof Stress) |
- |
1000 |
|
- |
Cl-7.1, Table-3(Chill Cast Alloys- Elongation) |
- |
1000 |
|
- |
Cl-7.1, Table-3(Chill Cast Alloys- Brinell Hardness HBW) |
- |
10000 |
|
- |
Cl-7.1, Table-4(Investment-Cast Alloys- Tensile Strength) |
- |
1000 |
|
- |
Cl-7.1, Table-4(Investment-Cast Alloys- Proof Stress) |
- |
1000 |
|
- |
Cl-7.1, Table-4(Investment-Cast Alloys- Elongation) |
- |
1000 |
|
- |
Cl-7.1, Table-4(Investment-Cast Alloys-Brinell Hardness) |
- |
1000 |
|
- |
Cl-7.2(Tensile Tests) |
- |
1000 |
|
- |
Cl-7.3(Test Pieces) |
- |
1000 |
|
- |
Cl-7.4(Hardness) |
- |
1000 |
|
- |
Cl-8(Freedom from Defects) |
- |
700 |
|
- |
Cl-11(RETEST) |
- |
500 |
|
- |
Cl-13(Marking) |
- |
500 |
|
- |
Cl. 6(Silicon) |
- |
5000 |
|
- |
Cl. 6(Iron) |
- |
5000 |
|
- |
Cl. 6(Copper) |
- |
5000 |
|
- |
Cl. 6(Manganese) |
- |
5000 |
|
- |
Cl. 6(Magnesium) |
- |
5000 |
|
- |
Cl. 6(Chromium) |
- |
5000 |
|
- |
Cl. 6(Nickel) |
- |
5000 |
|
- |
Cl. 6(Zinc) |
- |
5000 |
|
- |
Cl. 6(Lead) |
- |
5000 |
|
- |
Cl. 6(Tin) |
- |
5000 |
|
- |
Cl. 6(Titanium) |
- |
5000 |
|
- |
Cl. 6(Others Element Each) |
- |
5000 |
|
- |
Cl. 6(Others Element Total) |
- |
5000 |
|
- |
Cl. 6(Aluminium) |
- |
5000 |
|
- |
Cl. 6(Silver) |
- |
5000 |
|
- |
Cl. 6(Zirconium) |
- |
5000 |
|
- |
Cl. 6(Titanium+Zirconium) |
- |
5000 |
|
- |
Cl. 6(Antimony) |
- |
5000 |
|
- |
Cl. 6(Cobalt) |
- |
5000 |
|
- |
Cl. 6(Antimony+Cobalt) |
- |
5000 |
|
- |
Cl. 6(Beryllium) |
- |
5000 |
|
- |
|
27 May, 2028 |
- Included w.e.f 23.07.2025
Exclusion: Cl 10 Pressure test (Optional) |
15 |
IS 1079 (2017) |
Hot rolled carbon steel sheet, plate and strip - Specification (Seventh Revision) |
All Designation |
9500 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
Cl 8(UTM) |
- |
1000 |
|
- |
Cl 9(Press) |
- |
1000 |
|
- |
Cl 10(Die Press) |
- |
1000 |
|
- |
Cl 12(Workmanship) |
- |
500 |
|
- |
Cl 13(Length, Width & Thickness) |
- |
500 |
|
- |
Cl 8(UTM) |
- |
1000 |
|
- |
Cl 9(Press) |
- |
1000 |
|
- |
Cl 10(Die Press) |
- |
1000 |
|
- |
Cl 12(Workmanship) |
- |
500 |
|
- |
Cl 13(Length, Width & Thickness) |
- |
500 |
|
- |
Cl 8(UTM) |
- |
1000 |
|
- |
Cl 9(Press) |
- |
1000 |
|
- |
Cl 10(Die Press) |
- |
1000 |
|
- |
Cl 12(Workmanship) |
- |
500 |
|
- |
Cl 13(Length, Width & Thickness) |
- |
500 |
|
- |
6.1(Carbon %) |
- |
5000 |
|
- |
6.1(Manganese %) |
- |
5000 |
|
- |
6.1(Phosphorus %) |
- |
5000 |
|
- |
6.1(Sulphur %) |
- |
5000 |
|
- |
6.1(Silicon %) |
- |
5000 |
|
- |
6.1( Copper %) |
- |
5000 |
|
- |
6.1( Aluminium %) |
- |
5000 |
|
- |
6.1( Nb) |
- |
5000 |
|
- |
6.1(V) |
- |
5000 |
|
- |
6.1( Ti) |
- |
5000 |
|
- |
6.1(Cr) |
- |
5000 |
|
- |
6.1(Mo) |
- |
5000 |
|
- |
6.1(Ni) |
- |
5000 |
|
- |
6.1( Nitrogen%) |
- |
5000 |
|
- |
6.1(Microalloying) |
- |
5000 |
|
- |
6.1(Carbon %) |
- |
5000 |
|
- |
6.1(Manganese %) |
- |
5000 |
|
- |
6.1(Phosphorus %) |
- |
5000 |
|
- |
6.1(Sulphur %) |
- |
5000 |
|
- |
6.1(Silicon %) |
- |
5000 |
|
- |
6.1( Copper %) |
- |
5000 |
|
- |
6.1( Aluminium %) |
- |
5000 |
|
- |
6.1( Nb) |
- |
5000 |
|
- |
6.1(V) |
- |
5000 |
|
- |
6.1( Ti) |
- |
5000 |
|
- |
6.1(Cr) |
- |
5000 |
|
- |
6.1(Mo) |
- |
5000 |
|
- |
6.1(Ni) |
- |
5000 |
|
- |
6.1( Nitrogen%) |
- |
5000 |
|
- |
6.1(Microalloying) |
- |
5000 |
|
- |
6.1(Carbon %) |
- |
5000 |
|
- |
6.1(Manganese %) |
- |
5000 |
|
- |
6.1(Phosphorus %) |
- |
5000 |
|
- |
6.1(Sulphur %) |
- |
5000 |
|
- |
6.1(Silicon %) |
- |
5000 |
|
- |
6.1( Copper %) |
- |
5000 |
|
- |
6.1( Aluminium %) |
- |
5000 |
|
- |
6.1( Nb) |
- |
5000 |
|
- |
6.1(V) |
- |
5000 |
|
- |
6.1( Ti) |
- |
5000 |
|
- |
6.1(Cr) |
- |
5000 |
|
- |
6.1(Mo) |
- |
5000 |
|
- |
6.1(Ni) |
- |
5000 |
|
- |
6.1( Nitrogen%) |
- |
5000 |
|
- |
6.1(Microalloying) |
- |
5000 |
|
- |
Cl.13(Out of square) |
- |
500 |
|
- |
Cl.13(Flatness) |
- |
500 |
|
- |
Cl.13(Camber) |
- |
500 |
|
- |
Cl.13(Width) |
- |
500 |
|
- |
Cl.13(Thickness) |
- |
500 |
|
- |
Cl. 8.3, Cl. 8.3.1
Table 5 and Table 6(Percentage Elongation After Fracture at 5.65√A Gauge length) |
- |
1000 |
|
- |
Cl. 8.3, Cl. 8.3.1
Table 5 and Table 6(Percentage Elongation After Fracture at 80 mm Gauge length) |
- |
1000 |
|
- |
Cl. 8.3, Cl. 8.3.1
Table 5 and Table 6(Percentage Elongation After Fracture at 50 mm Gauge length) |
- |
1000 |
|
- |
Cl. 8.3, Cl. 8.3.1
Table 6(0.2% Proof Stress/Yield Stress) |
- |
1000 |
|
- |
Cl 13(Length, Width & Thickness) |
- |
500 |
|
- |
Cl 12(Workmanship) |
- |
500 |
|
- |
Cl 10(Die Press) |
- |
1000 |
|
- |
Cl 9(Press) |
- |
1000 |
|
- |
Cl 8(UTM) |
- |
1000 |
|
- |
7(Material Test) |
- |
5000 |
|
- |
9(Bend test) |
- |
1000 |
|
- |
14(Calculation of weight) |
- |
500 |
|
- |
Cl 8(UTM) |
- |
1000 |
|
- |
Cl 9(Press) |
- |
1000 |
|
- |
Cl 10(Die Press) |
- |
1000 |
|
- |
Cl 12(Workmanship) |
- |
500 |
|
- |
Cl 13(Length, Width & Thickness) |
- |
500 |
|
- |
8, Table 5 & 6(Tensile Strength) |
- |
1000 |
|
- |
8, Table 5 & 6(Yield Strength) |
- |
1000 |
|
- |
8, Table 5 & 6(Elongation) |
- |
1000 |
|
- |
Clause 10(Cuppping Test) |
- |
1000 |
|
- |
Clause 12(Freedom from defect) |
- |
500 |
|
- |
Clause 13(Length) |
- |
500 |
|
- |
Clause 7, Table 3, Note 1(Any Instrumental Method/Chemical Method) |
- |
5000 |
|
- |
Clause 7, Table 3, Note 1(By Calculation) |
- |
5000 |
|
- |
8, Table 5 & 6(Tensile Strength) |
- |
1000 |
|
- |
8, Table 5 & 6(Yield Strength) |
- |
1000 |
|
- |
8, Table 5 & 6(Elongation) |
- |
1000 |
|
- |
Clause 10(Cuppping Test) |
- |
1000 |
|
- |
Clause 12(Freedom from defect) |
- |
500 |
|
- |
Clause 13(Length) |
- |
500 |
|
- |
Clause 7, Table 3, Note 1(Boron) |
- |
5000 |
|
- |
Clause 7, Table 3, Note 1(B+Ti+Nb+V) |
- |
5000 |
|
- |
16(Marking and packing) |
- |
500 |
|
- |
8, Table 5 & 6(IS 1608 Part 1) |
- |
1000 |
|
- |
8, Table 5 & 6(IS 1608 Part 1) |
- |
1000 |
|
- |
8, Table 5 & 6(IS 1608 Part 1) |
- |
1000 |
|
- |
Clause 10(IS 10175) |
- |
1000 |
|
- |
Clause 12(IS 1079) |
- |
1000 |
|
- |
Clause 13(IS/ISO 16160) |
- |
1000 |
|
- |
Clause 7, Table 3, Note 1(Boron) |
- |
5000 |
|
- |
Clause 7, Table 3, Note 1(B+Ti+Nb+V) |
- |
500 |
|
- |
|
27 May, 2028 |
- Included w.e.f 22.07.2025 |
16 |
IS 15911 (2010) |
Structural steel (Ordinary Quality) - Specification |
E165, E170, E215 |
9500 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
Table-1, 5.1, 8.1 & 8.2(Carbon: Relevant parts of IS 228 or any other established instrumental/chemical method) |
- |
5000 |
|
- |
Table-1, 5.1, 8.1 & 8.2(Sulphur: Relevant parts of IS 228 or any other established instrumental/chemical method) |
- |
5000 |
|
- |
Table-1, 5.1, 8.1 & 8.2(Phosphorous: Relevant parts of IS 228 or any other established instrumental/chemical method) |
- |
5000 |
|
- |
Table-1, 5.1, 8.1 & 8.2(Manganese: Relevant parts of IS 228 or any other established instrumental/chemical method) |
- |
5000 |
|
- |
Table-1, 5.1, 8.1 & 8.2(Silicon: Relevant parts of IS 228 or any other established instrumental/chemical method) |
- |
5000 |
|
- |
Table-1, 5.1, 8.1 & 8.2(Chromium: Relevant parts of IS 228 or any other established instrumental/chemical method) |
- |
5000 |
|
- |
Table-1, 5.1, 8.1 & 8.2(Molybdenum: Relevant parts of IS 228 or any other established instrumental/chemical method) |
- |
5000 |
|
- |
Table-1, 5.1, 8.1 & 8.2(Vanadium: Relevant parts of IS 228 or any other established instrumental/chemical method) |
- |
5000 |
|
- |
Table-1, 5.1, 8.1 & 8.2(Nickel: Relevant parts of IS 228 or any other established instrumental/chemical method) |
- |
5000 |
|
- |
Table-1, 5.1, 8.1 & 8.2(Copper: Relevant parts of IS 228 or any other established instrumental/chemical method) |
- |
5000 |
|
- |
Table-1, 5.1, 8.1 & 8.2(Aluminium: Relevant parts of IS 228 or any other established instrumental/chemical method) |
- |
5000 |
|
- |
Table-1, 5.1, 8.1 & 8.2(Nitrogen: Relevant parts of IS 228 or any other established instrumental/chemical method) |
- |
5000 |
|
- |
Table-1, 5.1, 8.1 & 8.2(Niobium: Relevant parts of IS 228 or any other established instrumental/chemical method) |
- |
5000 |
|
- |
Table-1, 5.1, 8.1 & 8.2(Titanium: Relevant parts of IS 228 or any other established instrumental/chemical method) |
- |
5000 |
|
- |
Table-1, 5.1, 8.1 & 8.2(Boron: Relevant parts of IS 228 or any other established instrumental/chemical method) |
- |
5000 |
|
- |
7(Freedom from defects) |
- |
500 |
|
- |
5 and 10.3.1(Tensile strength. IS 1608) |
- |
1000 |
|
- |
5 and 10.3.1(Yield Stress. IS 1608) |
- |
1000 |
|
- |
5 and 10.3.1(Percentage Elongation. . IS 1608) |
- |
1000 |
|
- |
5 and 10.3.1(Internal Bend Diameter) |
- |
500 |
|
- |
11.3( Bend Test. IS 1599) |
- |
1000 |
|
- |
Cl 12 of IS 15911 and Table 2.1 of IS 808(Mass. IS 808) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 2.1 of IS 808(Sectional Area. IS 808) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 2.1 of IS 808(D) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 2.1 of IS 808(B) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 2.1 of IS 808(t) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 2.1 of IS 808(T) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 2.1 of IS 808(Flange Slop, Max α , ) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 2.1 of IS 808(R1) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 2.1 of IS 808(R2) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 2.1 of IS 808(Ix) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 2.1 of IS 808(Iy) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 2.1 of IS 808(rx) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 2.1 of IS 808(ry) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 2.1 of IS 808(Zx) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 2.1 of IS 808(Zy) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 2.2 of IS 808(Mass. IS 808) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 2.1 of IS 808(Sectional Area. IS 808) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 2.1 of IS 808(D) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 2.1 of IS 808(B) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 2.1 of IS 808(t) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 2.1 of IS 808(T) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 2.1 of IS 808(Flange Slop, Max α , ) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 2.1 of IS 808(R1) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 2.1 of IS 808(R2) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 2.1 of IS 808(Ix) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 2.1 of IS 808(Iy) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 2.1 of IS 808(rx) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 2.1 of IS 808(ry) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 2.1 of IS 808(Zx) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 2.1 of IS 808(Zy) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 3.1 of IS 808(Mass. IS 808) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 3.1 of IS 808(Sectional Area. IS 808) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 3.1 of IS 808(D) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 3.1 of IS 808(B) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 3.1 of IS 808(t) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 3.1 of IS 808(T) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 3.1 of IS 808(Flange Slop, Max α , ) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 3.1 of IS 808(R1) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 3.1 of IS 808(R2) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 3.1 of IS 808(Ix) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 3.1 of IS 808(Iy) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 3.1 of IS 808(rx) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 3.1 of IS 808(ry) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 3.1 of IS 808(Zx) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 3.1 of IS 808(Zy) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 4.1 of IS 808(Mass. IS 808) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 4.1 of IS 808(Sectional Area. IS 808) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 4.1 of IS 808(D) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 4.1 of IS 808(B) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 4.1 of IS 808(t) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 4.1 of IS 808(T) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 4.1 of IS 808(Flange Slop, Max α , ) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 4.1 of IS 808(R1) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 4.1 of IS 808(R2) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 4.1 of IS 808(Cy) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 4.1 of IS 808(Ix) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 4.1 of IS 808(Iy) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 4.1 of IS 808(rx) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 4.1 of IS 808(ry) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 4.1 of IS 808(Zx) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 4.1 of IS 808(Zy) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 5.1 of IS 808(Mass. IS 808) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 5.1 of IS 808(Sectional Area. IS 808) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 5.1 of IS 808(A*B) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 5.1 of IS 808(R1) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 5.1 of IS 808(R2) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 5.1 of IS 808(Cx) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 5.1 of IS 808(Cy) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 5.1 of IS 808(Ix) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 5.1 of IS 808(Iy) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 5.1 of IS 808(Ia( Max )) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 5.1 of IS 808(Iv( Max )) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 5.1 of IS 808(rx) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 5.1 of IS 808(ry) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 5.1 of IS 808(ru( Max )) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 5.1 of IS 808(rv( Min )) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 5.1 of IS 808(Zx) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 5.1 of IS 808(Zy ) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 6.1 of IS 808(Mass. IS 808) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 6.1 of IS 808(Sectional Area. IS 808) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 6.1 of IS 808(A*B) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 6.1 of IS 808(R1) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 6.1 of IS 808(R2) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 6.1 of IS 808(Cx) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 6.1 of IS 808(Cy) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 6.1 of IS 808(Tanα) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 6.1 of IS 808(Ix) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 6.1 of IS 808(Iy) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 6.1 of IS 808(Ia( Max )) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 6.1 of IS 808(Iv( Max )) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 6.1 of IS 808(rx) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 6.1 of IS 808(ry) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 6.1 of IS 808(ru( Max )) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 6.1 of IS 808(rv( Min )) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 6.1 of IS 808(Zx) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 6.1 of IS 808(Zy ) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 6.2 of IS 808(Mass. IS 808) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 6.2 of IS 808(Sectional Area. IS 808) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 6.2 of IS 808(A*B) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 6.2 of IS 808(R1) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 6.2 of IS 808(R2) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 6.2 of IS 808(Cx) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 6.2 of IS 808(Cy) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 6.2 of IS 808(Tanα) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 6.2 of IS 808(Ix) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 6.2 of IS 808(Iy) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 6.2 of IS 808(Ia( Max )) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 6.2 of IS 808(Iv( Max )) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 6.2 of IS 808(rx) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 6.2 of IS 808(ry) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 6.2 of IS 808(ru( Max )) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 6.2 of IS 808(rv( Min )) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 6.2 of IS 808(Zx) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 6.2 of IS 808(Zy ) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 1 of IS 1173(Clauses 3.1 , 5.1 and Table 1 of IS 1173) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 1 of IS 1252(Clauses 4.1 , 6.1 and Table 1 of IS 1252) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 2 of IS 1730(Clauses 4.1 , 4.2 and Table 1 of IS 1730) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 2 of IS 1730(Clauses 4.2 and Table 1 of IS 1730) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 3 of IS 1730(Clauses 4.3 and Table 1 of IS 1730) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 4 of IS 1730(Clauses 5.1 and Table 1 of IS 1730) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 5 of IS 1730(Clauses 5.2 and Table 1 of IS 1730) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 6 of IS 1730(Clauses 6.1 and Table 1 of IS 1730) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 7 of IS 1730(Clauses 6.2 and Table 1 of IS 1730) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 8 of IS 1730(Clauses 7.1, 7.2 and Table 1 of IS 1730) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 9 of IS 1730(Clauses 7.2 and Table 1 of IS 1730) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 1 of IS 1732(Clauses 3.1, 4.1,4.1.1 and Table 1 of IS 1732) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 2 of IS 1732(Clauses 3.1, 4.1,4.1.1 and Table 1 of IS 1732) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 1 of IS 1863(Clauses 4.1, 5.5 and Table 1 of IS 1863) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 2 of IS 1863(Clauses 5.1 and Table 2 of IS 1863) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 3 of IS 1863(Clauses 5.2 and Table 2 of IS 1863) |
- |
500 |
|
- |
Cl 12 of IS 15911 and Table 1 of IS 3954(Clauses 4, 6.1 and Table 2 of IS 3954) |
- |
500 |
|
- |
13(Tolerances) |
- |
500 |
|
- |
17(Marking) |
- |
500 |
|
- |
|
27 May, 2028 |
- Included w.e.f 22.07.2025 |
17 |
IS 10748 (2004) |
Hot - Rolled steel strip for welded tubes and pipes - Specification (Second Revision) |
G1/ G2/ G3/ G4/ G5/ G6 |
10000 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
Cl 8 & Table 3(UTM) |
- |
1000 |
|
- |
Cl 9(Press) |
- |
1000 |
|
- |
Cl 11(Workmanship) |
- |
1000 |
|
- |
Cl 12 & 13(Length, Width & Thickness) |
- |
500 |
|
- |
Cl 8 & Table 3(UTM) |
- |
1000 |
|
- |
Cl 9(Press) |
- |
1000 |
|
- |
Cl 11(Workmanship) |
- |
500 |
|
- |
Cl 12 & 13(Length, Width & Thickness) |
- |
500 |
|
- |
Cl 8 & Table 3(UTM) |
- |
1000 |
|
- |
Cl 9(Press) |
- |
1000 |
|
- |
Cl 11(Workmanship) |
- |
500 |
|
- |
Cl 12 & 13(Length, Width & Thickness) |
- |
500 |
|
- |
7.1(Carbon %) |
- |
5000 |
|
- |
7.1(Manganese %) |
- |
5000 |
|
- |
7.1(Phosphorus %) |
- |
5000 |
|
- |
7.1(Sulphur %) |
- |
5000 |
|
- |
7.1(Silicon %) |
- |
5000 |
|
- |
7.1( Copper %) |
- |
5000 |
|
- |
7.1( Aluminium %) |
- |
5000 |
|
- |
7.1( Nb) |
- |
5000 |
|
- |
7.1(V) |
- |
5000 |
|
- |
7.1( Ti) |
- |
5000 |
|
- |
7.1(Cr) |
- |
5000 |
|
- |
7.1(Mo) |
- |
5000 |
|
- |
7.1(Ni) |
- |
5000 |
|
- |
7.1( Nitrogen%) |
- |
5000 |
|
- |
7.1(CE) |
- |
5000 |
|
- |
7.1(Carbon %) |
- |
5000 |
|
- |
7.1(Manganese %) |
- |
5000 |
|
- |
7.1(Phosphorus %) |
- |
5000 |
|
- |
7.1(Sulphur %) |
- |
5000 |
|
- |
7.1(Silicon %) |
- |
5000 |
|
- |
7.1( Copper %) |
- |
5000 |
|
- |
7.1( Aluminium %) |
- |
5000 |
|
- |
7.1( Nb) |
- |
5000 |
|
- |
7.1(V) |
- |
5000 |
|
- |
7.1( Ti) |
- |
5000 |
|
- |
7.1(Cr) |
- |
5000 |
|
- |
7.1(Mo) |
- |
5000 |
|
- |
7.1(Ni) |
- |
5000 |
|
- |
7.1( Nitrogen%) |
- |
5000 |
|
- |
7.1(CE) |
- |
5000 |
|
- |
7.1(Carbon %) |
- |
5000 |
|
- |
7.1(Manganese %) |
- |
5000 |
|
- |
7.1(Phosphorus %) |
- |
5000 |
|
- |
7.1(Sulphur %) |
- |
5000 |
|
- |
7.1(Silicon %) |
- |
5000 |
|
- |
7.1( Copper %) |
- |
5000 |
|
- |
7.1( Aluminium %) |
- |
5000 |
|
- |
7.1( Nb) |
- |
5000 |
|
- |
7.1(V) |
- |
5000 |
|
- |
7.1( Ti) |
- |
5000 |
|
- |
7.1(Cr) |
- |
5000 |
|
- |
7.1(Mo) |
- |
5000 |
|
- |
7.1(Ni) |
- |
5000 |
|
- |
7.1( Nitrogen%) |
- |
5000 |
|
- |
7.1(CE) |
- |
5000 |
|
- |
Table 1 ( Clauses 7.1 ,7.2 )(TITANIUM) |
- |
5000 |
|
- |
Table 1 ( Clauses 7.1 ,7.2 )(VANADIUM) |
- |
5000 |
|
- |
Table 1 ( Clauses 7.1 ,7.2 )(NIOBIUM) |
- |
5000 |
|
- |
Table 1 ( Clauses 7.1 ,7.2 )(CARBON EQUIVELENT ) |
- |
5000 |
|
- |
Table 1 ( Clauses 7.1 ,7.2 )(Molybdenum) |
- |
5000 |
|
- |
Table 1 ( Clauses 7.1 ,7.2 )(Chromium) |
- |
5000 |
|
- |
Table 1 ( Clauses 7.1 ,7.2 )(Nickel) |
- |
5000 |
|
- |
Table 1 ( Clauses 7.1 ,7.2 )( ALUMINIUM) |
- |
5000 |
|
- |
Table 1 ( Clauses 7.1 ,7.2 )(SILICON) |
- |
5000 |
|
- |
Table 1 ( Clauses 7.1 ,7.2 )(NITROGEN) |
- |
5000 |
|
- |
Table 1 ( Clauses 7.1 ,7.2 )(MANGANESE) |
- |
5000 |
|
- |
Table 1 ( Clauses 7.1 ,7.2 )(PHOSPHURS) |
- |
5000 |
|
- |
Table 1 ( Clauses 7.1 ,7.2 )(SULPHUR) |
- |
5000 |
|
- |
Table 1 ( Clauses 7.1 ,7.2 )( CARBON) |
- |
5000 |
|
- |
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) |
- |
1000 |
|
- |
Cl 11(Workmanship) |
- |
500 |
|
- |
Cl 9(Press) |
- |
1000 |
|
- |
Cl 8 & Table 3(UTM) |
- |
1000 |
|
- |
Cl 8 & Table 3(UTM) |
- |
1000 |
|
- |
Cl 9(Press) |
- |
1000 |
|
- |
Cl 11(Workmanship) |
- |
500 |
|
- |
Cl 12 & 13(Length, Width & Thickness) |
- |
500 |
|
- |
7.0 (7)(Micro Alloying elements - IS:8811) |
- |
5000 |
|
- |
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) |
- |
500 |
|
- |
16(Marking) |
- |
500 |
|
- |
3.4(Vehicle Fuel System) |
- |
500 |
|
- |
9(Protective Treatment) |
- |
500 |
|
- |
Table 1 ( Clauses 7.1 ,7.2 )(Tungsten (W)) |
- |
5000 |
|
- |
Table 1 ( Clauses 7.1 ,7.2 )(Boron (B)) |
- |
5000 |
|
- |
|
27 May, 2028 |
- Included w.e.f 31.07.2025 |
18 |
IS 2062 (2011) |
Hot rolled medium and high tensile structural steel - Specification (Seventh Revision) |
A/BR/B0/C |
15500 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
Cl 18(Weight) |
- |
500 |
|
- |
Cl 15(Length, Width & Thickness) |
- |
500 |
|
- |
Cl 12(Sudden Load Applied) |
- |
1000 |
|
- |
Cl 11.3(Press) |
- |
1000 |
|
- |
Cl 10.3(UTM) |
- |
1000 |
|
- |
Cl 7(Workmanship) |
- |
500 |
|
- |
Cl 18(Weight) |
- |
500 |
|
- |
Cl 15(Length, Width & Thickness) |
- |
500 |
|
- |
Cl 12(Sudden Load Applied) |
- |
1000 |
|
- |
Cl 11.3(Press) |
- |
1000 |
|
- |
Cl 10.3(UTM) |
- |
1000 |
|
- |
Cl 7(Workmanship) |
- |
500 |
|
- |
Cl 18(Weight) |
- |
500 |
|
- |
Cl 15(Length, Width & Thickness) |
- |
500 |
|
- |
Cl 12(Sudden Load Applied) |
- |
1000 |
|
- |
Cl 11.3(Press) |
- |
1000 |
|
- |
Cl 10.3(UTM) |
- |
1000 |
|
- |
Cl 7(Workmanship) |
- |
500 |
|
- |
Clause - 5, 8.1 & 8.2(E650, CARBON +EQUIVELENT ) |
- |
5000 |
|
- |
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 %)) |
- |
1000 |
|
- |
Cl. 10.3 (Cl. 10.3 (Yield Stress)) |
- |
1000 |
|
- |
Cl. 10.3 (Cl. 10.3 (Tensile Strength)) |
- |
1000 |
|
- |
Clause - 5, 8.1 & 8.2(E650, ALUMINIUM) |
- |
5000 |
|
- |
Clause - 5, 8.1 & 8.2(E650, SILICON) |
- |
5000 |
|
- |
Clause - 5, 8.1 & 8.2(E650, NITROGEN) |
- |
5000 |
|
- |
Clause - 5, 8.1 & 8.2(E650 ,MANGANESE) |
- |
5000 |
|
- |
Clause - 5, 8.1 & 8.2(E650, PHOSPHURS) |
- |
5000 |
|
- |
Clause - 5, 8.1 & 8.2(E650, SULPHUR) |
- |
5000 |
|
- |
Clause - 5, 8.1 & 8.2(E650, CARBON) |
- |
5000 |
|
- |
Clause - 5, 8.1 & 8.2(E600, CARBON +EQUIVELENT ) |
- |
5000 |
|
- |
Clause - 5, 8.1 & 8.2(E600, ALUMINIUM) |
- |
5000 |
|
- |
Clause - 5, 8.1 & 8.2(E600, SILICON) |
- |
5000 |
|
- |
Clause - 5, 8.1 & 8.2(E600, NITROGEN) |
- |
5000 |
|
- |
Clause - 5, 8.1 & 8.2(E600 ,MANGANESE) |
- |
5000 |
|
- |
Clause - 5, 8.1 & 8.2(E600, PHOSPHURS) |
- |
5000 |
|
- |
Clause - 5, 8.1 & 8.2(E600, SULPHUR) |
- |
5000 |
|
- |
Clause - 5, 8.1 & 8.2(E600, CARBON) |
- |
5000 |
|
- |
Clause - 5, 8.1 & 8.2(E550, CARBON +EQUIVELENT ) |
- |
5000 |
|
- |
Clause - 5, 8.1 & 8.2(E550, ALUMINIUM) |
- |
5000 |
|
- |
Clause - 5, 8.1 & 8.2(E550, SILICON) |
- |
5000 |
|
- |
Clause - 5, 8.1 & 8.2(E550, NITROGEN) |
- |
5000 |
|
- |
Clause - 5, 8.1 & 8.2(E550 ,MANGANESE) |
- |
5000 |
|
- |
Clause - 5, 8.1 & 8.2(E550, PHOSPHURS) |
- |
5000 |
|
- |
Clause - 5, 8.1 & 8.2(E550, SULPHUR) |
- |
5000 |
|
- |
Clause - 5, 8.1 & 8.2(E550, CARBON) |
- |
5000 |
|
- |
Clause - 5, 8.1 & 8.2(E450, CARBON +EQUIVELENT ) |
- |
5000 |
|
- |
Clause - 5, 8.1 & 8.2(E450, ALUMINIUM) |
- |
5000 |
|
- |
Clause - 5, 8.1 & 8.2(E450, SILICON) |
- |
5000 |
|
- |
Clause - 5, 8.1 & 8.2(E450, NITROGEN) |
- |
5000 |
|
- |
Clause - 5, 8.1 & 8.2(E450 ,MANGANESE) |
- |
5000 |
|
- |
Clause - 5, 8.1 & 8.2(E450, PHOSPHURS) |
- |
5000 |
|
- |
Clause - 5, 8.1 & 8.2(E450, SULPHUR) |
- |
5000 |
|
- |
Clause - 5, 8.1 & 8.2(E450, CARBON) |
- |
5000 |
|
- |
Clause - 5, 8.1 & 8.2(E410, CARBON +EQUIVELENT ) |
- |
5000 |
|
- |
Clause - 5, 8.1 & 8.2(E410, ALUMINIUM) |
- |
5000 |
|
- |
Clause - 5, 8.1 & 8.2(E410, SILICON) |
- |
5000 |
|
- |
Clause - 5, 8.1 & 8.2(E410, NITROGEN) |
- |
5000 |
|
- |
Clause - 5, 8.1 & 8.2(E410 ,MANGANESE) |
- |
5000 |
|
- |
Clause - 5, 8.1 & 8.2(E410, PHOSPHURS) |
- |
5000 |
|
- |
Clause - 5, 8.1 & 8.2(E410, SULPHUR) |
- |
5000 |
|
- |
Clause - 5, 8.1 & 8.2(E410, CARBON) |
- |
5000 |
|
- |
Clause - 5, 8.1 & 8.2(E350, CARBON +EQUIVELENT ) |
- |
5000 |
|
- |
Clause - 5, 8.1 & 8.2(E350, ALUMINIUM) |
- |
5000 |
|
- |
Clause - 5, 8.1 & 8.2(E350, SILICON) |
- |
5000 |
|
- |
Clause - 5, 8.1 & 8.2(E350, NITROGEN) |
- |
5000 |
|
- |
Clause - 5, 8.1 & 8.2(E350 ,MANGANESE) |
- |
5000 |
|
- |
Clause - 5, 8.1 & 8.2(E350, PHOSPHURS) |
- |
5000 |
|
- |
Clause - 5, 8.1 & 8.2(E350, SULPHUR) |
- |
5000 |
|
- |
Clause - 5, 8.1 & 8.2(E350, CARBON) |
- |
5000 |
|
- |
Clause - 5, 8.1 & 8.2(E300, CARBON +EQUIVELENT ) |
- |
5000 |
|
- |
Clause - 5, 8.1 & 8.2(E300, ALUMINIUM) |
- |
5000 |
|
- |
Clause - 5, 8.1 & 8.2(E300, SILICON) |
- |
5000 |
|
- |
Clause - 5, 8.1 & 8.2(E300, NITROGEN) |
- |
5000 |
|
- |
Clause - 5, 8.1 & 8.2(E300 ,MANGANESE) |
- |
5000 |
|
- |
Clause - 5, 8.1 & 8.2(E300, PHOSPHURS) |
- |
5000 |
|
- |
Clause - 5, 8.1 & 8.2(E300, SULPHUR) |
- |
5000 |
|
- |
Clause - 5, 8.1 & 8.2(E300, CARBON) |
- |
5000 |
|
- |
Clause - 5, 8.1 & 8.2(E275, CARBON +EQUIVELENT ) |
- |
5000 |
|
- |
Clause - 5, 8.1 & 8.2(E275, ALUMINIUM) |
- |
5000 |
|
- |
Clause - 5, 8.1 & 8.2(E275, SILICON) |
- |
5000 |
|
- |
Clause - 5, 8.1 & 8.2(E275, NITROGEN) |
- |
5000 |
|
- |
Clause - 5, 8.1 & 8.2(E275 ,MANGANESE) |
- |
5000 |
|
- |
Clause - 5, 8.1 & 8.2(E275, PHOSPHURS) |
- |
5000 |
|
- |
Clause - 5, 8.1 & 8.2(E275, SULPHUR) |
- |
5000 |
|
- |
Clause - 5, 8.1 & 8.2(E275, CARBON) |
- |
5000 |
|
- |
Clause - 5, 8.1 & 8.2(E250, CARBON +EQUIVELENT ) |
- |
5000 |
|
- |
Clause - 5, 8.1 & 8.2(E250, ALUMINIUM) |
- |
5000 |
|
- |
Clause - 5, 8.1 & 8.2(E250, SILICON) |
- |
5000 |
|
- |
Clause - 5, 8.1 & 8.2(E250, NITROGEN) |
- |
5000 |
|
- |
Clause - 5, 8.1 & 8.2(E250 ,MANGANESE) |
- |
5000 |
|
- |
Clause - 5, 8.1 & 8.2(E250, PHOSPHURS) |
- |
5000 |
|
- |
Clause - 5, 8.1 & 8.2(E250, SULPHUR) |
- |
5000 |
|
- |
Clause - 5, 8.1 & 8.2(E250, CARBON) |
- |
5000 |
|
- |
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.) |
- |
5000 |
|
- |
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.) |
- |
5000 |
|
- |
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.) |
- |
5000 |
|
- |
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.) |
- |
5000 |
|
- |
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.) |
- |
5000 |
|
- |
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.) |
- |
5000 |
|
- |
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.) |
- |
5000 |
|
- |
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.) |
- |
5000 |
|
- |
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.) |
- |
5000 |
|
- |
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.) |
- |
5000 |
|
- |
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.) |
- |
5000 |
|
- |
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.) |
- |
5000 |
|
- |
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 12(Sudden Load Applied) |
- |
1000 |
|
- |
Cl 11.3(Press) |
- |
1000 |
|
- |
Cl 10.3(UTM) |
- |
1000 |
|
- |
Cl 7(Workmanship) |
- |
500 |
|
- |
Cl 7(Workmanship) |
- |
500 |
|
- |
Cl 10.3(UTM) |
- |
1000 |
|
- |
Cl 11.3(Press) |
- |
1000 |
|
- |
Cl 12(Sudden Load Applied) |
- |
1000 |
|
- |
Cl 15(Length, Width & Thickness) |
- |
500 |
|
- |
Cl 18(Weight) |
- |
500 |
|
- |
Clause 8, Table 1, Note 2(Any Instrumental Method/Chemical Method) |
- |
5000 |
|
- |
Clause 8, Table 1, Note 5(Any Instrumental Method/Chemical Method) |
- |
5000 |
|
- |
Clause 8, Table 1, Note 5(Any Instrumental Method/Chemical Method) |
- |
5000 |
|
- |
Clause 8, Table 1, Note 5(By Calculation) |
- |
5000 |
|
- |
Clause 8, Table 1, Note 6(Any Instrumental Method/Chemical Method) |
- |
5000 |
|
- |
Clause 8, Table 1, Note 6(By Calculation) |
- |
5000 |
|
- |
Clause 7(IS 2062) |
- |
500 |
|
- |
Clause 11.3(IS 1599) |
- |
1000 |
|
- |
Clause 12(IS 1757) |
- |
1000 |
|
- |
Clause 15, Table 4(IS 2062) |
- |
500 |
|
- |
16(Tolerance) |
- |
500 |
|
- |
20(Marking) |
- |
500 |
|
- |
20(MARKING) |
- |
500 |
|
- |
8(Micro Alloying elements) |
- |
5000 |
|
- |
8(Niobium as Nb) |
- |
5000 |
|
- |
8(Titanium as Ti) |
- |
5000 |
|
- |
10(Tensile Strength-IS:1608(P1)-22) |
- |
1000 |
|
- |
10(Yield Stress-IS:1608(P1)-22) |
- |
1000 |
|
- |
10(Elongation on SoA 5.65mm GL) |
- |
1000 |
|
- |
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(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) |
- |
5000 |
|
- |
Clause 8, Table 1, Note 5(Niobium) |
- |
5000 |
|
- |
Clause 8, Table 1, Note 5(Titanium) |
- |
5000 |
|
- |
Clause 8, Table 1, Note 5(Nb+V+Ti) |
- |
5000 |
|
- |
Clause 8, Table 1, Note 6(Boron) |
- |
5000 |
|
- |
Clause 8, Table 1, Note 6(Cr+Ni) |
- |
5000 |
|
- |
Clause 7(Freedom from Defect) |
- |
500 |
|
- |
Clause 11.3(Bend Test) |
- |
1000 |
|
- |
Clause 12(Impact Test) |
- |
1000 |
|
- |
Clause 15, Table 4(Dimension) |
- |
500 |
|
- |
5(General Requirements) |
- |
500 |
|
- |
4(MARKING) |
- |
500 |
|
- |
8(Vanadium as V) |
- |
5000 |
|
- |
|
27 May, 2028 |
- Included w.e.f 31.07.2025
Exclusion: Cl 13 (Y Groove Cracking Test), Cl 14.1 (Soundness test), Cl 14.2 (Grain Size), Cl 14.2 (Inclusion) |
19 |
IS 2879 (1998) |
Mild steel for metal arc welding electrodes - Specification (Third Revision) |
EWR, EWNR |
12000 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
Cl 7(Workmanship) |
- |
500 |
|
- |
Cl 8 & 9(Diameter) |
- |
1000 |
|
- |
Cl 7(Workmanship) |
- |
500 |
|
- |
Cl 8 & 9(Diameter) |
- |
1000 |
|
- |
Cl 7(Workmanship) |
- |
500 |
|
- |
Cl 8 & 9(Diameter) |
- |
1000 |
|
- |
6(Carbon %) |
- |
5000 |
|
- |
6(Manganese %) |
- |
5000 |
|
- |
6(Phosphorus %) |
- |
5000 |
|
- |
6(Sulphur %) |
- |
5000 |
|
- |
6(Silicon %) |
- |
5000 |
|
- |
6( Copper %) |
- |
5000 |
|
- |
6( Aluminium %) |
- |
5000 |
|
- |
6( Nb) |
- |
5000 |
|
- |
6(V) |
- |
5000 |
|
- |
6( Ti) |
- |
5000 |
|
- |
6(Cr) |
- |
5000 |
|
- |
6(Mo) |
- |
5000 |
|
- |
6(Ni) |
- |
5000 |
|
- |
6(Cr+ Mo+ Ni) |
- |
5000 |
|
- |
6(Carbon %) |
- |
5000 |
|
- |
6(Manganese %) |
- |
5000 |
|
- |
6(Phosphorus %) |
- |
5000 |
|
- |
6(Sulphur %) |
- |
5000 |
|
- |
6(Silicon %) |
- |
5000 |
|
- |
6( Copper %) |
- |
5000 |
|
- |
6( Aluminium %) |
- |
5000 |
|
- |
6( Nb) |
- |
5000 |
|
- |
6(V) |
- |
5000 |
|
- |
6( Ti) |
- |
5000 |
|
- |
6(Cr) |
- |
5000 |
|
- |
6(Mo) |
- |
5000 |
|
- |
6(Ni) |
- |
5000 |
|
- |
6(Cr+ Mo+ Ni) |
- |
5000 |
|
- |
6(Carbon %) |
- |
5000 |
|
- |
6(Manganese %) |
- |
5000 |
|
- |
6(Phosphorus %) |
- |
5000 |
|
- |
6(Sulphur %) |
- |
5000 |
|
- |
6(Silicon %) |
- |
5000 |
|
- |
6( Copper %) |
- |
5000 |
|
- |
6( Aluminium %) |
- |
5000 |
|
- |
6( Nb) |
- |
5000 |
|
- |
6(V) |
- |
5000 |
|
- |
6( Ti) |
- |
5000 |
|
- |
6(Cr) |
- |
5000 |
|
- |
6(Mo) |
- |
5000 |
|
- |
6(Ni) |
- |
5000 |
|
- |
6(Cr+ Mo+ Ni) |
- |
5000 |
|
- |
Cl. 9.2(Maximum Difference between 2 readings taken at any 2 diameters across cross section) |
- |
1000 |
|
- |
Cl. 8,9(Width across flat) |
- |
1000 |
|
- |
Cl. 8,9(Length) |
- |
1000 |
|
- |
Cl 8 & 9(Diameter) |
- |
1000 |
|
- |
Cl 7(Workmanship) |
- |
500 |
|
- |
Cl 7(Workmanship) |
- |
500 |
|
- |
Cl 8 & 9(Diameter) |
- |
1000 |
|
- |
9.2 (a)(Width Across Flat) |
- |
1000 |
|
- |
9.2 (b)(Diameter Difference) |
- |
1000 |
|
- |
|
27 May, 2028 |
- Included w.e.f 31.07.2025
Exclusion: Cl 5.2 Macro Examination |
20 |
IS 2831 (2012) |
Carbon steel cast billet ingots, billets, blooms and slabs for re-rolling into structural steel (Ordinary Quality) - Specification (Fourth Revision) |
C8, C15, C22 |
8500 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
Cl. 6.1, Table 1(Carbon- IS 228 and relevant parts or any other established Instrumental/Chemical method.) |
- |
5000 |
|
- |
Cl. 6.1, Table 1(Manganese- IS 228 and relevant parts or any other established Instrumental/Chemical method.) |
- |
5000 |
|
- |
Cl. 6.1, Table 1(Sulphur- IS 228 and relevant parts or any other established Instrumental/Chemical method.) |
- |
5000 |
|
- |
Cl. 6.1, Table 1(Phosphorus- IS 228 and relevant parts or any other established Instrumental/Chemical method.) |
- |
5000 |
|
- |
Cl. 6.1, Table 1(Silicon- IS 228 and relevant parts or any other established Instrumental/Chemical method.) |
- |
5000 |
|
- |
Cl. 6.1, Table 1(Aluminium- IS 228 and relevant parts or any other established Instrumental/Chemical method.) |
- |
5000 |
|
- |
Cl. 6.1, Table 1(Nitrogen- IS 228 and relevant parts or any other established Instrumental/Chemical method.) |
- |
5000 |
|
- |
Cl. 6.1, Table 1(Copper- IS 228 and relevant parts or any other established Instrumental/Chemical method.) |
- |
5000 |
|
- |
Cl. 6.1, Table 1(Niobium- IS 228 and relevant parts or any other established Instrumental/Chemical method.) |
- |
5000 |
|
- |
Cl. 6.1, Table 1(Vanadium- IS 228 and relevant parts or any other established Instrumental/Chemical method.) |
- |
5000 |
|
- |
Cl. 6.1, Table 1(Titanium- IS 228 and relevant parts or any other established Instrumental/Chemical method.) |
- |
5000 |
|
- |
9( FREEDOM FROM DEFECTS) |
- |
500 |
|
- |
11 & 12(DIMENSIONS and Tolerances) |
- |
500 |
|
- |
11(Dimensions) |
- |
500 |
|
- |
10.2(Bend) |
- |
500 |
|
- |
10.3(Chamber) |
- |
500 |
|
- |
11(Dimensions) |
- |
500 |
|
- |
10.2(Bend) |
- |
500 |
|
- |
10.3(Chamber) |
- |
500 |
|
- |
Clause 6.1.1(IS 2831 : 2012) |
- |
500 |
|
- |
Cl. 11, 12 Table 3(Thickness ) |
- |
500 |
|
- |
Cl. 11, 12 Table 3(Width Across Flat) |
- |
500 |
|
- |
Clause 9.4(Camber) |
- |
500 |
|
- |
Clause 9.3(Bend) |
- |
500 |
|
- |
Clause 6.1.1(By calculation) |
- |
5000 |
|
- |
Table 1 Note 2(Any Instrumental Method/Chemical Method) |
- |
5000 |
|
- |
Clause 6.1.1(By calculation) |
- |
5000 |
|
- |
Table 1 Note 2(Any Instrumental Method/Chemical Method) |
- |
5000 |
|
- |
Table 1 Note 2(Any Instrumental Method/Chemical Method) |
- |
5000 |
|
- |
Clause 6.1.1(Carbon Equivalent (CE)) |
- |
5000 |
|
- |
Table 1 Note 2(Nb+V+Ti) |
- |
5000 |
|
- |
8(Selection of Test sample) |
- |
500 |
|
- |
13(Marking) |
- |
500 |
|
- |
Clause 6.1.1(Carbon Equivalent (CE)) |
- |
5000 |
|
- |
Table 1 Note 2(Nb+V+Ti) |
- |
5000 |
|
- |
|
27 May, 2028 |
- Included w.e.f.04.08.2025
Exclusion
"10.1.a) ( Macro examination IS 11371)
10.1.b) ( Sulphur print tests IS 12037)" |
21 |
IS 2830 (2012) |
Carbon steel cast billet ingots, billets, blooms and slabs for re-rolling into steel for general structural purposes - Specification (Third Revision) |
C15,C18,C20,C15MMn,C18MMn,C20MMn,C15HMn,C18HMn,C20HMn,C25HMn |
8500 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
Cl 9(Workmanship) |
- |
500 |
|
- |
Cl 10.1(Workmanship) |
- |
500 |
|
- |
Cl 10.2(Workmanship) |
- |
500 |
|
- |
Cl 10.2(Press) |
- |
500 |
|
- |
Cl 10.3(Workmanship) |
- |
500 |
|
- |
Cl 11(Length, Width & Thickness) |
- |
500 |
|
- |
Cl 9(Workmanship) |
- |
500 |
|
- |
Cl 10.1.a)(Workmanship) |
- |
500 |
|
- |
Cl 10.1.b)(Workmanship) |
- |
500 |
|
- |
Cl 10.2(Press) |
- |
500 |
|
- |
Cl 10.3(Workmanship) |
- |
500 |
|
- |
Cl 11(Length, Width & Thickness) |
- |
500 |
|
- |
Cl 9(Workmanship) |
- |
500 |
|
- |
Cl 10.1(Workmanship) |
- |
500 |
|
- |
Cl 10.2(Workmanship) |
- |
500 |
|
- |
Cl 10.2(Press) |
- |
500 |
|
- |
Cl 10.3(Workmanship) |
- |
500 |
|
- |
Cl 11(Length) |
- |
500 |
|
- |
6.1(Carbon %) |
- |
500 |
|
- |
6.1(Manganese %) |
- |
5000 |
|
- |
6.1(Phosphorus %) |
- |
5000 |
|
- |
6.1(Sulphur %) |
- |
5000 |
|
- |
6.1(Silicon %) |
- |
5000 |
|
- |
6.1( Copper %) |
- |
5000 |
|
- |
6.1( Aluminium %) |
- |
5000 |
|
- |
6.1( Nb) |
- |
5000 |
|
- |
6.1(V) |
- |
5000 |
|
- |
6.1( Ti) |
- |
5000 |
|
- |
6.1(Cr) |
- |
5000 |
|
- |
6.1(Mo) |
- |
5000 |
|
- |
6.1(Ni) |
- |
5000 |
|
- |
6.1( Nitrogen%) |
- |
5000 |
|
- |
6.1(Carbon %) |
- |
5000 |
|
- |
6.1(Manganese %) |
- |
5000 |
|
- |
6.1(Phosphorus %) |
- |
5000 |
|
- |
6.1(Sulphur %) |
- |
5000 |
|
- |
6.1(Silicon %) |
- |
5000 |
|
- |
6.1( Copper %) |
- |
5000 |
|
- |
6.1( Aluminium %) |
- |
5000 |
|
- |
6.1( Nb) |
- |
5000 |
|
- |
6.1(V) |
- |
5000 |
|
- |
6.1( Ti) |
- |
5000 |
|
- |
6.1(Cr) |
- |
5000 |
|
- |
6.1(Mo) |
- |
5000 |
|
- |
6.1(Ni) |
- |
5000 |
|
- |
6.1( Nitrogen%) |
- |
5000 |
|
- |
6.1(Carbon %) |
- |
5000 |
|
- |
6.1(Manganese %) |
- |
5000 |
|
- |
6.1(Phosphorus %) |
- |
5000 |
|
- |
6.1(Sulphur %) |
- |
5000 |
|
- |
6.1(Silicon %) |
- |
5000 |
|
- |
6.1( Copper %) |
- |
5000 |
|
- |
6.1( Aluminium %) |
- |
5000 |
|
- |
6.1( Nb) |
- |
5000 |
|
- |
6.1(V) |
- |
5000 |
|
- |
6.1( Ti) |
- |
5000 |
|
- |
6.1(Cr) |
- |
5000 |
|
- |
6.1(Mo) |
- |
5000 |
|
- |
6.1(Ni) |
- |
5000 |
|
- |
6.1(Nitrogen%) |
- |
5000 |
|
- |
11(Thickness) |
- |
500 |
|
- |
11(Width) |
- |
500 |
|
- |
Clause 6.1(IS 2830 : 2012) |
- |
500 |
|
- |
Cl. 11.2(Out of Squareness) |
- |
500 |
|
- |
Cl. 10.3(Camber) |
- |
500 |
|
- |
Cl. 10.2(Bend) |
- |
500 |
|
- |
Clause 10.3(Camber) |
- |
500 |
|
- |
Clause 10.2(Bend) |
- |
500 |
|
- |
Cl 11(Length, Width & Thickness) |
- |
500 |
|
- |
Cl 10.3(Workmanship) |
- |
500 |
|
- |
Cl 10.2(Press) |
- |
500 |
|
- |
Cl 10.2(Workmanship) |
- |
500 |
|
- |
Cl 10.1(Workmanship) |
- |
500 |
|
- |
Cl 9(Workmanship) |
- |
500 |
|
- |
Cl 9(Workmanship) |
- |
500 |
|
- |
Cl 10.1(Workmanship) |
- |
500 |
|
- |
Cl 10.2(Workmanship) |
- |
500 |
|
- |
Cl 10.2(Press) |
- |
500 |
|
- |
Cl 10.3(Workmanship) |
- |
500 |
|
- |
Cl 11(Length, Width & Thickness) |
- |
500 |
|
- |
Clause 6, Table 1 Note : 1(By Calculation) |
- |
5000 |
|
- |
Clause 6, Table 1 Note : 3(By Calculation) |
- |
5000 |
|
- |
6(Carbon as C - IS:228) |
- |
5000 |
|
- |
6(Manganese as Mn-IS:228) |
- |
5000 |
|
- |
6(Sulphur as S- IS:228) |
- |
5000 |
|
- |
6(carbon equivalent (CE)) |
- |
5000 |
|
- |
6(Micro alloying elements) |
- |
5000 |
|
- |
6(Sulphur + Phosphorus) |
- |
5000 |
|
- |
6(Copper as Cu) |
- |
5000 |
|
- |
8(Selection of Test samples) |
- |
500 |
|
- |
12(Tolerance - IS 2830) |
- |
500 |
|
- |
13(Marking) |
- |
500 |
|
- |
Clause 6, Table 1 Note : 1(Carbon Equivalent) |
- |
5000 |
|
- |
Clause 6, Table 1 Note : 3(Nb+V+Ti) |
- |
5000 |
|
- |
Clause 6, Table 1 Note : 9(S+P) |
- |
5000 |
|
- |
Clause 9(Freedom from Defect) |
- |
500 |
|
- |
4(Supply of material) |
- |
500 |
|
- |
5(Manufacture) |
- |
500 |
|
- |
6.1(Chemical method) |
- |
5000 |
|
- |
6.2(Copper bearing quality) |
- |
5000 |
|
- |
6.3(Check Analysis) |
- |
5000 |
|
- |
10.2(Bend) |
- |
500 |
|
- |
10.3(Chamber) |
- |
500 |
|
- |
11(Dimensions) |
- |
500 |
|
- |
12(Tolrences) |
- |
500 |
|
- |
13(Marking) |
- |
500 |
|
- |
Cl 6.1(Carbon) |
- |
5000 |
|
- |
Cl 6.1(Sulphur) |
- |
5000 |
|
- |
Cl 6.1(Phosphorous) |
- |
5000 |
|
- |
Cl 6.1(Manganese) |
- |
5000 |
|
- |
Cl 6.1(Silicon) |
- |
5000 |
|
- |
Cl 6.1(Nitrogen) |
- |
5000 |
|
- |
Cl 6.1(Carbon Equivalent) |
- |
5000 |
|
- |
Cl 6.1(Aluminium) |
- |
5000 |
|
- |
Cl 6.1(Nb) |
- |
5000 |
|
- |
Cl 6.1(V) |
- |
5000 |
|
- |
Cl 6.1(Ti) |
- |
5000 |
|
- |
Cl 6.1(Nb+V+Ti) |
- |
5000 |
|
- |
Cl 6.1(Sulphur+ Phosphorous) |
- |
5000 |
|
- |
Cl 6.1(Copper) |
- |
5000 |
|
- |
|
27 May, 2028 |
- Included w.e.f 22.07.2025 |
22 |
IS 15997 (2012) |
Low nickel austenitic stainless steel sheet and strip for utensils and kitchen appliances - Specification |
N1/N2/N3/N5/N6/N7 |
12000 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
Cl. 8.1, 8.1.1 & 10.1 Table 1(Carbon -IS 228 and relevant parts or any other established Instrumental/Chemical method.) |
- |
500 |
|
- |
Cl. 8.1, 8.1.1 & 10.1 Table 1(Silicon -IS 228 and relevant parts or any other established Instrumental/Chemical method.) |
- |
500 |
|
- |
Cl. 8.1, 8.1.1 & 10.1 Table 1(Manganese -IS 228 and relevant parts or any other established Instrumental/Chemical method.) |
- |
500 |
|
- |
Cl. 8.1, 8.1.1 & 10.1 Table 1(Nickel -IS 228 and relevant parts or any other established Instrumental/Chemical method.) |
- |
500 |
|
- |
Cl. 8.1, 8.1.1 & 10.1 Table 1(Chromium -IS 228 and relevant parts or any other established Instrumental/Chemical method.) |
- |
500 |
|
- |
Cl. 8.1, 8.1.1 & 10.1 Table 1(Sulphur -IS 228 and relevant parts or any other established Instrumental/Chemical method.) |
- |
500 |
|
- |
Cl. 8.1, 8.1.1 & 10.1 Table 1(Phosphorus -IS 228 and relevant parts or any other established Instrumental/Chemical method.) |
- |
500 |
|
- |
Cl. 8.1, 8.1.1 & 10.1 Table 1(Copper -IS 228 and relevant parts or any other established Instrumental/Chemical method.) |
- |
500 |
|
- |
Cl. 8.1, 8.1.1 & 10.1 Table 1(Nitrogen -IS 228 and relevant parts or any other established Instrumental/Chemical method.) |
- |
500 |
|
- |
6(Freedom From Defects) |
- |
500 |
|
- |
9.3(Tensile Test-1608:Part 1) |
- |
1000 |
|
- |
9.3, Table 3 (Yield Strength, Mpa) |
- |
1000 |
|
- |
9.3, Table 3 (Tensile Strength, Mpa) |
- |
1000 |
|
- |
9.3, Table 3 (Elongation, %) |
- |
1000 |
|
- |
9.4(Erichsen Cupping Test,(Average depth of cupping) mm) |
- |
1000 |
|
- |
11(Surface finish) |
- |
500 |
|
- |
12(Dimensions) |
- |
500 |
|
- |
14.1(Thickness,mm) |
- |
500 |
|
- |
14.2( Width, mm) |
- |
500 |
|
- |
14.3(Length, mm) |
- |
500 |
|
- |
14.4(Flatness, mm) |
- |
500 |
|
- |
14.5(Camber, mm) |
- |
500 |
|
- |
Clause 9.1, 9.2 & Table 3(IS 1608 Part 1) |
- |
1000 |
|
- |
17(Marking) |
- |
500 |
|
- |
Clause 9.1, 9.2 & Table 3(0.2 Percent Yield Strength) |
- |
1000 |
|
- |
4.1(General requirements) |
- |
500 |
|
- |
6(Freedom from defects) |
- |
500 |
|
- |
7(Heat treatment) |
- |
0 |
|
- |
8.1, table 1(C
Si
Mn
Ni
Cr
S
P
Cu
Ni) |
- |
4500 |
|
- |
8.1.1, table 2(Carbon
Silicon
Manganese
Nickel
Chromium
Sulphur
Phosphorus
Copper
Nitrogen) |
- |
4500 |
|
- |
9.1(Sample plan) |
- |
500 |
|
- |
9.2(Tensile test) |
- |
1000 |
|
- |
9.3(Mechanical properties) |
- |
1000 |
|
- |
9.4(Erichsen cupping test) |
- |
1000 |
|
- |
10(Retests) |
- |
1000 |
|
- |
11(Surface finish) |
- |
500 |
|
- |
12(Dimensions) |
- |
500 |
|
- |
13(Edge condition) |
- |
500 |
|
- |
14.1(Thickness) |
- |
500 |
|
- |
14.2.1(Mill Edge) |
- |
500 |
|
- |
14.2.2(Trimmed Edge) |
- |
500 |
|
- |
14.3(Length) |
- |
500 |
|
- |
14.4(Flatness) |
- |
500 |
|
- |
14.5(Camber) |
- |
500 |
|
- |
15(Inspection) |
- |
500 |
|
- |
17(Marking) |
- |
500 |
|
- |
|
27 May, 2028 |
- Included w.e.f 31.07.2025 |
23 |
IS 13983 (1994) |
Stainless Steel Sinks For Domestic Purposes |
A1,A2,B1,B2,C,D,E1,E2,E3,F |
12000 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
9(Marking) |
- |
500 |
|
- |
4(Type) |
- |
500 |
|
- |
Cl. 5 , As per IS 5522-2014, Cl. 7.2 , Table 1 & 2 Grade Desig X-04-Cr-19-Ni-19 (Numeric Symbol 304)(Carbon Content) |
- |
500 |
|
- |
Cl. 5 , As per IS 5522-2014, Cl. 7.2 , Table 1 & 2 Grade Desig X-04-Cr-19-Ni-19 (Numeric Symbol 304)(Silicon Content) |
- |
500 |
|
- |
Cl. 5 , As per IS 5522-2014, Cl. 7.2 , Table 1 & 2 Grade Desig X-04-Cr-19-Ni-19 (Numeric Symbol 304)(Manganese Content) |
- |
500 |
|
- |
Cl. 5 , As per IS 5522-2014, Cl. 7.2 , Table 1 & 2 Grade Desig X-04-Cr-19-Ni-19 (Numeric Symbol 304)(Nickel Content) |
- |
500 |
|
- |
Cl. 5 , As per IS 5522-2014, Cl. 7.2 , Table 1 & 2 Grade Desig X-04-Cr-19-Ni-19 (Numeric Symbol 304)(Chromium Content) |
- |
500 |
|
- |
Cl. 5 , As per IS 5522-2014, Cl. 7.2 , Table 1 & 2 Grade Desig X-04-Cr-19-Ni-19 (Numeric Symbol 304)(Sulphur Content) |
- |
500 |
|
- |
Cl. 5 , As per IS 5522-2014, Cl. 7.2 , Table 1 & 2 Grade Desig X-04-Cr-19-Ni-19 (Numeric Symbol 304)(Phouphorous Content) |
- |
500 |
|
- |
Cl. 5 , As per IS 5522-2014, Cl. 7.2 , Table 1 & 2 Grade Desig X-04-Cr-19-Ni-19 (Numeric Symbol 304)(Nitrogen Content) |
- |
500 |
|
- |
Cl. 5 , As per IS 5522-2014, Cl. 7.2 , Table 1 & 2 Grade Desig X-07-Cr-18-Ni-9 (Numeric Symbol 302)(Carbon Content) |
- |
500 |
|
- |
Cl. 5 , As per IS 5522-2014, Cl. 7.2 , Table 1 & 2 Grade Desig X-07-Cr-18-Ni-9 (Numeric Symbol 302)(Silicon Content) |
- |
500 |
|
- |
Cl. 5 , As per IS 5522-2014, Cl. 7.2 , Table 1 & 2 Grade Desig X-07-Cr-18-Ni-9 (Numeric Symbol 302)(Manganese Content) |
- |
500 |
|
- |
Cl. 5 , As per IS 5522-2014, Cl. 7.2 , Table 1 & 2 Grade Desig X-07-Cr-18-Ni-9 (Numeric Symbol 302)(Nickel Content) |
- |
500 |
|
- |
Cl. 5 , As per IS 5522-2014, Cl. 7.2 , Table 1 & 2 Grade Desig X-07-Cr-18-Ni-9 (Numeric Symbol 302)(Chromium Content) |
- |
500 |
|
- |
Cl. 5 , As per IS 5522-2014, Cl. 7.2 , Table 1 & 2 Grade Desig X-07-Cr-18-Ni-9 (Numeric Symbol 302)(Sulphur Content) |
- |
500 |
|
- |
Cl. 5 , As per IS 5522-2014, Cl. 7.2 , Table 1 & 2 Grade Desig X-07-Cr-18-Ni-9 (Numeric Symbol 302)(Phouphorous Content) |
- |
500 |
|
- |
Cl. 5 , As per IS 5522-2014, Cl. 7.2 , Table 1 & 2 Grade Desig X-07-Cr-18-Ni-9 (Numeric Symbol 302)(Nitrogen Content) |
- |
500 |
|
- |
6(Thickness of sheet/strip) |
- |
500 |
|
- |
6(Depth of bowl) |
- |
500 |
|
- |
6(Internal dimensions of the bowl) |
- |
500 |
|
- |
6(Bowl locating limits) |
- |
500 |
|
- |
6(Co-ordinating sizes) |
- |
500 |
|
- |
7.1(Consruction and workmanship) |
- |
500 |
|
- |
7.1.1(Consruction and workmanship) |
- |
500 |
|
- |
7.2(Consruction and workmanship) |
- |
500 |
|
- |
7.2.1(Consruction and workmanship) |
- |
500 |
|
- |
7.3(Drainers) |
- |
500 |
|
- |
7.4(Waste outlet) |
- |
500 |
|
- |
7.5(Tap holes) |
- |
500 |
|
- |
7.6(Overflows) |
- |
500 |
|
- |
8(Finish) |
- |
500 |
|
- |
5(MATERIALS) |
- |
5000 |
|
- |
6.1.1(Thickness of Sheet/Strip) |
- |
500 |
|
- |
6.1.2(Thickness of Sheet/Strip) |
- |
500 |
|
- |
6.2(Depth of Bowls) |
- |
500 |
|
- |
6.3(Internal Dimensions of Bowls) |
- |
500 |
|
- |
6.4.1(Bowl Locating Limits) |
- |
500 |
|
- |
6.5(Coordinating Sizes) |
- |
500 |
|
- |
7.1(CONSTRUCTION AND WORKMANSHIP) |
- |
500 |
|
- |
7.1.1(CONSTRUCTION AND WORKMANSHIP) |
- |
500 |
|
- |
7.2.1(CONSTRUCTION AND WORKMANSHIP) |
- |
500 |
|
- |
7.3(CONSTRUCTION AND WORKMANSHIP) |
- |
500 |
|
- |
7.4(Waste Outlet) |
- |
500 |
|
- |
7.5(Tap Holes) |
- |
500 |
|
- |
7.6(OVERFLOW) |
- |
500 |
|
- |
Clause no. 4(types) |
- |
500 |
|
- |
Caluse no. 5("Material -Austenitic stainless steel of
Grade Designation") |
- |
5000 |
|
- |
Clause no. 6.1(Thickness of sheet) |
- |
500 |
|
- |
Clause no. 6.2(Depth of Bowls) |
- |
500 |
|
- |
Clause no. 6.3(Internal dimensions of bowls) |
- |
500 |
|
- |
Clause no. 6.4(Bowl Locating Limits) |
- |
500 |
|
- |
Clause no. 6.5, Table No. 1(Dimension of the sink) |
- |
500 |
|
- |
Clause no. 7(Construction and workmanship) |
- |
500 |
|
- |
Clause no. 8(Finish) |
- |
500 |
|
- |
Clause no. 9(Mark) |
- |
500 |
|
- |
|
27 May, 2028 |
- Included w.e.f.09.07.2025 |
24 |
IS 1659 (2004) |
Block boards - Specification (Fourth Revision) |
MR/BWP |
8500 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
9.2.6(Spot test - Annexure L) |
- |
1000 |
|
- |
9.2.5(Modulus of elasticity - MINIMUM INDIVIDUAL - Annexure K) |
- |
500 |
|
- |
9.2.5(Modulus of elasticity - AVERAGE - Annexure K) |
- |
500 |
|
- |
9.2.5(Modulus of rupture - MINIMUM INDIVIDUAL - Annexure K) |
- |
500 |
|
- |
9.2.5(Modulus of rupture - AVERAGE - Annexure K) |
- |
500 |
|
- |
9.2.4(Mycological Test [for MR grade only] - Annexure J) |
- |
1000 |
|
- |
9.2.3(Adhesion of Plies - Annexure H) |
- |
500 |
|
- |
9.2.2 (Resistance to water - Annexure G, Annexure H [For MR Grade]) |
- |
1000 |
|
- |
9.2.2 (Resistance to water - Annexure G, Annexure H [For BWP grade]) |
- |
1000 |
|
- |
9.2.1(Dimensional Changes caused by humidity Change in local planeness - Annexure F) |
- |
1000 |
|
- |
9.2.1(Dimensional Changes caused by humidity - Delamination - Annexure F) |
- |
1000 |
|
- |
9.2.1(Dimensional Changes caused by humidity - Change in thickness - at 40% RH - Annexure F) |
- |
1000 |
|
- |
9.2.1(Dimensional Changes caused by humidity - Change in Thickness - at 90% RH - Annexure F) |
- |
1000 |
|
- |
9.2.1(Dimensional Changes caused by humidity - Change in Length - at 40% RH - Annexure F) |
- |
1000 |
|
- |
9.2.1(Dimensional Changes caused by humidity - Change in Length - at 90% RH - Annexure F) |
- |
1000 |
|
- |
7.3(Dimensional Requirements - Variation in thickness - Annexure E) |
- |
100 |
|
- |
7.3(Dimensional Requirements - Squareness - Annexure D) |
- |
100 |
|
- |
7.3(Dimensional Requirements - Edge Straightness - Annexure D) |
- |
100 |
|
- |
7.3(Dimensional Requirements - Thickness - Annexure E) |
- |
100 |
|
- |
7.3(Dimensional Requirements - Width - 8.1.4) |
- |
100 |
|
- |
7.3(Dimensional Requirements - Length - 8.1.4) |
- |
100 |
|
- |
8.1.3, 6.3.3, IS 1328(Visual Inspection - Permissible Defects - IS 1328 [test method for DECORATIVE type]) |
- |
0 |
|
- |
8.1.3, 6.3.3, IS 303(Visual Inspection - Permissible Defects - IS 303 [test method for COMMERCIAL type]) |
- |
0 |
|
- |
9.2.6 (mechanical)(Spot test - Annexure L) |
- |
1000 |
|
- |
cl. 11(marking) |
- |
0 |
|
- |
cl. 11.1(marking - BIS certification marking) |
- |
0 |
|
- |
Cl-10(ADDITIONAL REQUIREMENTS FOR
ECO-MARK) |
- |
0 |
|
- |
6.2(Core- Moisture & Width) |
- |
500 |
|
- |
6.3(Cross Bands and Faces- Moisture content) |
- |
500 |
|
- |
6.3.1(Thickness of cross band and face veneers) |
- |
500 |
|
- |
Cl-7.1(Thickness) |
- |
0 |
|
- |
Cl-7.2(Sizes) |
- |
0 |
|
- |
9.2.6(Spot test - Annexure L) |
- |
- |
|
- |
9.2.6 (mechanical)(Spot test - Annexure L) |
- |
- |
|
- |
cl. 11(marking) |
- |
- |
|
- |
cl. 11.1(marking - BIS certification marking) |
- |
- |
|
- |
Cl-10(ADDITIONAL REQUIREMENTS FOR
ECO-MARK) |
- |
- |
|
- |
6.2(Core- Moisture & Width) |
- |
- |
|
- |
6.3(Cross Bands and Faces- Moisture content) |
- |
- |
|
- |
6.3.1(Thickness of cross band and face veneers) |
- |
- |
|
- |
Cl-7.1(Thickness) |
- |
- |
|
- |
Cl-7.2(Sizes) |
- |
- |
|
- |
|
27 May, 2028 |
- Included w.e.f.07.07.2025 |
25 |
IS 1285 (2023) |
WROUGHT ALUMINIUM AND ALUMINIUM ALLOYS EXTRUDED ROUND TUBE AND HOLLOW SECTIONS FOR GENERAL ENGINEERINGPURPOSES SPECIFICATION |
All Designation |
10000 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
6.1("The extruded round tube and hollow sections
shall be sound and visually free from harmful
defects. ") |
- |
500 |
|
- |
6.2(Slight discoloration due to heat treatment, minor polishing marks and spiral marks due to roll straightening shall not be a cause for rejection.) |
- |
500 |
|
- |
8("Dimensions and tolerances of the material shall be as laid down in the Indian Standards indicated
below:
a) Extruded round tube IS 2673; and
b) Extruded hollow sections IS 6477.") |
- |
2000 |
|
- |
9(" Extruded round tubes and hollow sections shall be made from alloys specified in IS 733.
9.2 The chemical analysis of the material shall be carried out either in accordance with the methods specified in IS 504 (Part 1 to 12) and IS 504 (Part 13 to 16) or by any other established instrumental/chemical method. In case of any dispute the method specified in relevant parts of IS 504 shall be used as referee method. However, when the method is not given in IS 504, the referee method shall be as agreed to between the purchaser
and the manufacturer. ") |
- |
5000 |
|
- |
10(Tensile test) |
- |
2000 |
|
- |
Cl.9.1(Aluminium- IS 504 and its parts or any other intrumental/chemical methods) |
- |
500 |
|
- |
Cl.9.1(Copper- IS 504 and its parts or any other intrumental/chemical methods) |
- |
500 |
|
- |
Cl.9.1(Magnesium- IS 504 and its parts or any other intrumental/chemical methods) |
- |
500 |
|
- |
Cl.9.1(Silicon- IS 504 and its parts or any other intrumental/chemical methods) |
- |
500 |
|
- |
Cl.9.1(Iron- IS 504 and its parts or any other intrumental/chemical methods) |
- |
500 |
|
- |
Cl.9.1(Manganese- IS 504 and its parts or any other intrumental/chemical methods) |
- |
500 |
|
- |
Cl.9.1(Zinc- IS 504 and its parts or any other intrumental/chemical methods) |
- |
500 |
|
- |
Cl.9.1(Titanium and/ or other grain refining elements- IS 504 and its parts or any other intrumental/chemical methods) |
- |
500 |
|
- |
Cl.9.1(Chromium- IS 504 and its parts or any other intrumental/chemical methods) |
- |
500 |
|
- |
Cl.9.1(Remarks (Ti+V) - IS 504 and its parts or any other intrumental/chemical methods) |
- |
500 |
|
- |
Cl.9.1(Remarks (Cr+Mn) - IS 504 and its parts or any other intrumental/chemical methods) |
- |
500 |
|
- |
Cl.9.1(Remarks (Total Impurities)- IS 504 and its parts or any other intrumental/chemical methods) |
- |
500 |
|
- |
6.1("The extruded round tube and hollow sections
shall be sound and visually free from harmful
defects. ") |
- |
0 |
|
- |
6.2(Slight discoloration due to heat treatment, minor polishing marks and spiral marks due to roll straightening shall not be a cause for rejection.) |
- |
0 |
|
- |
8("Dimensions and tolerances of the material shall be as laid down in the Indian Standards indicated
below:
a) Extruded round tube IS 2673; and
b) Extruded hollow sections IS 6477.") |
- |
0 |
|
- |
9(" Extruded round tubes and hollow sections shall be made from alloys specified in IS 733.
9.2 The chemical analysis of the material shall be carried out either in accordance with the methods specified in IS 504 (Part 1 to 12) and IS 504 (Part 13 to 16) or by any other established instrumental/chemical method. In case of any dispute the method specified in relevant parts of IS 504 shall be used as referee method. However, when the method is not given in IS 504, the referee method shall be as agreed to between the purchaser
and the manufacturer. ") |
- |
0 |
|
- |
10(Tensile test) |
- |
0 |
|
- |
Cl.9.1(Aluminium- IS 504 and its parts or any other intrumental/chemical methods) |
- |
0 |
|
- |
Cl.9.1(Copper- IS 504 and its parts or any other intrumental/chemical methods) |
- |
0 |
|
- |
Cl.9.1(Magnesium- IS 504 and its parts or any other intrumental/chemical methods) |
- |
0 |
|
- |
Cl.9.1(Silicon- IS 504 and its parts or any other intrumental/chemical methods) |
- |
0 |
|
- |
Cl.9.1(Iron- IS 504 and its parts or any other intrumental/chemical methods) |
- |
0 |
|
- |
Cl.9.1(Manganese- IS 504 and its parts or any other intrumental/chemical methods) |
- |
0 |
|
- |
Cl.9.1(Zinc- IS 504 and its parts or any other intrumental/chemical methods) |
- |
0 |
|
- |
Cl.9.1(Titanium and/ or other grain refining elements- IS 504 and its parts or any other intrumental/chemical methods) |
- |
0 |
|
- |
Cl.9.1(Chromium- IS 504 and its parts or any other intrumental/chemical methods) |
- |
0 |
|
- |
Cl.9.1(Remarks (Ti+V) - IS 504 and its parts or any other intrumental/chemical methods) |
- |
0 |
|
- |
Cl.9.1(Remarks (Cr+Mn) - IS 504 and its parts or any other intrumental/chemical methods) |
- |
0 |
|
- |
Cl.9.1(Remarks (Total Impurities)- IS 504 and its parts or any other intrumental/chemical methods) |
- |
0 |
|
- |
|
27 May, 2028 |
- Included w.e.f.07.07.2025 |
26 |
IS 736 (1986) |
Specification for wrought aluminium and aluminium alloy plate for general engineering purposes (Third Revision) |
All Designations |
15000 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
4(Freedom from defect) |
- |
500 |
|
- |
5(chemical composition) |
- |
5000 |
|
- |
6.1 table 2(0.2% proof strength) |
- |
2000 |
|
- |
6.1 table 2(tensile strength) |
- |
2000 |
|
- |
6.1 table 2(Elongation) |
- |
2000 |
|
- |
8(Dimensions & Tolerances) |
- |
4500 |
|
- |
5.1, Table 1(Aluminium) |
- |
500 |
|
- |
5.1, Table 1(Copper) |
- |
500 |
|
- |
5.1, Table 1(Magnesium) |
- |
500 |
|
- |
5.1, Table 1(Silicon) |
- |
500 |
|
- |
5.1, Table 1(Iron) |
- |
500 |
|
- |
5.1, Table 1(Mangnese) |
- |
500 |
|
- |
5.1, Table 1(Zinc) |
- |
500 |
|
- |
5.1, Table 1(Titanium and /or other grain refining element) |
- |
500 |
|
- |
5.1, Table 1(Chromium) |
- |
500 |
|
- |
5.1, Table 1(Vanadium) |
- |
500 |
|
- |
4(Freedom from defect) |
- |
0 |
|
- |
5(chemical composition) |
- |
0 |
|
- |
6.1 table 2(0.2% proof strength) |
- |
0 |
|
- |
6.1 table 2(tensile strength) |
- |
0 |
|
- |
6.1 table 2(Elongation) |
- |
0 |
|
- |
8(Dimensions & Tolerances) |
- |
0 |
|
- |
5.1, Table 1(Aluminium) |
- |
0 |
|
- |
5.1, Table 1(Copper) |
- |
0 |
|
- |
5.1, Table 1(Magnesium) |
- |
0 |
|
- |
5.1, Table 1(Silicon) |
- |
0 |
|
- |
5.1, Table 1(Iron) |
- |
0 |
|
- |
5.1, Table 1(Mangnese) |
- |
0 |
|
- |
5.1, Table 1(Zinc) |
- |
0 |
|
- |
5.1, Table 1(Titanium and /or other grain refining element) |
- |
0 |
|
- |
5.1, Table 1(Chromium) |
- |
0 |
|
- |
5.1, Table 1(Vanadium) |
- |
0 |
|
- |
|
27 May, 2028 |
- Included w.e.f.07.07.2025 |
27 |
IS 733 (1983) |
Specification for wrought aluminium and aluminium alloy bars, rods and sections (For General Engineering Purposes) (Third Revision) |
All Designation |
5200 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
Cl. 4(Freedom from Defects) |
- |
200 |
|
- |
Cl. 5.1, Table 2(0.2 Percent proof stress- IS 1816) |
- |
1000 |
|
- |
Cl. 5.1, Table 2(Tensile Strength- IS 1816) |
- |
1000 |
|
- |
Cl. 5.1, Table 2(Elongation on 50 mm or 5.65√So Gauge Length) |
- |
1000 |
|
- |
Cl. 0.4, 5.1, Table 1(Aluminium- IS 504 or by any other suitable instrumental method) |
- |
3000 |
|
- |
Cl. 0.4, 5.1, Table 1(Copper- IS 504 or by any other suitable instrumental method) |
- |
3000 |
|
- |
Cl. 0.4, 5.1, Table 1(Magnesium- IS 504 or by any other suitable instrumental method) |
- |
3000 |
|
- |
Cl. 0.4, 5.1, Table 1(Silicon- IS 504 or by any other suitable instrumental method) |
- |
3000 |
|
- |
Cl. 0.4, 5.1, Table 1(Iron- IS 504 or by any other suitable instrumental method) |
- |
3000 |
|
- |
Cl. 0.4, 5.1, Table 1(Zinc- IS 504 or by any other suitable instrumental method) |
- |
3000 |
|
- |
Cl. 0.4, 5.1, Table 1(Aluminium- IS 504 or by any other suitable instrumental method) |
- |
3000 |
|
- |
Cl. 0.4, 5.1, Table 1(Titanium and / or other grain refining elements - IS 504 or by any other suitable instrumental method) |
- |
3000 |
|
- |
Cl. 0.4, 5.1, Table 1(Chromium- IS 504 or by any other suitable instrumental method) |
- |
3000 |
|
- |
Cl. 0.4, 5.1, Table 1(Ti+ V- IS 504 or by any other suitable instrumental method) |
- |
3000 |
|
- |
Cl. 0.4, 5.1, Table 1(Total Impurities- IS 504 or by any other suitable instrumental method) |
- |
3000 |
|
- |
Cl. 0.4, 5.1, Table 1(Cr+ Mn- IS 504 or by any other suitable instrumental method) |
- |
3000 |
|
- |
7(Dimension - IS 3965) |
- |
1000 |
|
- |
11(Marking) |
- |
0 |
|
- |
Table-1, Clause - 5.1(Copper) |
- |
3000 |
|
- |
Table-1, Clause - 5.1(Iron) |
- |
3000 |
|
- |
Table-1, Clause - 5.1(Magnesium) |
- |
3000 |
|
- |
Table-1, Clause - 5.1(Manganese) |
- |
3000 |
|
- |
Table-1, Clause - 5.1(Titanium) |
- |
3000 |
|
- |
Table-1, Clause - 5.1(Silicon) |
- |
3000 |
|
- |
Table-1, Clause - 5.1(Chromium) |
- |
3000 |
|
- |
Table-1, Clause - 5.1(Zinc) |
- |
3000 |
|
- |
Cl. 4(Freedom from Defects) |
- |
0 |
|
- |
Cl. 5.1, Table 2(0.2 Percent proof stress- IS 1816) |
- |
0 |
|
- |
Cl. 5.1, Table 2(Tensile Strength- IS 1816) |
- |
0 |
|
- |
Cl. 5.1, Table 2(Elongation on 50 mm or 5.65√So Gauge Length) |
- |
0 |
|
- |
Cl. 0.4, 5.1, Table 1(Aluminium- IS 504 or by any other suitable instrumental method) |
- |
0 |
|
- |
Cl. 0.4, 5.1, Table 1(Copper- IS 504 or by any other suitable instrumental method) |
- |
0 |
|
- |
Cl. 0.4, 5.1, Table 1(Magnesium- IS 504 or by any other suitable instrumental method) |
- |
0 |
|
- |
Cl. 0.4, 5.1, Table 1(Silicon- IS 504 or by any other suitable instrumental method) |
- |
0 |
|
- |
Cl. 0.4, 5.1, Table 1(Iron- IS 504 or by any other suitable instrumental method) |
- |
0 |
|
- |
Cl. 0.4, 5.1, Table 1(Zinc- IS 504 or by any other suitable instrumental method) |
- |
0 |
|
- |
Cl. 0.4, 5.1, Table 1(Aluminium- IS 504 or by any other suitable instrumental method) |
- |
0 |
|
- |
Cl. 0.4, 5.1, Table 1(Titanium and / or other grain refining elements - IS 504 or by any other suitable instrumental method) |
- |
0 |
|
- |
Cl. 0.4, 5.1, Table 1(Chromium- IS 504 or by any other suitable instrumental method) |
- |
0 |
|
- |
Cl. 0.4, 5.1, Table 1(Ti+ V- IS 504 or by any other suitable instrumental method) |
- |
0 |
|
- |
Cl. 0.4, 5.1, Table 1(Total Impurities- IS 504 or by any other suitable instrumental method) |
- |
0 |
|
- |
Cl. 0.4, 5.1, Table 1(Cr+ Mn- IS 504 or by any other suitable instrumental method) |
- |
0 |
|
- |
7(Dimension - IS 3965) |
- |
0 |
|
- |
11(Marking) |
- |
0 |
|
- |
Table-1, Clause - 5.1(Copper) |
- |
0 |
|
- |
Table-1, Clause - 5.1(Iron) |
- |
0 |
|
- |
Table-1, Clause - 5.1(Magnesium) |
- |
0 |
|
- |
Table-1, Clause - 5.1(Manganese) |
- |
0 |
|
- |
Table-1, Clause - 5.1(Titanium) |
- |
0 |
|
- |
Table-1, Clause - 5.1(Silicon) |
- |
0 |
|
- |
Table-1, Clause - 5.1(Chromium) |
- |
0 |
|
- |
Table-1, Clause - 5.1(Zinc) |
- |
0 |
|
- |
|
27 May, 2028 |
- Included w.e.f.07.07.2025 |
28 |
IS 7887 (1992) |
Mild steel wire rod for general engineering purposes - Specification (First Revision) |
- |
4200 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
Cl 8(Workmanship) |
- |
200 |
|
- |
Cl 9(Nominal Diameter & Out Of Shape) |
- |
1000 |
|
- |
Cl 8(Workmanship) |
- |
200 |
|
- |
Cl 9(Nominal Diameter & Out Of Shape) |
- |
1000 |
|
- |
Cl 8(Freedom from defects) |
- |
200 |
|
- |
Cl 9(Nominal Diameter & Out Of Shape) |
- |
1000 |
|
- |
6.1(Carbon %) |
- |
3000 |
|
- |
6.1(Manganese %) |
- |
3000 |
|
- |
6.1(Phosphorus %) |
- |
3000 |
|
- |
6.1(Sulphur %) |
- |
3000 |
|
- |
6.1(Silicon %) |
- |
3000 |
|
- |
6.1( Aluminium %) |
- |
3000 |
|
- |
6.1(Carbon %) |
- |
3000 |
|
- |
6.1(Manganese %) |
- |
3000 |
|
- |
6.1(Phosphorus %) |
- |
3000 |
|
- |
6.1(Sulphur %) |
- |
3000 |
|
- |
6.1(Silicon %) |
- |
3000 |
|
- |
6.1( Aluminium %) |
- |
3000 |
|
- |
6.1(Carbon %) |
- |
3000 |
|
- |
6.1(Manganese %) |
- |
3000 |
|
- |
6.1(Phosphorus %) |
- |
3000 |
|
- |
6.1(Sulphur %) |
- |
3000 |
|
- |
6.1(Silicon %) |
- |
3000 |
|
- |
6.1( Aluminium %) |
- |
3000 |
|
- |
Cl. 9(Out of Shape) |
- |
1000 |
|
- |
Cl 9(Nominal Diameter & Out Of Shape) |
- |
1000 |
|
- |
Cl 8(Workmanship) |
- |
200 |
|
- |
Cl 8(Workmanship) |
- |
200 |
|
- |
Cl 9(Nominal Diameter & Out Of Shape) |
- |
1000 |
|
- |
Table 1 Note 3(Any Instrumental Method/Chemical Method) |
- |
3000 |
|
- |
Amendment 1(Any Instrumental Method/Chemical Method) |
- |
3000 |
|
- |
Amendment 1(Any Instrumental Method/Chemical Method) |
- |
3000 |
|
- |
Amendment 1(Any Instrumental Method/Chemical Method) |
- |
3000 |
|
- |
Amendment 1(By Calculation) |
- |
3000 |
|
- |
Table 1 Note 3(Any Instrumental Method/Chemical Method) |
- |
3000 |
|
- |
Amendment 1(Any Instrumental Method/Chemical Method) |
- |
3000 |
|
- |
Amendment 1(Any Instrumental Method/Chemical Method) |
- |
3000 |
|
- |
Amendment 1(Any Instrumental Method/Chemical Method) |
- |
3000 |
|
- |
Amendment 1(Any Instrumental Method/Chemical Method) |
- |
3000 |
|
- |
Amendment 1(By Calculation) |
- |
3000 |
|
- |
Table 1 Note 3(Copper) |
- |
3000 |
|
- |
Amendment 1(Niobium) |
- |
3000 |
|
- |
Amendment 1(Vanadium) |
- |
3000 |
|
- |
Amendment 1(Titanium) |
- |
3000 |
|
- |
Amendment 1(Micro Alloying Element (Nb+V+Ti)) |
- |
3000 |
|
- |
9.1(Diameter - SOP-MT-23) |
- |
1000 |
|
- |
9.3(Out of Shape - SOP-MT-23) |
- |
1000 |
|
- |
11(Marking) |
- |
200 |
|
- |
Table 1 Note 3(Copper) |
- |
3000 |
|
- |
Amendment 1(Niobium) |
- |
3000 |
|
- |
Amendment 1(Vanadium) |
- |
3000 |
|
- |
Amendment 1(Titanium) |
- |
3000 |
|
- |
Amendment 1(Micro Alloying Element (Nb+V+Ti)) |
- |
3000 |
|
- |
Cl 8(Workmanship) |
- |
- |
|
- |
Cl 9(Nominal Diameter & Out Of Shape) |
- |
- |
|
- |
Cl 8(Workmanship) |
- |
- |
|
- |
Cl 9(Nominal Diameter & Out Of Shape) |
- |
- |
|
- |
Cl 8(Freedom from defects) |
- |
- |
|
- |
Cl 9(Nominal Diameter & Out Of Shape) |
- |
- |
|
- |
6.1(Carbon %) |
- |
- |
|
- |
6.1(Manganese %) |
- |
- |
|
- |
6.1(Phosphorus %) |
- |
- |
|
- |
6.1(Sulphur %) |
- |
- |
|
- |
6.1(Silicon %) |
- |
- |
|
- |
6.1( Aluminium %) |
- |
- |
|
- |
6.1(Carbon %) |
- |
- |
|
- |
6.1(Manganese %) |
- |
- |
|
- |
6.1(Phosphorus %) |
- |
- |
|
- |
6.1(Sulphur %) |
- |
- |
|
- |
6.1(Silicon %) |
- |
- |
|
- |
6.1( Aluminium %) |
- |
- |
|
- |
6.1(Carbon %) |
- |
- |
|
- |
6.1(Manganese %) |
- |
- |
|
- |
6.1(Phosphorus %) |
- |
- |
|
- |
6.1(Sulphur %) |
- |
- |
|
- |
6.1(Silicon %) |
- |
- |
|
- |
6.1( Aluminium %) |
- |
- |
|
- |
Cl. 9(Out of Shape) |
- |
- |
|
- |
Cl 9(Nominal Diameter & Out Of Shape) |
- |
- |
|
- |
Cl 8(Workmanship) |
- |
- |
|
- |
Cl 8(Workmanship) |
- |
- |
|
- |
Cl 9(Nominal Diameter & Out Of Shape) |
- |
- |
|
- |
Table 1 Note 3(Any Instrumental Method/Chemical Method) |
- |
- |
|
- |
Amendment 1(Any Instrumental Method/Chemical Method) |
- |
- |
|
- |
Amendment 1(Any Instrumental Method/Chemical Method) |
- |
- |
|
- |
Amendment 1(Any Instrumental Method/Chemical Method) |
- |
- |
|
- |
Amendment 1(By Calculation) |
- |
- |
|
- |
Table 1 Note 3(Any Instrumental Method/Chemical Method) |
- |
- |
|
- |
Amendment 1(Any Instrumental Method/Chemical Method) |
- |
- |
|
- |
Amendment 1(Any Instrumental Method/Chemical Method) |
- |
- |
|
- |
Amendment 1(Any Instrumental Method/Chemical Method) |
- |
- |
|
- |
Amendment 1(Any Instrumental Method/Chemical Method) |
- |
- |
|
- |
Amendment 1(By Calculation) |
- |
- |
|
- |
Table 1 Note 3(Copper) |
- |
- |
|
- |
Amendment 1(Niobium) |
- |
- |
|
- |
Amendment 1(Vanadium) |
- |
- |
|
- |
Amendment 1(Titanium) |
- |
- |
|
- |
Amendment 1(Micro Alloying Element (Nb+V+Ti)) |
- |
- |
|
- |
9.1(Diameter - SOP-MT-23) |
- |
- |
|
- |
9.3(Out of Shape - SOP-MT-23) |
- |
- |
|
- |
11(Marking) |
- |
- |
|
- |
Table 1 Note 3(Copper) |
- |
- |
|
- |
Amendment 1(Niobium) |
- |
- |
|
- |
Amendment 1(Vanadium) |
- |
- |
|
- |
Amendment 1(Titanium) |
- |
- |
|
- |
Amendment 1(Micro Alloying Element (Nb+V+Ti)) |
- |
- |
|
- |
|
27 May, 2028 |
- Included w.e.f.19.06.2025 |
29 |
IS 14650 (2023) |
UNALLOYED AND ALLOYED STEEL INGOT AND SEMI-FINISHED PRODUCTS FOR RE-ROLLING PURPOSES - SPECIFICATION (First Revision) |
- |
6000 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
Clause - 7.1(CARBON) |
- |
3000 |
|
- |
Clause - 7.1(SULPHUR) |
- |
3000 |
|
- |
Clause - 7.1(PHOSPHURS) |
- |
3000 |
|
- |
Clause - 7.1(MANGANESE) |
- |
3000 |
|
- |
Clause - 7.1(NITROGEN) |
- |
3000 |
|
- |
As per Clause 10(Dimension) |
- |
3000 |
|
- |
As per Clause 10.1(Dimension Width) |
- |
3000 |
|
- |
As per Clause 10.1(Dimension Thickness) |
- |
3000 |
|
- |
As per Clause 10.2(Dimension Length) |
- |
3000 |
|
- |
As per Clause 11/11.1/11.2/11.3/11.4(Tolerances) |
- |
3000 |
|
- |
As per Clause 11.5(Bend) |
- |
3000 |
|
- |
As per Clause 11.6(Camber) |
- |
3000 |
|
- |
As per Clause 11.7 (i)(Out of Square) |
- |
3000 |
|
- |
As per Clause 11.7 (ii)(Round Corners) |
- |
3000 |
|
- |
As per Clause 11.7 (iii)(Ridges due to gas cutting) |
- |
3000 |
|
- |
As per Clause 11.7 (iv)(Taper (Width variation on top and bottom surface at one location) |
- |
3000 |
|
- |
As per Clause 11.7 (v)(Edge slanting (Width variation on top and bottom surface at one location) |
- |
3000 |
|
- |
As per Clause 11.7 (vi)(Convexity(Difference in thickness from edge to curve) |
- |
3000 |
|
- |
As per Clause 11.7 (vii)(Chamfering (Length variation on top and bottom surface at one location) |
- |
3000 |
|
- |
As per Clause 11.7 (viii)(Wedge (Thickness variation at the edges along the cross section) |
- |
3000 |
|
- |
As per Clause 11.7 (ix)(Scarfing pits) |
- |
3000 |
|
- |
As per Clause 12/12.1/12.2/12.3(Freedom from defects) |
- |
0 |
|
- |
Clause. 14(Marking) |
- |
0 |
|
- |
Clause.15(Ordering information) |
- |
0 |
|
- |
Clause.6.0(Manufacture) |
- |
0 |
|
- |
Clause.7.1(Silicon) |
- |
3000 |
|
- |
Clause.7.1(Carbon Equbalant) |
- |
3000 |
|
- |
Clause.7.1(Microalloy element) |
- |
3000 |
|
- |
|
27 May, 2028 |
- Included w.e.f 31.07.2025
Exclusion: Clause. 13 (Macro examination test.), Clause. 13 (Sulphur print.), Clause. 13 (Inclusion content) |
30 |
IS 12823 (2015) |
Prelaminated Particle Boards from Wood and other Lignocellulosic Material - Specification ( First Revision ) |
Grade 1/Grade 2 |
14500 View breakup
-
Clause No. |
Exclusion |
Testing Charges (Excl. Of Taxes) |
Effective Date |
Remark |
Cl 4(Grades & Types) |
- |
0 |
|
- |
Cl 6(Manufacture) |
- |
0 |
|
- |
Cl 7(Finish) |
- |
500 |
|
- |
Cl 8(Dimensions & Tolerances) |
- |
1500 |
|
- |
Cl 10.2(Test For Density) |
- |
500 |
|
- |
Cl 10.3(Test For Moisture Content) |
- |
500 |
|
- |
Cl 10.4(For Water AbsorptionTest ) |
- |
1000 |
|
- |
Cl 10.5(For Swelling in water Test ) |
- |
1000 |
|
- |
Cl 10.6(Tesr For Modulus Of Elasticity & Mudulus Of Rupture) |
- |
2000 |
|
- |
Cl 10.7(For Determination of Tensile Strength Perpendicular to Surface) |
- |
1000 |
|
- |
Cl 10.8(For Determination of Tensile Strength Perpendicular to Surface After Ageing Test) |
- |
1000 |
|
- |
Cl 10.9(Test For Screw Withdrawal Strength) |
- |
1000 |
|
- |
Cl 10.10 & Annex C( Test For Abrasion Resistance) |
- |
1000 |
|
- |
Cl 10.11 & Annex D( Test For Resistance to Steam) |
- |
500 |
|
- |
Cl 10.12 & Annex E( Test For Crack Resistance) |
- |
500 |
|
- |
Cl 10.13 & Annex F( Test For Resistance to Cigarette Burn) |
- |
500 |
|
- |
Cl 10.14 & Annex G( Test For Resistance to Stain) |
- |
500 |
|
- |
Cl 4(Grades & Types) |
- |
0 |
|
- |
Cl 6(Manufacture) |
- |
0 |
|
- |
Cl 7(Finish) |
- |
500 |
|
- |
Cl 8(Dimensions & Tolerances) |
- |
1500 |
|
- |
Cl 10.2(Test For Density) |
- |
500 |
|
- |
Cl 10.3(Test For Moisture Content) |
- |
500 |
|
- |
Cl 10.4(For Water AbsorptionTest ) |
- |
1000 |
|
- |
Cl 10.5(For Swelling in water Test ) |
- |
1000 |
|
- |
Cl 10.6(Tesr For Modulus Of Elasticity & Mudulus Of Rupture) |
- |
2000 |
|
- |
Cl 10.7(For Determination of Tensile Strength Perpendicular to Surface) |
- |
1000 |
|
- |
Cl 10.8(For Determination of Tensile Strength Perpendicular to Surface After Ageing Test) |
- |
1000 |
|
- |
Cl 10.9(Test For Screw Withdrawal Strength) |
- |
1000 |
|
- |
Cl 10.10 & Annex C( Test For Abrasion Resistance) |
- |
1000 |
|
- |
Cl 10.11 & Annex D( Test For Resistance to Steam) |
- |
500 |
|
- |
Cl 10.12 & Annex E( Test For Crack Resistance) |
- |
500 |
|
- |
Cl 10.13 & Annex F( Test For Resistance to Cigarette Burn) |
- |
500 |
|
- |
Cl 10.14 & Annex G( Test For Resistance to Stain) |
- |
500 |
|
- |
Cl 10.14 & Annex G( Test For Resistance to Stain) |
- |
500 |
|
- |
Cl 10.13 & Annex F( Test For Resistance to Cigarette Burn) |
- |
500 |
|
- |
Cl 10.12 & Annex E( Test For Crack Resistance) |
- |
500 |
|
- |
Cl 10.11 & Annex D( Test For Resistance to Steam) |
- |
500 |
|
- |
Cl 10.10 & Annex C( Test For Abrasion Resistance) |
- |
1000 |
|
- |
Cl 10.9(Test For Screw Withdrawal Strength) |
- |
1000 |
|
- |
Cl 10.8(For Determination of Tensile Strength Perpendicular to Surface After Ageing Test) |
- |
1000 |
|
- |
Cl 10.7(For Determination of Tensile Strength Perpendicular to Surface) |
- |
1000 |
|
- |
Cl 10.6(Tesr For Modulus Of Elasticity & Mudulus Of Rupture) |
- |
2000 |
|
- |
Cl 10.5(For Swelling in water Test ) |
- |
1000 |
|
- |
Cl 10.4(For Water AbsorptionTest ) |
- |
1000 |
|
- |
Cl 10.3(Test For Moisture Content) |
- |
500 |
|
- |
Cl 10.2(Test For Density) |
- |
500 |
|
- |
Cl 8(Dimensions & Tolerances) |
- |
1500 |
|
- |
Cl 7(Finish) |
- |
500 |
|
- |
Cl 6(Manufacture) |
- |
0 |
|
- |
Cl 4(Grades & Types) |
- |
0 |
|
- |
Cl 10.15(Test for Formaldehyde Content/Emission) |
- |
1500 |
|
- |
Cl-11(ADDITIONAL REQUIREMENTS FOR
ECO-MARK) |
- |
0 |
|
- |
|
27 May, 2028 |
- Included w.e.f.30.05.2025 |