BIS - LIMS (Laboratory Information Management System)

Shri Krishna Test House

B-70/1, Gali no 8 , New modern Shahdara ,Near DDA Flats mansarover park shahdara, Delhi, Shahdara, Delhi, 110032

9891112786 skth1234@gmail.com

Scope List

Reset

55 Results

S.No.

Indian Standard No.

Product

Grade / Type / Size / Designation etc.

Exclusion

Testing Charges (Excl. Of Taxes)

Facility Type

Effective Date

Validity Date

Remark

IS 739 (1992)

Wrought aluminium and aluminium alloys - Wire for general engineering purposes - Specification (Third Revision)

All Grades

20000 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
6.0(Freedom from defects)	-	20000	-
7.0(Dimension and Tolerances)	-	20000	-
8.1 Table-1(Al)	-	20000	-
8.1 Table-1(Cu)	-	20000	-
8.1 Table-1(Mg)	-	20000	-
8.1 Table-1(Si)	-	20000	-
8.1 Table-1(Fe)	-	20000	-
8.1 Table-1(Mn)	-	20000	-
8.1 Table-1(Zn)	-	20000	-
8.1 Table-1(Ti)	-	20000	-
8.1 Table-1(Cr)	-	20000	-
9.1(Tensile Strength)	-	20000	-
9.3(Wrapping Test)	-	20000	-
10(Selection of Test Samples)	-	20000	-

Complete

05 Oct, 2025

Included w.e.f. 20.11.2024

IS 1264 (1997)

Brass gravity die castings - Specification (Fourth Revision)

15000 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
5.0(Freedom from defects)	-	15000	-
6.0(Shape)	-	15000	-
6.0(Size)	-	15000	-
6.0(Mass)	-	15000	-
7.0(Cu)	-	15000	-
7.0(Sn)	-	15000	-
7.0(Pb)	-	15000	-
7.0(Ni)	-	15000	-
7.0(Fe)	-	15000	-
7.0(Al)	-	15000	-
7.0(Mn)	-	15000	-
7.0(Si)	-	15000	-
7.0(Total impurities excluding Ni Pb Al Zn)	-	15000	-
9.0(Pressure test)	-	15000	-
11(Marking)	-	15000	-
11(Marking)	-	15000	-

Complete

05 Oct, 2025

Included w.e.f. 20.11.2024

IS 5082 (1998)

Wrought aluminium and aluminium alloy bars, rods, tubes, sections, plates and sheets for electrical applications (Second Revision)

22000 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
6.1(CHEMICAL COMPOSITION Table 1)	-	22000	-
Clause 5(FREEDOM FROM DEFECTS)	-	22000	-
8.1(MECHANICAL TEST Tensile Strength Min, Mpa)	-	22000	-
8.1(MECHANICAL TEST (0.2 Percent Proof Stress Min, Mpa))	-	22000	-
8.1(Percent Elongation on 5.65 Min)	-	22000	-
8.1(Electrical Conductivity at 20°C,Min)	-	22000	-
8.1(Maximum Electrical Resistivity at 20°C ohm-mm/mm2)	-	22000	-
8.2(Bend Test)	-	22000	-
Clause 10(DIMENSIONAL TOLERANCES)	-	22000	-
6.1, Table 1(Aluminium)	-	22000	-
6.1, Table 1(Copper)	-	22000	-
6.1, Table 1(Magnesium)	-	22000	-
6.1, Table 1(Silicon)	-	22000	-
6.1, Table 1(Manganese)	-	22000	-
6.1, Table 1(Zinc)	-	22000	-
6.1, Table 1(Titanium)	-	22000	-
6.1, Table 1(Chromium)	-	22000	-
6.1, Table 1(Iron)	-	22000	-
6.1, Table 1(Vanadium)	-	22000	-

Complete

05 Oct, 2025

Included w.e.f.12.11.2024

IS 6603 (2024)

Stainless Steel Semi-Finished Products, Bars, Wire Rods and Bright Bars â Specification (Second Revision)

55000 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
Cl - 9.1,9.5,13.2(Thickness or Diameter)	-	55000	-
Cl - 9.1,9.5,13.2(Proof Strength Rp 0.2 MP)	-	55000	-
Cl - 9.1,9.5,13.2(Proof Strength Rp 1.0 MP)	-	55000	-
Cl - 9.1,9.5,13.2(Tensile Strength)	-	55000	-
Cl - 9.1,9.5,13.2(Elongation After Fracture Long.)	-	55000	-
Cl - 9.1,9.5,13.2(Elongation After Fracture Tr.)	-	55000	-
Cl - 9.1,9.5,13.2(Impact Energy (ISO-V) Long.)	-	55000	-
Cl - 9.1,9.5,13.2(Impact Energy (ISO-V) Tr.)	-	55000	-
Cl - 9.1,9.5,13.2(Resistance to Inter-Granular Corrosion in the Delivery Condition)	-	55000	-
Cl - 9.1,9.5,13.2(Resistance to Inter-Granular Corrosion in the Sensitized Condition)	-	55000	-
Cl - 9.1,9.5,13.2(Hardness)	-	55000	-
Cl - 9.1,9.5,13.2(Elongation After Fracture)	-	55000	-
Cl - 9.1,9.5,13.2(Impact Energy (ISO-V))	-	55000	-
Cl - 9.1,9.3,9.4,9.5,13.2(Thickness or Diameter)	-	55000	-
Cl - 9.1,9.3,9.4,9.5,13.2(R MPa Max(Annealed))	-	55000	-
Cl - 9.1,9.3,9.4,9.5,13.2(Hardness HB Max(Annealed))	-	55000	-
Cl - 9.1,9.3,9.4,9.5,13.2(Heat Treatment Condition (Quenched + Tempered))	-	55000	-
Cl - 9.1,9.3,9.4,9.5,13.2(R 0.2 MPa Min(Quenched + Tempered))	-	55000	-
Cl - 9.1,9.3,9.4,9.5,13.2(R Mpa(Quenched + Tempered))	-	55000	-
Cl - 9.1,9.3,9.4,9.5,13.2(A Percent Min Long.(Quenched + Tempered))	-	55000	-
Cl - 9.1,9.3,9.4,9.5,13.2(A Percent Min Tr.(Quenched + Tempered))	-	55000	-
Cl - 9.1,9.3,9.4,9.5,13.2(KV J Min Long.(Quenched + Tempered))	-	55000	-
Cl - 9.1,9.3,9.4,9.5,13.2(KV J Min Long.(Quenched + Tempered))	-	55000	-
Cl - 9.1,9.3,9.4,9.5,13.2(Thickness or Diameter)	-	55000	-
Cl - 9.1,9.3,9.4,9.5,13.2(R MPa Max(Annealed))	-	55000	-
Cl - 9.1,9.3,9.4,9.5,13.2(Hardness HB Max(Annealed))	-	55000	-
Cl - 9.1,9.3,9.4,9.5,13.2(Heat Treatment Condition (Quenched + Tempered))	-	55000	-
Cl - 9.1,9.3,9.4,9.5,13.2(R 0.2 MPa Min(Quenched + Tempered))	-	55000	-
Cl - 9.1,9.3,9.4,9.5,13.2(R Mpa(Quenched + Tempered))	-	55000	-
Cl - 9.1,9.3,9.4,9.5,13.2(A Percent Min Long.(Quenched + Tempered))	-	55000	-
Cl - 9.1,9.3,9.4,9.5,13.2(A Percent Min Tr.(Quenched + Tempered))	-	55000	-
Cl - 9.1,9.3,9.4,9.5,13.2(KV J Min Long.(Quenched + Tempered))	-	55000	-
Cl - 9.1,9.3,9.4,9.5,13.2(KV J Min Long.(Quenched + Tempered))	-	55000	-
Cl - 9.2(Minimum 0.2 Percent Proof Strength at 100 Deg. C)	-	55000	-
Cl - 9.2(Minimum 0.2 Percent Proof Strength at 150 Deg. C)	-	55000	-
Cl - 9.2(Minimum 0.2 Percent Proof Strength at 200 Deg. C)	-	55000	-
Cl - 9.2(Minimum 0.2 Percent Proof Strength at 250 Deg. C)	-	55000	-
Cl - 9.2(Minimum 0.2 Percent Proof Strength at 300 Deg. C)	-	55000	-
Cl - 9.2(Minimum 0.2 Percent Proof Strength at 350 Deg. C)	-	55000	-
Cl - 9.2(Minimum 0.2 Percent Proof Strength at 400 Deg. C)	-	55000	-
Cl - 9.2(Minimum 0.2 Percent Proof Strength at 450 Deg. C)	-	55000	-
Cl - 9.2(Minimum 0.2 Percent Proof Strength at 500 Deg. C)	-	55000	-
Cl - 9.2(Minimum 0.2 Percent Proof Strength at 550 Deg. C)	-	55000	-
Cl - 9.2(Minimum 1 Percent Proof Strength at 100 Deg. C.)	-	55000	-
Cl - 9.2(Minimum 1 Percent Proof Strength at 150 Deg. C.)	-	55000	-
Cl - 9.2(Minimum 1 Percent Proof Strength at 200 Deg. C.)	-	55000	-
Cl - 9.2(Minimum 1 Percent Proof Strength at 250 Deg. C.)	-	55000	-
Cl - 9.2(Minimum 1 Percent Proof Strength at 300 Deg. C.)	-	55000	-
Cl - 9.2(Minimum 1 Percent Proof Strength at 350 Deg. C.)	-	55000	-
Cl - 9.2(Minimum 1 Percent Proof Strength at 400 Deg. C.)	-	55000	-
Cl - 9.2(Minimum 1 Percent Proof Strength at 450 Deg. C.)	-	55000	-
Cl - 9.2(Minimum 1 Percent Proof Strength at 550 Deg. C.)	-	55000	-
Cl - 9.2(Minimum 0.2 Percent Proof Strength at 100 Deg. C)	-	55000	-
Cl - 9.2(Minimum 0.2 Percent Proof Strength at 150 Deg. C)	-	55000	-
Cl - 9.2(Minimum 0.2 Percent Proof Strength at 200 Deg. C)	-	55000	-
Cl - 9.2(Minimum 0.2 Percent Proof Strength at 250 Deg. C)	-	55000	-
Cl - 9.2(Minimum 0.2 Percent Proof Strength at 100 Deg. C)	-	55000	-
Cl - 9.2(Minimum 0.2 Percent Proof Strength at 150 Deg. C)	-	55000	-
Cl - 9.2(Minimum 0.2 Percent Proof Strength at 200 Deg. C)	-	55000	-
Cl - 9.2(Minimum 0.2 Percent Proof Strength at 250 Deg. C)	-	55000	-
Cl - 9.2(Minimum 0.2 Percent Proof Strength at 300 Deg. C)	-	55000	-
Cl - 9.2(Minimum 0.2 Percent Proof Strength at 350 Deg. C)	-	55000	-
Cl - 9.2(Minimum 0.2 Percent Proof Strength at 400 Deg. C)	-	55000	-
Cl - 9.2(Minimum 0.2 Percent Proof Strength at 100 Deg. C)	-	55000	-
Cl - 9.2(Minimum 0.2 Percent Proof Strength at 150 Deg. C)	-	55000	-
Cl - 9.2(Minimum 0.2 Percent Proof Strength at 200 Deg. C)	-	55000	-
Cl - 9.2(Minimum 0.2 Percent Proof Strength at 250 Deg. C)	-	55000	-
Cl - 9.2(Minimum 0.2 Percent Proof Strength at 300 Deg. C)	-	55000	-
Cl - 9.2(Minimum 0.2 Percent Proof Strength at 350 Deg. C)	-	55000	-
Cl - 9.2(Minimum 0.2 Percent Proof Strength at 400 Deg. C)	-	55000	-
Cl - 9.2(Minimum 0.2 Percent Proof Strength at 100 Deg. C)	-	55000	-
Cl - 9.2(Minimum 0.2 Percent Proof Strength at 150 Deg. C)	-	55000	-
Cl - 9.2(Minimum 0.2 Percent Proof Strength at 200 Deg. C)	-	55000	-
Cl - 9.2(Minimum 0.2 Percent Proof Strength at 250 Deg. C)	-	55000	-

Complete

05 Oct, 2025

Included w.e.f. 30.10.2024 Excluding Cl.9.2 (0.2 % Proof Strength and 1.0 % Proof Strength at Elevated Temperature)

IS 1660 (2024)

Wrought and Cast Aluminium Utensils Specification ( Second Revision )

30000 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
Cl-3.1.1, 3.1.2(Minimum Thickness of Sheet)	-	30000	-
Cl-3.1.3, Table-2(Minimum Thickness at the Bottom)	-	30000	-
Cl-3.1.3, Table-2(Minimium Thickness of Wall at the Top Edge)	-	30000	-
Cl-3.1.3, Table-2(Minimum Cover Thickness)	-	30000	-
Cl-4.1(Main body of utensil)	-	30000	-
Cl-4.1(Cast cookware)	-	30000	-
Cl-4.1(Other aluminum components and parts)	-	30000	-
Cl-4.1.1(Lids (material))	-	30000	-
Cl-4.1.1(Minimum thickness of lid)	-	30000	-
Cl-4.1.2(Minimum thickness of glass)	-	30000	-
Cl-4.1.2(Material of rim)	-	30000	-
Cl-4.1.2(Minimum thickness of rim)	-	30000	-
Cl-4.2(Material of strips)	-	30000	-
Cl-4.2(Stainless steel handles, rivets and fittings)	-	30000	-
Cl-4.3(Clips of lunch box)	-	30000	-
Cl-4.3(Clips of lunch box)	-	30000	-
Cl-4.3(Rivets used in lunch box)	-	30000	-
Cl-4.4(Screws, studs/nuts, and locking loop)	-	30000	-
Cl-4.5(Rivets for fixing of handles)	-	30000	-
Cl-4.5(Material of cap)	-	30000	-
Cl-4.6(Strips used for flame guards)	-	30000	-
Cl-4.6(stainless steel)	-	30000	-
Cl-5(Fabrication)	-	30000	-
Cl-6(Shape and Dimensions)	-	30000	-
Cl-7.1(Handles, when fitted)	-	30000	-
Cl-7.2(Handles)	-	30000	-
Cl-7.3 (Cl- 4.1 of IS 13395)(Construction)	-	30000	-
Cl-7.3 (Cl- 4.2 of IS 13395)(Materials)	-	30000	-
Cl-7.3 (Cl- 4.3 of IS 13395)(Selection and Size)	-	30000	-
Cl-7.3 (Cl- 4.4 of IS 13395)(Position of Handle and Knob with Respect to Cookware)	-	30000	-
Cl-7.3 (Cl- 4.5 of IS 13395)(Attachment to Cookware)	-	30000	-
Cl-7.3 (Cl- 5.2 of IS 13395)(Bending Strength)	-	30000	-
Cl-7.3 (Cl- 5.3 of IS 13395)(Torque Strength)	-	30000	-
Cl-7.3 (Cl- 5.4 of IS 13395)(Impact Strength)	-	30000	-
Cl-7.3 (Cl- 5.5 of IS 13395)(Fatigue Resistance)	-	30000	-
Cl-7.3 (Cl- 5.6 of IS 13395)(Leakage)	-	30000	-
Cl-7.3 (Cl- 5.7 of IS 13395)(Thermal Insulation)	-	30000	-
Wrought and Cast Aluminium Utensils — Specification(Heat Resistance)	-	30000	-
Cl-7.3 (Cl- 5.9 of IS 13395)(Washing Resistance (Type Test))	-	30000	-
Cl-7.3 (Cl- 5.10 of IS 13395)(Burning Resistance)	-	30000	-
Cl-8(Workmanship and Finish)	-	30000	-
Cl-8.3(Utensils, if anodized, fully or partially)	-	30000	-
Cl-8.3(Minimum nominal thickness)	-	30000	-
Cl-8.3(Thickness of hard anodized)	-	30000	-
Cl-8.3(Finish and appearance of hard anodized)	-	30000	-
Cl-8.3(Abrasion resistance of hard anodized)	-	30000	-
Cl-8.3(Colour of hard anodized)	-	30000	-
Cl-8.3(Hardness of hard anodized)	-	30000	-
Wrought and Cast Aluminium Utensils — Specification(Lid of the cookware)	-	30000	-
Cl-8.5(Non-stick unreinforced PTFE)	-	30000	-
Cl-8.6(Ceramic coating)	-	30000	-
Cl-8.7(The thickness test, adhesion test)	-	30000	-
Cl-8.7(Minimum thickness of coating)	-	30000	-
Cl-8.7.1(Dry heat the cookware)	-	30000	-
Cl-8.8(Requirements of PTFE)	-	30000	-
Cl-8.9(Material for induction plate)	-	30000	-
Cl-8.9(Test for Induction compatible base)	-	30000	-
Cl-8.10.1(Tests for Lunch Boxes- Performance Test)	-	30000	-
Cl-8.10.1(Tests for Lunch Boxes- Performance Test)	-	30000	-
Cl-8.10.2(Tests for Lunch Boxes- Ground Nut Oil Test for Leakage)	-	30000	-
Cl-8.11.1(Test(s) on Tempered Glass Lid- Fragmentation Test)	-	30000	-
Cl-8.11.2(Test(s) on Tempered Glass Lid-Ball Drop Test)	-	30000	-
Cl-8.11.3(Test(s) on Tempered Glass Lid- Thermal Shock Test)	-	30000	-
Cl-8.11.4(Test(s) on Tempered Glass Lid- Free Fall Test)	-	30000	-
Cl-9.1(Normal Capacity)	-	30000	-
Cl-9.2(Normal Capacity of internal diameter)	-	30000	-

Complete

05 Oct, 2025

IS 302 : Part 2 : SEC 31 (2009)

Safety of household and similar electrical appliances: Part 2 particular requirements: Sec 31 range hoods

34000 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
Clause No - 5(GENERAL CONDITIONS FOR THE TESTS)	-	34000	-
Clause No - 5.18(linear and angular dimension)	-	34000	-
Clause No - 6.2(harmfull ingress of water)	-	34000	-
Clause No - 8.1.1("PROTECTION AGAINST ACCESS TO LIVE PART- test probe B")	-	34000	-
Clause No - 8.1.2("PROTECTION AGAINST ACCESS TO LIVE PART - test probe 13")	-	34000	-
Clause No - 8.2(Addition)	-	34000	-
Clause No - 10.1, Table No. -1(power input deviation)	-	34000	-
Clause No - 13.3("LEAKAGE CURRENT AND ELECTRIC STRENGTH AT OPERATING TEMPERATURE")	-	34000	-
Clause No - 13.3,Table No.- 4(voltage for electrical strength)	-	34000	-
Clause No - 14(Impulse test voltage)	-	34000	-
Clause No - 15.1.1(MOISTURE RESISTANCE)	-	34000	-
Clause No -19.7(test is repeated with the capacitor short circuited)	-	34000	-
Clause No -19.11.4.1(electrostatic discharge)	-	34000	-
Clause No -19.11.4.2(radiated field)	-	34000	-
Clause No -19.11.4.3(fast transient)	-	34000	-
Clause No -19.11.4.4(Voltage dips and interruption)	-	34000	-
Clause No -21.1(Mechanical strength)	-	34000	-
Clause No -22.1(construction)	-	34000	-
Clause No -22.11(push force applied)	-	34000	-
Clause No -24.1.2(safety isolating transformer)	-	34000	-
Clause No -24.1.3(for switches)	-	34000	-
Clause No -24.1.4(for automatic control)	-	34000	-
Clause No -24.1.5(for innterconnection couplers)	-	34000	-
Clause No -24.4(plug and socket)	-	34000	-
Clause No -25.8, Table no -11(conductor resistance)	-	34000	-
Clause No -25.5(dimension for pins)	-	34000	-
Clause No -27.6(for circuit board)	-	34000	-
Clause No -29.2(comparative tracking index)	-	34000	-
Clause No -29.3.3(dry heat test)	-	34000	-
Clause No -30.2.1(glow wire test)	-	34000	-
Clause No -30.101("incorporate combustible material")	-	34000	-

Complete

05 Oct, 2025

IS 11241 (1985)

Specification for portable liquefied petroleum gas appliances operating at vapour pressure

35000 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
5(Design for Maintenance)	-	35000	-
5(The appliance, including all its component parts, shall be easy to clean and maintain in good working order and condition. There shall be easy access to the accessories and controls for maintenance and adjustment)	-	35000	-
5.1(Burners and parts of burners only of the same capacity, model and make shall be interchangeable or replaceable without affecting the performance)	-	35000	-
5.2(Parts which are intended to be removable by the user shall be easy to replace correctly and difficult to assemble incorrectly)	-	35000	-
5.3(All nuts, bolts and fittings having spanner flats shall be capable of being moved with suitable spanner or be readily accessible to an adjustable spanner.)	-	35000	-
6(Stability: The appliance, if mounted on a cylinder, shall be so designed that it will not tip over when placed on a plane at an angle of 15° from the horizontal, with the container empty.)	-	35000	-
6.1(For cooking appliances, the design of the pan support shall be such that the assembly will remain stable when used with vessels of diameters from 100 to 200 mm.)	-	35000	-
7(Inlet Connection — If the appliance is designed to be fitted directly to the gas container, the connection shall be such that it will fit easily on the gas container and it would be possible to attach and detach it with little or no loss of gas.)	-	35000	-
7.1(If the appliance is designed to be connected to the gas container with a flexible hose it shall be such that the appliance can only be fitted to the appropriate container for which it is designed.)	-	35000	-
7.2(Where a spanner is necessary to be used for making the connection, it shall be provided with the appliance)	-	35000	-
7.3(All hose connections shall be integral with the appliance and with the container. Hose clips are not permitted. The hose shall either be provided with screwed ends with a nut, operatable by spanner, at the appliance end, or shall be provided with an adequate device which may be tightened by hand to give a gas tight connection e.g. a wing nut and washer connection)	-	35000	-
8(Finish — The relevant requirements of 6 of Section 1 of IS : 5116-1985 shall apply)	-	35000	-
9(Valves — The valves shall not be of taper plug type. Valves shall be so designed that it is impossible to withdraw completely the valve stem in the normal operation of the valve. It shall be impossible for any valve to be opened inadvertently)	-	35000	-
9.1(Any lubricant if used on the valve shall contain 50 percent by weight of molybdenum disulphide and shall have a drop point as determined by IS : 1448 ( Part 52 )-1971 'Methods of test for petroleum and its products: Part 52 Drop point ( first revision )' in excess of maximum working temperature of the valve. The lubricant shall be non-corrosive to mild steel, brass, copper and other metals of which the valve is constructed and shall have reasonable resistance to the solvent action of LPG)	-	35000	-
9.2(The valves shall be so situated that they can be operated without the hand being likely to touch hot parts of the appliance.)	-	35000	-
10(Washers, O-Seals and J o i n t i n g Compounds — All washers, 'O' seals and jointing compounds ( s e e IS: 3465-1966 'Jointing compounds for use in liquefied petroleum gas appliances and i n s t a l l a t i o n s ' ) coming into contact with the gas shall be suitable for use with liquefied petroleum gas)	-	35000	-
11(Injector J e t s — It shall not be possible to loosen injector j e t s without the use of tools; for this purpose spanner flats shall be provided)	-	35000	-
11.1(It shall not be possible to fit the injector jets normally used in LPG appliances intended for use with liquefied petroleum gases at 30 gf/cm2 gas inlet pressure)	-	35000	-
12(Guards — Space heaters having exposed flames or radiants shall be provided with suitable guards.)	-	35000	-
13(Primary Air Regulators — 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)	-	35000	-
14(Flexible Tubing — The flexible tubing, if used with the appliance, shall be of an appropriate length and the connection shall be such that the appliance can only be fitted to a remmended container, ( Please see 7.1 and 7.3 ).)	-	35000	-
15(Gas Containers — Gas containers shall be of adequate size for the efficient operation of the appliance for which they are designed.)	-	35000	-
15.1(Non-refillable (expendable) gas containers used with these appliance shall comply with the requirements of IS : 4093-1981 'Specification for non-refillable liquefied petroleum gas containers)	-	35000	-
15.2(Refillable gas containers used with these appliances shall comply with IS : 7142-1974 'Specification for welded low carbon steel gas cylinders for low pressure liquefiable gases, not exceeding 5 litres water capacity)	-	35000	-
15.3(If it is intended that the container or the closure shall be pierced to use its c o n t e n t s , t h e container shall be so designed in conjunction with the appliance with which it is to be used that it i s not reasonably possible to operate the piercing device to pierce the container unless the container i s properly attached to the appliance.)	-	35000	-
16(Gas Soundness — The whole of gas ways including the valves, which are held under working pressure, shall be gas tight when tested under water with air at a pressure of 0 ' 3 5 kg/cm2 and 17 kg/cm2 For all these t e s t s , a pressure regulator shall be used)	-	35000	-
17(Performance: Test gases)	-	35000	-
18(Ignition and Flame Travel — There shall be easy and safe access for lighting by a match. It shall be easy to see when gas is ignited)	-	35000	-
18.1(With valves fully open, flame travel shall be complete at the specified supply pressure when a flame is applied to the burner port)	-	35000	-
19(Flame Stability — It shall be possible to operate stoves with control valves fully open at gas inlet pressure from 30 to 200 kN/m2 ( 294 to 1960 gf/cm2) without the flame either extinguishing, blowing off or striking back and without the formation of soot)	-	35000	-
20(Resistance to Draughts — There shall be no lighting back or extinction of the flame when the appliance is operated under the conditions specified in 17.2.1 and when placed in a normal ( not localized ) current of air with a velocity of 2 m/s as measured with a rotating vane aemometer. The location of the appliance relative to neighbouring walls and the direction of draught shall be varied to correspond to the likely conditions of appliance installation. This test shall be conducted with the wind shield fitted if supplied with appliance)	-	35000	-
21(Combustion — Under the conditions specified in 17.2.1, the carbon monoxide/carbon dioxide ratio of exhaust gases of the appliances shall not exceed 0.02 when determined in accordance with Appendix C of IS : 4246-1984 'Specification for domestic gas stoves for use with liquefied petroleum gases)	-	35000	-
22(Surface Temperatures)	-	35000	-
22(Surfaces (other than working surface) likely to be touched accidentally, degree Centegrade)	-	35000	-
22(Surfaces of appliances intended to be touched)	-	35000	-
22(Metallic)	-	35000	-
22(Non-metallic)	-	35000	-
22(Surfaces of gas container and container valve)	-	35000	-
23(Maximum Heat Output for Portable Space Heaters — The maximum heat output for portable space heaters shall be 6.5 MJ/h (1 8 kW))	-	35000	-
25(Instructions — The appliance shall be accompanied by an instructions card giving the following information:)	-	35000	-
26(Marking)	-	35000	-
5(Design for Maintenance)	-	35000	-
5(The appliance, including all its component parts, shall be easy to clean and maintain in good working order and condition. There shall be easy access to the accessories and controls for maintenance and adjustment)	-	35000	-
5.1(Burners and parts of burners only of the same capacity, model and make shall be interchangeable or replaceable without affecting the performance)	-	35000	-
5.2(Parts which are intended to be removable by the user shall be easy to replace correctly and difficult to assemble incorrectly)	-	35000	-
5.3(All nuts, bolts and fittings having spanner flats shall be capable of being moved with suitable spanner or be readily accessible to an adjustable spanner.)	-	35000	-
6(Stability: The appliance, if mounted on a cylinder, shall be so designed that it will not tip over when placed on a plane at an angle of 15° from the horizontal, with the container empty.)	-	35000	-
6.1(For cooking appliances, the design of the pan support shall be such that the assembly will remain stable when used with vessels of diameters from 100 to 200 mm.)	-	35000	-
7(Inlet Connection — If the appliance is designed to be fitted directly to the gas container, the connection shall be such that it will fit easily on the gas container and it would be possible to attach and detach it with little or no loss of gas.)	-	35000	-
7.1(If the appliance is designed to be connected to the gas container with a flexible hose it shall be such that the appliance can only be fitted to the appropriate container for which it is designed.)	-	35000	-
7.2(Where a spanner is necessary to be used for making the connection, it shall be provided with the appliance)	-	35000	-
7.3(All hose connections shall be integral with the appliance and with the container. Hose clips are not permitted. The hose shall either be provided with screwed ends with a nut, operatable by spanner, at the appliance end, or shall be provided with an adequate device which may be tightened by hand to give a gas tight connection e.g. a wing nut and washer connection)	-	35000	-
8(Finish — The relevant requirements of 6 of Section 1 of IS : 5116-1985 shall apply)	-	35000	-
9(Valves — The valves shall not be of taper plug type. Valves shall be so designed that it is impossible to withdraw completely the valve stem in the normal operation of the valve. It shall be impossible for any valve to be opened inadvertently)	-	35000	-
9.1(Any lubricant if used on the valve shall contain 50 percent by weight of molybdenum disulphide and shall have a drop point as determined by IS : 1448 ( Part 52 )-1971 'Methods of test for petroleum and its products: Part 52 Drop point ( first revision )' in excess of maximum working temperature of the valve. The lubricant shall be non-corrosive to mild steel, brass, copper and other metals of which the valve is constructed and shall have reasonable resistance to the solvent action of LPG)	-	35000	-
9.2(The valves shall be so situated that they can be operated without the hand being likely to touch hot parts of the appliance.)	-	35000	-
10(Washers, O-Seals and J o i n t i n g Compounds — All washers, 'O' seals and jointing compounds ( s e e IS: 3465-1966 'Jointing compounds for use in liquefied petroleum gas appliances and i n s t a l l a t i o n s ' ) coming into contact with the gas shall be suitable for use with liquefied petroleum gas)	-	35000	-
11(Injector J e t s — It shall not be possible to loosen injector j e t s without the use of tools; for this purpose spanner flats shall be provided)	-	35000	-
11.1(It shall not be possible to fit the injector jets normally used in LPG appliances intended for use with liquefied petroleum gases at 30 gf/cm2 gas inlet pressure)	-	35000	-
12(Guards — Space heaters having exposed flames or radiants shall be provided with suitable guards.)	-	35000	-
13(Primary Air Regulators — 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)	-	35000	-
14(Flexible Tubing — The flexible tubing, if used with the appliance, shall be of an appropriate length and the connection shall be such that the appliance can only be fitted to a remmended container, ( Please see 7.1 and 7.3 ).)	-	35000	-
15(Gas Containers — Gas containers shall be of adequate size for the efficient operation of the appliance for which they are designed.)	-	35000	-
15.1(Non-refillable (expendable) gas containers used with these appliance shall comply with the requirements of IS : 4093-1981 'Specification for non-refillable liquefied petroleum gas containers)	-	35000	-
15.2(Refillable gas containers used with these appliances shall comply with IS : 7142-1974 'Specification for welded low carbon steel gas cylinders for low pressure liquefiable gases, not exceeding 5 litres water capacity)	-	35000	-
15.3(If it is intended that the container or the closure shall be pierced to use its c o n t e n t s , t h e container shall be so designed in conjunction with the appliance with which it is to be used that it i s not reasonably possible to operate the piercing device to pierce the container unless the container i s properly attached to the appliance.)	-	35000	-
16(Gas Soundness — The whole of gas ways including the valves, which are held under working pressure, shall be gas tight when tested under water with air at a pressure of 0 ' 3 5 kg/cm2 and 17 kg/cm2 For all these t e s t s , a pressure regulator shall be used)	-	35000	-
17(Performance: Test gases)	-	35000	-
18(Ignition and Flame Travel — There shall be easy and safe access for lighting by a match. It shall be easy to see when gas is ignited)	-	35000	-
18.1(With valves fully open, flame travel shall be complete at the specified supply pressure when a flame is applied to the burner port)	-	35000	-
19(Flame Stability — It shall be possible to operate stoves with control valves fully open at gas inlet pressure from 30 to 200 kN/m2 ( 294 to 1960 gf/cm2) without the flame either extinguishing, blowing off or striking back and without the formation of soot)	-	35000	-
20(Resistance to Draughts — There shall be no lighting back or extinction of the flame when the appliance is operated under the conditions specified in 17.2.1 and when placed in a normal ( not localized ) current of air with a velocity of 2 m/s as measured with a rotating vane aemometer. The location of the appliance relative to neighbouring walls and the direction of draught shall be varied to correspond to the likely conditions of appliance installation. This test shall be conducted with the wind shield fitted if supplied with appliance)	-	35000	-
21(Combustion — Under the conditions specified in 17.2.1, the carbon monoxide/carbon dioxide ratio of exhaust gases of the appliances shall not exceed 0.02 when determined in accordance with Appendix C of IS : 4246-1984 'Specification for domestic gas stoves for use with liquefied petroleum gases)	-	35000	-
22(Surface Temperatures)	-	35000	-
22(Surfaces (other than working surface) likely to be touched accidentally, degree Centegrade)	-	35000	-
22(Surfaces of appliances intended to be touched)	-	35000	-
22(Metallic)	-	35000	-
22(Non-metallic)	-	35000	-
22(Surfaces of gas container and container valve)	-	35000	-
23(Maximum Heat Output for Portable Space Heaters — The maximum heat output for portable space heaters shall be 6.5 MJ/h (1 8 kW))	-	35000	-
25(Instructions — The appliance shall be accompanied by an instructions card giving the following information:)	-	35000	-
26(Marking)	-	35000	-

Complete

05 Oct, 2025

IS 617 (2024)

Aluminium and Aluminium Alloys Ingots for Remelting and Castings for General Engineering Purposes â Specification (Fourth Revision)

6000 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
Cl-6.1, Table-1(Si)	-	6000	-
Cl-6.1, Table-1(Fe)	-	6000	-
Cl-6.1, Table-1(Cu)	-	6000	-
Cl-6.1, Table-1(Mn)	-	6000	-
Cl-6.1, Table-1(Mg)	-	6000	-
Cl-6.1, Table-1(Cr)	-	6000	-
Cl-6.1, Table-1(Ni)	-	6000	-
Cl-6.1, Table-1(Zn)	-	6000	-
Cl-6.1, Table-1(Pb)	-	6000	-
Cl-6.1, Table-1(Sn)	-	6000	-
Cl-6.1, Table-1(Ti)	-	6000	-
Cl-6.1, Table-1(Others elements Each)	-	6000	-
Cl-6.1, Table-1(Others elements Total)	-	6000	-
Cl-6.1, Table-1(Aluminium)	-	6000	-
Cl-6.2(The chemical analysis)	-	6000	-
Cl-7.1, Table-2(Sand-Cast Alloys- Tensile Strength)	-	6000	-
Cl-7.1, Table-2(Sand-Cast Alloys- Proof Stress)	-	6000	-
Cl-7.1, Table-2(Sand-Cast Alloys- Elongation)	-	6000	-
Cl-7.1, Table-2(Sand-Cast Alloys- Brinell Hardness HBW)	-	6000	-
Cl-7.1, Table-3(Chill Cast Alloys- Tensile Strength)	-	6000	-
Cl-7.1, Table-3(Chill Cast Alloys- Proof Stress)	-	6000	-
Cl-7.1, Table-3(Chill Cast Alloys- Elongation)	-	6000	-
Cl-7.1, Table-3(Chill Cast Alloys- Brinell Hardness HBW)	-	6000	-
Cl-7.1, Table-4(Investment-Cast Alloys- Tensile Strength)	-	6000	-
Cl-7.1, Table-4(Investment-Cast Alloys- Proof Stress)	-	6000	-
Cl-7.1, Table-4(Investment-Cast Alloys- Elongation)	-	6000	-
Cl-7.1, Table-4(Investment-Cast Alloys-Brinell Hardness)	-	6000	-
Cl-7.2(Tensile Tests)	-	6000	-
Cl-7.3(Test Pieces)	-	6000	-
Cl-7.4(Hardness)	-	6000	-
Cl-8(Freedom from Defects)	-	6000	-
Cl-11(RETEST)	-	6000	-
Cl-13(Marking)	-	6000	-
Cl-6.1, Table-1(Si)	-	6000	-
Cl-6.1, Table-1(Fe)	-	6000	-
Cl-6.1, Table-1(Cu)	-	6000	-
Cl-6.1, Table-1(Mn)	-	6000	-
Cl-6.1, Table-1(Mg)	-	6000	-
Cl-6.1, Table-1(Cr)	-	6000	-
Cl-6.1, Table-1(Ni)	-	6000	-
Cl-6.1, Table-1(Zn)	-	6000	-
Cl-6.1, Table-1(Pb)	-	6000	-
Cl-6.1, Table-1(Sn)	-	6000	-
Cl-6.1, Table-1(Ti)	-	6000	-
Cl-6.1, Table-1(Others elements Each)	-	6000	-
Cl-6.1, Table-1(Others elements Total)	-	6000	-
Cl-6.1, Table-1(Aluminium)	-	6000	-
Cl-6.2(The chemical analysis)	-	6000	-
Cl-7.1, Table-2(Sand-Cast Alloys- Tensile Strength)	-	6000	-
Cl-7.1, Table-2(Sand-Cast Alloys- Proof Stress)	-	6000	-
Cl-7.1, Table-2(Sand-Cast Alloys- Elongation)	-	6000	-
Cl-7.1, Table-2(Sand-Cast Alloys- Brinell Hardness HBW)	-	6000	-
Cl-7.1, Table-3(Chill Cast Alloys- Tensile Strength)	-	6000	-
Cl-7.1, Table-3(Chill Cast Alloys- Proof Stress)	-	6000	-
Cl-7.1, Table-3(Chill Cast Alloys- Elongation)	-	6000	-
Cl-7.1, Table-3(Chill Cast Alloys- Brinell Hardness HBW)	-	6000	-
Cl-7.1, Table-4(Investment-Cast Alloys- Tensile Strength)	-	6000	-
Cl-7.1, Table-4(Investment-Cast Alloys- Proof Stress)	-	6000	-
Cl-7.1, Table-4(Investment-Cast Alloys- Elongation)	-	6000	-
Cl-7.1, Table-4(Investment-Cast Alloys-Brinell Hardness)	-	6000	-
Cl-7.2(Tensile Tests)	-	6000	-
Cl-7.3(Test Pieces)	-	6000	-
Cl-7.4(Hardness)	-	6000	-
Cl-8(Freedom from Defects)	-	6000	-
Cl-11(RETEST)	-	6000	-
Cl-13(Marking)	-	6000	-

Complete

05 Oct, 2025

IS/ISO 9994 (2018)

Lighters Safety specifications First Revision

80000 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
Cl.4(Flame Generation)	-	80000	-
Cl.4.2(Flame Height)	-	80000	-
Cl.4.3(Flame-Height adjustment)	-	80000	-
Cl.4.4(Resistance to spitting or sputtering and flaring)	-	80000	-
Cl.4.5(Flame Extinction)	-	80000	-
Cl.4.6(Volumetric displacement of Fuel)	-	80000	-
Cl.4.7(Mass of Fuel)	-	80000	-
Cl.5.1(External Finish)	-	80000	-
Cl.5.2(Compatibility of Fuel)	-	80000	-
Cl.5.3(Resistance to Fuel Loss)	-	80000	-
Cl.5.4(Resistance to dropping)	-	80000	-
Cl.5.5(Resistance to elevated Temperature)	-	80000	-
Cl.5.6(Resistance to internal Pressure)	-	80000	-
Cl.5.7(Burning Behavior)	-	80000	-
Cl.5.8(Resistance to cyclic burning)	-	80000	-
Cl.5.9(Resistance to Continue Burning)	-	80000	-
Cl.4(Flame Generation)	-	80000	-
Cl.4.2(Flame Height)	-	80000	-
Cl.4.3(Flame-Height adjustment)	-	80000	-
Cl.4.4(Resistance to spitting or sputtering and flaring)	-	80000	-
Cl.4.5(Flame Extinction)	-	80000	-
Cl.4.6(Volumetric displacement of Fuel)	-	80000	-
Cl.4.7(Mass of Fuel)	-	80000	-
Cl.5.1(External Finish)	-	80000	-
Cl.5.2(Compatibility of Fuel)	-	80000	-
Cl.5.3(Resistance to Fuel Loss)	-	80000	-
Cl.5.4(Resistance to dropping)	-	80000	-
Cl.5.5(Resistance to elevated Temperature)	-	80000	-
Cl.5.6(Resistance to internal Pressure)	-	80000	-
Cl.5.7(Burning Behavior)	-	80000	-
Cl.5.8(Resistance to cyclic burning)	-	80000	-
Cl.5.9(Resistance to Continue Burning)	-	80000	-
Cl.4(Flame Generation)	-	80000	-
Cl.4.2(Flame Height)	-	80000	-
Cl.4.3(Flame-Height adjustment)	-	80000	-
Cl.4.4(Resistance to spitting or sputtering and flaring)	-	80000	-
Cl.4.5(Flame Extinction)	-	80000	-
Cl.4.6(Volumetric displacement of Fuel)	-	80000	-
Cl.4.7(Mass of Fuel)	-	80000	-
Cl.5.1(External Finish)	-	80000	-
Cl.5.2(Compatibility of Fuel)	-	80000	-
Cl.5.3(Resistance to Fuel Loss)	-	80000	-
Cl.5.4(Resistance to dropping)	-	80000	-
Cl.5.5(Resistance to elevated Temperature)	-	80000	-
Cl.5.6(Resistance to internal Pressure)	-	80000	-
Cl.5.7(Burning Behavior)	-	80000	-
Cl.5.8(Resistance to cyclic burning)	-	80000	-
Cl.5.9(Resistance to Continue Burning)	-	80000	-
6.6, 6.6.3.1(Refilling test-IS/ISO 9994)	-	80000	-
6.6, 6.6.3.2(Refilling test-IS/ISO 9994)	-	80000	-

Complete

05 Oct, 2025

IS 12585 (2023)

SPECIFICATION FOR THERMOPLASTIC HOSES (TEXTILE REINFORCED) FOR WATER - GENERAL PURPOSE ( First Revision of IS 12585 )

15000 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
5(Materials and Construction)	-	15000	-
5(Materials and Construction)	-	15000	-
6.1(Dimensions (Inside diameters and tolerances on inside diameter))	-	15000	-
6.2(Concentricity)	-	15000	-
6.3(Tolerance on Length)	-	15000	-
6.4(Minimum Wall Thickness)	-	15000	-
7, 7.1 -Table 2(Physical Properties-Thermoplastic materials (Minimum Tensile Strength) - Lining)	-	15000	-
7, 7.1 -Table 2(Physical Properties-Thermoplastic materials (Minimum Tensile Strength) - Cover)	-	15000	-
7, 7.1 -Table 2(Physical Properties-Thermoplastic materials (Minimum Elongation at break) - Lining)	-	15000	-
7, 7.1 -Table 2(Physical Properties-Thermoplastic materials (Minimum Elongation at break) - Cover)	-	15000	-
7, 7.1 -Table 2(Physical Properties-Thermoplastic materials-Resistance to ageing (Change in Tensile Strength from original value, max) -Lining)	-	15000	-
7, 7.1 -Table 2(Physical Properties-Thermoplastic materials - Resistance to ageing(Change in Tensile Strength from original value, max) -Cover)	-	15000	-
7, 7.1 -Table 2(Physical Properties-Thermoplastic materials - Resistance to ageing(Change in Elongation at break from original value, max) - Lining)	-	15000	-
7, 7.1 -Table 2(Physical Properties-Thermoplastic materials - Resistance to ageing(Change in Elongation at break from original value, max) - Cover)	-	15000	-
7, 7.1 -Table 2(Physical Properties-Thermoplastic materials - Loss in mass on heating- Lining)	-	15000	-
7, 7.1 -Table 2(Physical Properties-Thermoplastic materials - Loss in mass on heating- Cover)	-	15000	-
7, 7.2 -Table 3(Physical Properties-Finished Hoses - Proof Pressure at 23°C - Type 1)	-	15000	-
7, 7.2 -Table 3(Physical Properties-Finished Hoses - Proof Pressure at 23°C - Type 2)	-	15000	-
7, 7.2 -Table 3(Physical Properties-Finished Hoses - Proof Pressure at 23°C - Type 3)	-	15000	-
7, 7.2 -Table 3(Physical Properties-Finished Hoses - Minimum Burst Pressure at 23°C - Type 1)	-	15000	-
7, 7.2 -Table 3(Physical Properties-Finished Hoses - Minimum Burst Pressure at 23°C - Type 2)	-	15000	-
7, 7.2 -Table 3(Physical Properties-Finished Hoses - Minimum Burst Pressure at 23°C - Type 3)	-	15000	-
7, 7.2 -Table 3(Physical Properties-Finished Hoses - Proof Pressure at 60°C - Type 1)	-	15000	-
7, 7.2 -Table 3(Physical Properties-Finished Hoses - Proof Pressure at 60°C - Type 2)	-	15000	-
7, 7.2 -Table 3(Physical Properties-Finished Hoses - Proof Pressure at 60°C - Type 3)	-	15000	-
7, 7.2 -Table 3(Physical Properties-Finished Hoses - Minimum Burst Pressure at 60°C - Type 1)	-	15000	-
7, 7.2 -Table 3(Physical Properties-Finished Hoses - Minimum Burst Pressure at 60°C - Type 2)	-	15000	-
7, 7.2 -Table 3(Physical Properties-Finished Hoses - Minimum Burst Pressure at 60°C - Type 3)	-	15000	-
7, 7.2 -Table 3(Physical Properties-Finished Hoses - Change in Length at maximum working pressure at 23°C (±8%))	-	15000	-
7, 7.2 -Table 3(Physical Properties-Finished Hoses - Adhesion between components)	-	15000	-
7, 7.2 -Table 3(Physical Properties-Finished Hoses - UV resistance (Xenon-arc lamp))	-	15000	-
7, 7.2 -Table 3(Flexibility at 23°C)	-	15000	-
7, 7.2 -Table 3(Low Temperature flexibility)	-	15000	-

Complete

05 Oct, 2025

IS 617 (1994)

Cast aluminium and its alloys - Ingots and castings for general engineering purposes - Specification (Third Revision)

20000 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
9(TOLERANCES ON DIMENSIONS OF CASTINGS)	-	20000	-
7(FREEDOM FROM DEFECTS)	-	20000	-
6.2(Hardness)	-	20000	-
6, Table 2.(MECHANICAL PROPERTIES OF CASTINGS)	-	20000	-
5, Table 1.(Chemical Composition)	-	20000	-
17(Marking)	-	20000	-
11()	-	20000	-
11(Pressure Test)	-	20000	-
17(Marking)	-	20000	-
11(Pressure Test)	-	20000	-
11(Pressure Test - IS 617)	-	20000	-
13(Marking)	-	20000	-
Table-1, Clause - 5.1(Copper)	-	20000	-
Table-1, Clause - 5.1(Iron)	-	20000	-
Table-1, Clause - 5.1(Magnesium)	-	20000	-
Table-1, Clause - 5.1(Manganese)	-	20000	-
Table-1, Clause - 5.1(Tin)	-	20000	-
Table-1, Clause - 5.1(Silicon)	-	20000	-
Table-1, Clause - 5.1(Nickel)	-	20000	-
Table-1, Clause - 5.1(Zinc)	-	20000	-
Table-1, Clause - 5.1(Other elements (each))	-	20000	-
Table-1, Clause - 5.1(Other elements (Total))	-	20000	-
Table-1, Clause - 5.1(Aluminium)	-	20000	-
Table-1, Clause - 5.1(Titanium)	-	20000	-
Table-1, Clause - 5.1(Lead)	-	20000	-
9(TOLERANCES ON DIMENSIONS OF CASTINGS)	-	20000	-
7(FREEDOM FROM DEFECTS)	-	20000	-
6.2(Hardness)	-	20000	-
6, Table 2.(MECHANICAL PROPERTIES OF CASTINGS)	-	20000	-
5, Table 1.(Chemical Composition)	-	20000	-
17(Marking)	-	20000	-
11()	-	20000	-
11(Pressure Test)	-	20000	-
17(Marking)	-	20000	-
11(Pressure Test)	-	20000	-
11(Pressure Test - IS 617)	-	20000	-
13(Marking)	-	20000	-
Table-1, Clause - 5.1(Copper)	-	20000	-
Table-1, Clause - 5.1(Iron)	-	20000	-
Table-1, Clause - 5.1(Magnesium)	-	20000	-
Table-1, Clause - 5.1(Manganese)	-	20000	-
Table-1, Clause - 5.1(Tin)	-	20000	-
Table-1, Clause - 5.1(Silicon)	-	20000	-
Table-1, Clause - 5.1(Nickel)	-	20000	-
Table-1, Clause - 5.1(Zinc)	-	20000	-
Table-1, Clause - 5.1(Other elements (each))	-	20000	-
Table-1, Clause - 5.1(Other elements (Total))	-	20000	-
Table-1, Clause - 5.1(Aluminium)	-	20000	-
Table-1, Clause - 5.1(Titanium)	-	20000	-
Table-1, Clause - 5.1(Lead)	-	20000	-

Complete

05 Oct, 2025

IS 15355 (2018)

Rubber hoses and hose assemblies for liquefied petroleum gas (L.p.g) in motor vehicles - Specification (First Revision)

40000 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
5.1 ,TABLE 1(Internal diameter)	-	40000	-
5.2(Concentricity)	-	40000	-
5.3(Length)	-	40000	-
6.1(Performance requirements)	-	40000	-
6.2(Visual examination)	-	40000	-
6.3(Rubber compounds)	-	40000	-
6.4(Finished hose)	-	40000	-
7.1(Requirements for fittings)	-	40000	-
7.2(Requirements for fittings)	-	40000	-
8.1(Gas leakage)	-	40000	-
8.2(Minimum burst pressure)	-	40000	-
8.3(Visual examination)	-	40000	-
9.1(Marking)	-	40000	-
9.2(Marking)	-	40000	-
5.1 ,TABLE 1(Internal diameter)	-	40000	-
5.2(Concentricity)	-	40000	-
5.3(Length)	-	40000	-
6.1(Performance requirements)	-	40000	-
6.2(Visual examination)	-	40000	-
6.3(Rubber compounds)	-	40000	-
6.4(Finished hose)	-	40000	-
7.1(Requirements for fittings)	-	40000	-
7.2(Requirements for fittings)	-	40000	-
8.1(Gas leakage)	-	40000	-
8.2(Minimum burst pressure)	-	40000	-
8.3(Visual examination)	-	40000	-
9.1(Marking)	-	40000	-
9.2(Marking)	-	40000	-
5.1 ,TABLE 1(Internal diameter)	-	40000	-
5.2(Concentricity)	-	40000	-
5.3(Length)	-	40000	-
6.1(Performance requirements)	-	40000	-
6.2(Visual examination)	-	40000	-
6.3(Rubber compounds)	-	40000	-
6.4(Finished hose)	-	40000	-
7.1(Requirements for fittings)	-	40000	-
7.2(Requirements for fittings)	-	40000	-
8.1(Gas leakage)	-	40000	-
8.2(Minimum burst pressure)	-	40000	-
8.3(Visual examination)	-	40000	-
9.1(Marking)	-	40000	-
9.2(Marking)	-	40000	-
6.3, Table 2(Minimum Tensile Strength-Lining - ISO 37)	-	40000	-
6.3, Table 2(Minimum Tensile Strength-Cover - ISO 37)	-	40000	-
6.3, Table 2(Minimum Elongation at Break -Lining - ISO 37)	-	40000	-
6.3, Table 2(Minimum Elongation at Break -Cover - ISO 37)	-	40000	-
6.3, Table 2(Resistance to Ageing (3 days at (100±1)²C using the air-oven method in ISO 188:2007- Change in Tensile strength from original value -Lining (±, max) - ISO 37)	-	40000	-
6.3, Table 2(Resistance to Ageing (3 days at (100±1)²C using the air-oven method in ISO 188:2007- Change in Tensile strength from original value -Cover (±, max) - ISO 37)	-	40000	-
6.3, Table 2(Resistance to Ageing (3 days at (100±1)²C using the air-oven method in ISO 188:2007- Change in Elongation at break from original value -Lining - ISO 37)	-	40000	-
6.3, Table 2(Resistance to Ageing (3 days at (100±1)²C using the air-oven method in ISO 188:2007- Change in Elongation at break from original value -Cover - ISO 37)	-	40000	-
6.3, Table 2(Resistance to n-Pentane (Immersion for 72 hours att (23±2)²C in accordance with ISO 1817 - Change in Tensile strength from original value -Lining (±, max) - ISO 37)	-	40000	-
6.3, Table 2(Resistance to n-Pentane (Immersion for 72 hours att (23±2)²C in accordance with ISO 1817 - Change in Tensile strength from original value -Cover (±, max) - ISO 37)	-	40000	-
6.3, Table 2(Resistance to n-Pentane (Immersion for 72 hours att (23±2)²C in accordance with ISO 1817 - Change in Elongation at break from original value -Lining (±, max) - ISO 37)	-	40000	-
6.3, Table 2(Resistance to n-Pentane (Immersion for 72 hours att (23±2)²C in accordance with ISO 1817 - Change in Elongation at break from original value -Cover (±, max) - ISO 37)	-	40000	-
6.3, Table 2(Resistance to n-Pentane (Immersion for 72 hours att (23±2)²C in accordance with ISO 1817 - Change in Volume-Lining (±, max) - ISO 37)	-	40000	-
6.3, Table 2(Resistance to n-Pentane (Immersion for 72 hours att (23±2)²C in accordance with ISO 1817 - Change in Volume-Cover (±, max) - ISO 37)	-	40000	-
6.4, Table 3(Proof Pressure- ISO 1402, hold for 10 miniute)	-	40000	-
6.4, Table 3(Minimum Burst Pressure -ISO 1402)	-	40000	-
6.4, Table 3(Adhesion between lining and reinforcement and between reinforcement and cover (min) - ISO 8033)	-	40000	-
6.4, Table 3(Ozone Resistance -ISO 7326:2006, method 2 ; Ozone concentration (100±5) parts per million ; Temperature (40±1) °C and 50±5 % Relative Humidity for 72 h at 20% Elongation)	-	40000	-
6.4, Table 3(Low Temperature flexibility - ISO 4672-1997, method B at ( -40 ± 2 )°C)	-	40000	-
6.4, Table 3(Permeability to propane gas (max) - ISO 4080-2009, method 3 ; use hose size 19 for test , adjust waterbath temperature to maintain a hose pressure of ( 1 ± 0.02 ) Mpa (0.007 cm³/(m².s) or 36.0 cm³/m of hose in 24 h)	-	40000	-
5.1 ,TABLE 1(Internal diameter)	-	40000	-
5.2(Concentricity)	-	40000	-
5.3(Length)	-	40000	-
6.1(Performance requirements)	-	40000	-
6.2(Visual examination)	-	40000	-
6.3(Rubber compounds)	-	40000	-
6.4(Finished hose)	-	40000	-
7.1(Requirements for fittings)	-	40000	-
7.2(Requirements for fittings)	-	40000	-
8.1(Gas leakage)	-	40000	-
8.2(Minimum burst pressure)	-	40000	-
8.3(Visual examination)	-	40000	-
9.1(Marking)	-	40000	-
9.2(Marking)	-	40000	-
6.3, Table 2(Minimum Tensile Strength-Lining - ISO 37)	-	40000	-
6.3, Table 2(Minimum Tensile Strength-Cover - ISO 37)	-	40000	-
6.3, Table 2(Minimum Elongation at Break -Lining - ISO 37)	-	40000	-
6.3, Table 2(Minimum Elongation at Break -Cover - ISO 37)	-	40000	-
6.3, Table 2(Resistance to Ageing (3 days at (100±1)²C using the air-oven method in ISO 188:2007- Change in Tensile strength from original value -Lining (±, max) - ISO 37)	-	40000	-
6.3, Table 2(Resistance to Ageing (3 days at (100±1)²C using the air-oven method in ISO 188:2007- Change in Tensile strength from original value -Cover (±, max) - ISO 37)	-	40000	-
6.3, Table 2(Resistance to Ageing (3 days at (100±1)²C using the air-oven method in ISO 188:2007- Change in Elongation at break from original value -Lining - ISO 37)	-	40000	-
6.3, Table 2(Resistance to Ageing (3 days at (100±1)²C using the air-oven method in ISO 188:2007- Change in Elongation at break from original value -Cover - ISO 37)	-	40000	-
6.3, Table 2(Resistance to n-Pentane (Immersion for 72 hours att (23±2)²C in accordance with ISO 1817 - Change in Tensile strength from original value -Lining (±, max) - ISO 37)	-	40000	-
6.3, Table 2(Resistance to n-Pentane (Immersion for 72 hours att (23±2)²C in accordance with ISO 1817 - Change in Tensile strength from original value -Cover (±, max) - ISO 37)	-	40000	-
6.3, Table 2(Resistance to n-Pentane (Immersion for 72 hours att (23±2)²C in accordance with ISO 1817 - Change in Elongation at break from original value -Lining (±, max) - ISO 37)	-	40000	-
6.3, Table 2(Resistance to n-Pentane (Immersion for 72 hours att (23±2)²C in accordance with ISO 1817 - Change in Elongation at break from original value -Cover (±, max) - ISO 37)	-	40000	-
6.3, Table 2(Resistance to n-Pentane (Immersion for 72 hours att (23±2)²C in accordance with ISO 1817 - Change in Volume-Lining (±, max) - ISO 37)	-	40000	-
6.3, Table 2(Resistance to n-Pentane (Immersion for 72 hours att (23±2)²C in accordance with ISO 1817 - Change in Volume-Cover (±, max) - ISO 37)	-	40000	-
6.4, Table 3(Proof Pressure- ISO 1402, hold for 10 miniute)	-	40000	-
6.4, Table 3(Minimum Burst Pressure -ISO 1402)	-	40000	-
6.4, Table 3(Adhesion between lining and reinforcement and between reinforcement and cover (min) - ISO 8033)	-	40000	-
6.4, Table 3(Ozone Resistance -ISO 7326:2006, method 2 ; Ozone concentration (100±5) parts per million ; Temperature (40±1) °C and 50±5 % Relative Humidity for 72 h at 20% Elongation)	-	40000	-
6.4, Table 3(Low Temperature flexibility - ISO 4672-1997, method B at ( -40 ± 2 )°C)	-	40000	-
6.4, Table 3(Permeability to propane gas (max) - ISO 4080-2009, method 3 ; use hose size 19 for test , adjust waterbath temperature to maintain a hose pressure of ( 1 ± 0.02 ) Mpa (0.007 cm³/(m².s) or 36.0 cm³/m of hose in 24 h)	-	40000	-
5.1 ,TABLE 1(Internal diameter)	-	40000	-
5.2(Concentricity)	-	40000	-
5.3(Length)	-	40000	-
6.1(Performance requirements)	-	40000	-
6.2(Visual examination)	-	40000	-
6.3(Rubber compounds)	-	40000	-
6.4(Finished hose)	-	40000	-
7.1(Requirements for fittings)	-	40000	-
7.2(Requirements for fittings)	-	40000	-
8.1(Gas leakage)	-	40000	-
8.2(Minimum burst pressure)	-	40000	-
8.3(Visual examination)	-	40000	-
9.1(Marking)	-	40000	-
9.2(Marking)	-	40000	-
6.3, Table 2(Minimum Tensile Strength-Lining - ISO 37)	-	40000	-
6.3, Table 2(Minimum Tensile Strength-Cover - ISO 37)	-	40000	-
6.3, Table 2(Minimum Elongation at Break -Lining - ISO 37)	-	40000	-
6.3, Table 2(Minimum Elongation at Break -Cover - ISO 37)	-	40000	-
6.3, Table 2(Resistance to Ageing (3 days at (100±1)²C using the air-oven method in ISO 188:2007- Change in Tensile strength from original value -Lining (±, max) - ISO 37)	-	40000	-
6.3, Table 2(Resistance to Ageing (3 days at (100±1)²C using the air-oven method in ISO 188:2007- Change in Tensile strength from original value -Cover (±, max) - ISO 37)	-	40000	-
6.3, Table 2(Resistance to Ageing (3 days at (100±1)²C using the air-oven method in ISO 188:2007- Change in Elongation at break from original value -Lining - ISO 37)	-	40000	-
6.3, Table 2(Resistance to Ageing (3 days at (100±1)²C using the air-oven method in ISO 188:2007- Change in Elongation at break from original value -Cover - ISO 37)	-	40000	-
6.3, Table 2(Resistance to n-Pentane (Immersion for 72 hours att (23±2)²C in accordance with ISO 1817 - Change in Tensile strength from original value -Lining (±, max) - ISO 37)	-	40000	-
6.3, Table 2(Resistance to n-Pentane (Immersion for 72 hours att (23±2)²C in accordance with ISO 1817 - Change in Tensile strength from original value -Cover (±, max) - ISO 37)	-	40000	-
6.3, Table 2(Resistance to n-Pentane (Immersion for 72 hours att (23±2)²C in accordance with ISO 1817 - Change in Elongation at break from original value -Lining (±, max) - ISO 37)	-	40000	-
6.3, Table 2(Resistance to n-Pentane (Immersion for 72 hours att (23±2)²C in accordance with ISO 1817 - Change in Elongation at break from original value -Cover (±, max) - ISO 37)	-	40000	-
6.3, Table 2(Resistance to n-Pentane (Immersion for 72 hours att (23±2)²C in accordance with ISO 1817 - Change in Volume-Lining (±, max) - ISO 37)	-	40000	-
6.3, Table 2(Resistance to n-Pentane (Immersion for 72 hours att (23±2)²C in accordance with ISO 1817 - Change in Volume-Cover (±, max) - ISO 37)	-	40000	-
6.4, Table 3(Proof Pressure- ISO 1402, hold for 10 miniute)	-	40000	-
6.4, Table 3(Minimum Burst Pressure -ISO 1402)	-	40000	-
6.4, Table 3(Adhesion between lining and reinforcement and between reinforcement and cover (min) - ISO 8033)	-	40000	-
6.4, Table 3(Ozone Resistance -ISO 7326:2006, method 2 ; Ozone concentration (100±5) parts per million ; Temperature (40±1) °C and 50±5 % Relative Humidity for 72 h at 20% Elongation)	-	40000	-
6.4, Table 3(Low Temperature flexibility - ISO 4672-1997, method B at ( -40 ± 2 )°C)	-	40000	-
6.4, Table 3(Permeability to propane gas (max) - ISO 4080-2009, method 3 ; use hose size 19 for test , adjust waterbath temperature to maintain a hose pressure of ( 1 ± 0.02 ) Mpa (0.007 cm³/(m².s) or 36.0 cm³/m of hose in 24 h)	-	40000	-

Complete

05 Oct, 2025

IS 737 (2008)

Wrought aluminium and aluminium alloy sheet and strip for general engineering purposes - Specification (Fourth Revision)

8000 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
5.0(Freedom from defects)	-	8000	-
6 Table-1(Al)	-	8000	-
6 Table-1(Cu)	-	8000	-
6 Table-1(Mg)	-	8000	-
6 Table-1(Si)	-	8000	-
6 Table-1(Fe)	-	8000	-
6 Table-1(Mn)	-	8000	-
6 Table-1(Zn)	-	8000	-
6 Table-1(Ti)	-	8000	-
6 Table-1(Cr)	-	8000	-
6 Table-1(Cu+Si+Fe)	-	8000	-
6 Table-1(Cu+Si+Fe+Mn+Zn)	-	8000	-
6 Table-1(Cu+Mg+Si+Fe+Mn+Zn)	-	8000	-
6 Table-1(Zr)	-	8000	-
6 Table-1(Cr+Mn)	-	8000	-
7 Table-2(Tensile Strength)	-	8000	-
7 Table-2(Elongation)	-	8000	-
7 Table-2(0.2 % Proof Stress)	-	8000	-
7 Table-2(Bend Test)	-	8000	-
9(Dimension - IS 2676)	-	8000	-
12(Marking)	-	8000	-
9(Dimension - IS 2676)	-	8000	-
12(Marking)	-	8000	-

Complete

05 Oct, 2025

IS 6912 (2005)

Copper and copper alloys forging stock and forging - Specification (Second Revision)

6000 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
Cl. No.4(SUPPLY OF MATERIAL)	-	6000	-
Cl. No.6(Freedom from defects)	-	6000	-
Cl. No.7, Table no. 1("DIMENSIONS AND TOLERANCES ")	-	6000	-
Cl. No.8.1, Table no.2(i)(Electrolytic tough pitch through copper)	-	6000	-
Cl. No.8.1, Table no.2(ii)(Fire refined high conductivity copper)	-	6000	-
Cl. No.8.1, Table no.2(iii)(Phosporus deoxidised arsenical copper)	-	6000	-
Cl. No.8.1, Table no.3(Chemical Composition and Mechanical Properties of Brasses)	-	6000	-
Cl.no.8.1, Table no. 4(Chemical Composition and Mechanical Properties of Bronzes)	-	6000	-
Cl.no.9(Mechanical properties)	-	6000	-
Cl.no.10(Forgability Test)	-	6000	-
Cl. No. 11(Mercurous Nitrate Test (For Forgings))	-	6000	-
Cl. No.15(Marking)	-	6000	-
Cl. No.4(SUPPLY OF MATERIAL)	-	6000	-
Cl. No.6(Freedom from defects)	-	6000	-
Cl. No.7, Table no. 1("DIMENSIONS AND TOLERANCES ")	-	6000	-
Cl. No.8.1, Table no.2(i)(Electrolytic tough pitch through copper)	-	6000	-
Cl. No.8.1, Table no.2(ii)(Fire refined high conductivity copper)	-	6000	-
Cl. No.8.1, Table no.2(iii)(Phosporus deoxidised arsenical copper)	-	6000	-
Cl. No.8.1, Table no.3(Chemical Composition and Mechanical Properties of Brasses)	-	6000	-
Cl.no.8.1, Table no. 4(Chemical Composition and Mechanical Properties of Bronzes)	-	6000	-
Cl.no.9(Mechanical properties)	-	6000	-
Cl.no.10(Forgability Test)	-	6000	-
Cl. No. 11(Mercurous Nitrate Test (For Forgings))	-	6000	-
Cl. No.15(Marking)	-	6000	-

Complete

05 Oct, 2025

IS 10908 (2023)

FLEXIBLE RUBBER TUBING FOR LIQUEFIED PETROLEUM GAS SPECIFICATION Second Revision

20000 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
4.1(The materials used in the manufacture of tubing shall be homogeneous and shall be resistant to outdoor exposure.)	-	20000	-
4.1(The tubing made out of this material shall be green in colour and shall be supplied normally in cut lengths or in rolls of running length)	-	20000	-
4.1("when supplied in cut lengths, the pieces shall be of minimum 1.0 m to maximum of 1.5 m in length. ")	-	20000	-
4.2(The walls shall be seamless and free from all visible defects, such as lumps, blow-holes, cracks etc and the bore shall be clean and free from loose particles which might be carried forward by the gas.)	-	20000	-
4.3.1(The tubing when supplied in 6.4 mm inside diameter; the tolerance as per table-1)	-	20000	-
4.3.1(The tubing when supplied in 7.00 mm inside diameter; the tolerance as per table-1)	-	20000	-
4.3.2(It shall comply with thickness as given in Table 1, when measured according to IS 443 (Part 8). The readings shall be taken on a set of six test pieces cut from different sample sections.(For Wall thickness 3.20 mm))	-	20000	-
4.3.2(It shall comply with thickness as given in Table 1, when measured according to IS 443 (Part 8). The readings shall be taken on a set of six test pieces cut from different sample sections.(For Wall thickness 3.50 mm))	-	20000	-
4.4.1(When tested in accordance with the method given in Annex B, the tubing shall fit over the standard and oversize metal nozzle shown in Fig. 1, 2 and 3.)	-	20000	-
4.4.2("When tested in accordance with the method given in Annex B, the tubing shall remain attached to both nozzles throughout the test period. ")	-	20000	-
4.5(When immersed in water for 5 min under an internal air pressure of 0.25 MPa or 250 kPa (2.5 bar), the increase in the outside diameter or the tubing shall not be more than 15 percent.)	-	20000	-
4.5(When immersed in water for 5 min under an internal air pressure of 0.25 MPa or 250 kPa (2.5 bar), there shall be no sign of leakage in the tubing. Also the same shall not burst when the pressure is increased to 0.5 MPa or 500 kPa (5 bar), The test shall be carried out on a length of 60 cm.)	-	20000	-
4.6(The hardness on the flat surface of the cut/slit tubing shall be measured as prescribed in IS 3400 (Part 2/Sec 4), the shore hardness shall be 60 ± 5°A.)	-	20000	-
4.7("The flexible tubing or suitable portion of the tubing shall be subjected to accelerated ageing at a temperature of 100 °C for 72 h in accordance with the normal method prescribed in IS 3400 (Part 4). It shall not show a change of + 10° A of its original shore hardness value (see 4.6) after accelerated ageing")	-	20000	-
4.8.1("The tubing shall be immersed for 72 h in liquid pentane and then conditioned at room temperature for 24 h, after which it shall be tested in accordance with the method prescribed in Annex C, the gas pressure shown on the manometer shall not drop by more than 1 kPa")	-	20000	-
4.8.2(The tubing shall be so flexible that it will make contact with a cylindrical former of radius 68 mm for at least 110° of its circumference when the immersed tubing is placed over the former and a mass of 1.6 kg is attached to each end.)	-	20000	-
4.9(60 cm long tubing shall be subjected to a crushing force of 350 N applied on the middle of the tubing evenly over a length of 25 mm for 5 minutes, and 30 min after removal of the force it shall not show any deformation or collapse, nor shall it leak when subjected to an internal air pressure of 250 kPa)	-	20000	-
4.10(When tested in accordance with Annex D, the npentane absorbed shall not exceed 15 percent of the initial mass of the tubing and the amount of npentane extractable matter shall not exceed 10 percent of the initial mass of tubing.)	-	20000	-
4.11("When tested in accordance with the method described in Annex E, the slit tube shall not show any breakage on surface or cracks or defects.")	-	20000	-
4.12("When tested in accordance with the method described in Annex F, the tubing shall not burn to either of the outer marks within the test period of 45 s")	-	20000	-

Complete

05 Oct, 2025

IS 1285 (2023)

WROUGHT ALUMINIUM AND ALUMINIUM ALLOYS EXTRUDED ROUND TUBE AND HOLLOW SECTIONS FOR GENERAL ENGINEERINGPURPOSES SPECIFICATION

15000 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
6.1("The extruded round tube and hollow sections shall be sound and visually free from harmful defects. ")	-	15000	-
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.)	-	15000	-
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.")	-	15000	-
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. ")	-	15000	-
10(Tensile test)	-	15000	-

Complete

05 Oct, 2025

IS 4159 (2021)

Mineral Filled Sheathed Heating Elements

15000 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
"Cl. 6 IS 4159:2021"(Classification)	-	15000	-
"Cl. 8 IS 4159:2021"(Protection against access to live parts)	-	15000	-
"Cl. 9 IS 4159:2021"(Starting of motor operated appliances)	-	15000	-
"Cl. 10 IS 4159:2021"(Power Input and Current)	-	15000	-
"Cl. 11 IS 4159:2021"(Heating)	-	15000	-
"Cl. 13 IS 4159:2021"(Leakage Current & Electrical Strength at Operating Temperature)	-	15000	-
"Cl. 14 IS 4159:2021"(Transient Over Voltage)	-	15000	-
"Cl. 15 IS 4159:2021"(Moisture Resistance)	-	15000	-
"Cl. 16 IS 4159:2021"(Leakage Current and Electric strength)	-	15000	-
"Cl. 17 IS 4159:2021"(Overload protection of transformers and associated circuits.)	-	15000	-
"Cl. 18 IS 4159:2021"(Endurance)	-	15000	-
"Cl. 19 IS 4159:2021"(Abnormal Operation)	-	15000	-
"Cl. 20 IS 4159:2021"(Stability and mechanical Hazards)	-	15000	-
"Cl. 21 IS 4159:2021"(Mechanical Strength)	-	15000	-
"Cl. 22 IS 4159:2021"(Construction)	-	15000	-
"Cl. 23 IS 4159:2021"(Internal Wiring)	-	15000	-
"Cl. 24 IS 4159:2021"(Components)	-	15000	-
"Cl. 25 IS 4159:2021"(Supply Connections and External Flexible Cables and Cords)	-	15000	-
"Cl. 26 IS 4159:2021"(Terminal For External Conductors)	-	15000	-
"Cl. 27 IS 4159:2021"(Provision For Earthing)	-	15000	-
"Cl. 28 IS 4159:2021"(Screws and Connections)	-	15000	-
"Cl. 29 IS 4159:2021"(Creepage Distances, Clearances And Distances Through Insulation)	-	15000	-
"Cl. 30 IS 4159:2021"(Resistance To Heat, Fire And Tracking)	-	15000	-
"Cl. 31 IS 4159:2021"(Resistance To Rusting)	-	15000	-
"Cl. 102 IS 4159:2021"(Leakage and hydrostatic strength (for oil heating elements))	-	15000	-
Cl.22.106(CONSTRUCTION)	-	15000	-
"Cl. 6 IS 4159:2021"(Classification)	-	15000	-
"Cl. 8 IS 4159:2021"(Protection against access to live parts)	-	15000	-
"Cl. 9 IS 4159:2021"(Starting of motor operated appliances)	-	15000	-
"Cl. 10 IS 4159:2021"(Power Input and Current)	-	15000	-
"Cl. 11 IS 4159:2021"(Heating)	-	15000	-
"Cl. 13 IS 4159:2021"(Leakage Current & Electrical Strength at Operating Temperature)	-	15000	-
"Cl. 14 IS 4159:2021"(Transient Over Voltage)	-	15000	-
"Cl. 15 IS 4159:2021"(Moisture Resistance)	-	15000	-
"Cl. 16 IS 4159:2021"(Leakage Current and Electric strength)	-	15000	-
"Cl. 17 IS 4159:2021"(Overload protection of transformers and associated circuits.)	-	15000	-
"Cl. 18 IS 4159:2021"(Endurance)	-	15000	-
"Cl. 19 IS 4159:2021"(Abnormal Operation)	-	15000	-
"Cl. 20 IS 4159:2021"(Stability and mechanical Hazards)	-	15000	-
"Cl. 21 IS 4159:2021"(Mechanical Strength)	-	15000	-
"Cl. 22 IS 4159:2021"(Construction)	-	15000	-
"Cl. 23 IS 4159:2021"(Internal Wiring)	-	15000	-
"Cl. 24 IS 4159:2021"(Components)	-	15000	-
"Cl. 25 IS 4159:2021"(Supply Connections and External Flexible Cables and Cords)	-	15000	-
"Cl. 26 IS 4159:2021"(Terminal For External Conductors)	-	15000	-
"Cl. 27 IS 4159:2021"(Provision For Earthing)	-	15000	-
"Cl. 28 IS 4159:2021"(Screws and Connections)	-	15000	-
"Cl. 29 IS 4159:2021"(Creepage Distances, Clearances And Distances Through Insulation)	-	15000	-
"Cl. 30 IS 4159:2021"(Resistance To Heat, Fire And Tracking)	-	15000	-
"Cl. 31 IS 4159:2021"(Resistance To Rusting)	-	15000	-
"Cl. 102 IS 4159:2021"(Leakage and hydrostatic strength (for oil heating elements))	-	15000	-
Cl.22.106(CONSTRUCTION)	-	15000	-

Complete

05 Oct, 2025

IS 4246 (2002)

Domestic gas stoves for use with liquefied petroleum gases - Specification (Fifth Revision)

15000 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
4.1(Requirement)	-	15000	-
5(Materials)	-	15000	-
6(Design for Maintenance)	-	15000	-
7(Rigidity and Stability)	-	15000	-
8(Workmanship and Finish)	-	15000	-
9(Gas Taps)	-	15000	-
10(Injector Jets)	-	15000	-
11(Burners)	-	15000	-
12(Burner Pan Supports)	-	15000	-
13.1(Gas Soundness)	-	15000	-
14(Gas Inlet Connections)	-	15000	-
15(Strength and Rigidity)	-	15000	-
17.1.1(Gas Consumption)	-	15000	-
18(Ignition and Flame Travel)	-	15000	-
19(Flame Stability)	-	15000	-
20(Noise Control)	-	15000	-
21(Flash Back)	-	15000	-
22(Formation of Soot)	-	15000	-
23(Resistance to Draught)	-	15000	-
24(Combustion)	-	15000	-
25(Fire Hazard and Limiting Temperature)	-	15000	-
26(Thermal Efficiency)	-	15000	-
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.)	-	900	NA
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).)	-	900	NA
24 (Annex - E)(Combustion (CO and CO2 ratio))	-	15000	-
27.1(Type Tests)	-	15000	-
27.2(Routine Tests)	-	15000	-
29(Marking)	-	0	-
30(Packing)	-	0	-
13.2(Gas Leak Detector)	-	15000	-
16(General Conditions of Test)	-	0	-

Complete

05 Oct, 2025

IS 204 : Part 2 (1992)

Tower bolts - Specification: Part 2 non - Ferrous metals (Fifth Revision)

3500 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
4 -Table 3- i (Ref. Cl 8, Table 1 Designation 63400 of IS 1285 : 2002)(Chemical composition - others - IS 504)	-	200	-
4 -Table 3- i (Ref. Cl 8, Table 1 Designation 63400 of IS 1285 : 2002)(Chemical composition - Chromium - IS 504)	-	200	-
4 -Table 3- i (Ref. Cl 8 , Table 1 Designation 63400 of IS 1285 : 2002)(Chemical composition - Titanium - IS 504)	-	200	-
4 -Table 3- i (Ref. Cl 8, Table 1 Designation 63400 of IS 1285 : 2002)(Chemical composition - Zinc - IS 504)	-	200	-
4 -Table 3- i (Ref. Cl 8, Table 1 Designation 63400 of IS 1285 : 2002)(Chemical composition - Manganese - IS 504)	-	200	-
4 -Table 3- i (Ref. Cl 8 , Table 1 Designation 63400 of IS 1285 : 2002)(Chemical composition - Iron - IS 504)	-	200	-
4 -Table 3- i (Ref. Cl 8, Table 1 Designation 63400 of IS 1285 : 2002)(Chemical composition - Silicon - IS 504)	-	200	-
4 -Table 3- i (Ref. Cl 8, Table 1 Designation 63400 of IS 1285 : 2002)(Chemical composition - Magnesium - IS 504)	-	200	-
4 -Table 3- i (Ref. Cl 8 , Table 1 Designation 63400 of IS 1285 : 2002)(Chemical composition - Copper - IS 504)	-	200	-
4 -Table 3- i (Ref. Cl 8, Table 1 Designation 63400 of IS 1285 : 2002)(Chemical composition - Aluminium - IS 504)	-	200	-
4 -Table 3- ii (Ref. Cl 5.1, Table 1 Designation 65032 of IS 733 : 1983)(Chemical composition - Chromium - IS 504)	-	200	-
4 -Table 3- ii (Ref. Cl 5.1 , Table 1 Designation 65032 of IS 733 : 1983)(Chemical composition - Titanium and or other grain refining elements - IS 504)	-	200	-
4 -Table 3- ii (Ref. Cl 5.1 , Table 1 Designation 65032 of IS 733 : 1983)(Chemical composition - Zinc - IS 504)	-	200	-
4 -Table 3- ii (Ref. Cl 5.1 , Table 1 Designation 65032 of IS 733 : 1983)(Chemical composition - Manganese - IS 504)	-	200	-
4 -Table 3- ii (Ref. Cl 5.1 , Table 1 Designation 65032 of IS 733 : 1983)(Chemical composition - Iron - IS 504)	-	200	-
4 -Table 3- ii (Ref. Cl 5.1, Table 1 Designation 65032 of IS 733 : 1983)(Chemical composition - Silicon - IS 504)	-	200	-
4 -Table 3- ii (Ref. Cl 5.1 , Table 1 Designation 65032 of IS 733 : 1983)(Chemical composition - Magnesium - IS 504)	-	200	-
4 -Table 3- ii (Ref. Cl 5.1 , Table 1 Designation 65032 of IS 733 : 1983)(Chemical composition - Copper - IS 504)	-	200	-
4 -Table 3- ii (Ref. Cl 5.1, Table 1 Designation 65032 of IS 733 : 1983)(Chemical composition - Aluminium - IS 504)	-	200	-
4 -Table 3- iii (Ref. Cl 6.1, Table 1 Designation CuZn40 of IS 410 : 1977)(Chemical composition - Zinc - IS 3635:1966)	-	200	-
4 -Table 3- iii (Ref. Cl 6.1, Table 1 Designation CuZn40 of IS 410 : 1977)(Chemical composition - Total impurities (including Iron) - IS 3635:1966)	-	200	-
4 -Table 3- iii (Ref. Cl 6.1, Table 1 Designation CuZn40 of IS 410 : 1977)(Chemical composition - Iron - IS 3635:1966)	-	200	-
4 -Table 3- iii (Ref. Cl 6.1 , Table 1 Designation CuZn40 of IS 410 : 1977)(Chemical composition - Lead - IS 3635:1966)	-	200	-
4 -Table 3- iii (Ref. Cl 6.1 , Table 1 Designation CuZn40 of IS 410 : 1977)(Chemical composition - Copper - IS 3635:1966)	-	200	-
4 -Table 3- iv (Ref. Cl 3.1, Table 1 Grade CB-2 of IS 292 : 1983)(Chemical composition - Zinc - IS 3685:1966)	-	200	-
4 -Table 3- iv (Ref. Cl 3.1, Table 1 Grade CB-2 of IS 292 : 1983)(Chemical composition - Aluminium - IS 3685:1966)	-	200	-
4 -Table 3- iv (Ref. Cl 3.1, Table 1 Grade CB-2 of IS 292 : 1983)(Chemical composition - Iron - IS 3685:1966)	-	200	-
4 -Table 3- iv (Ref. Cl 3.1, Table 1 Grade CB-2 of IS 292 : 1983)(Chemical composition - Tin - IS 3685:1966)	-	200	-
4 -Table 3- iv (Ref. Cl 3.1, Table 1 Grade CB-2 of IS 292 : 1983)(Chemical composition - Nickel - IS 3685:1966)	-	200	-
4 -Table 3- iv (Ref. Cl 3.1, Table 1 Grade CB-2 of IS 292 : 1983)(Chemical composition - Copper plus incidental nickel - IS 3685:1966)	-	200	-
4 -Table 3- v (Ref. Cl 8.1, Table 1 Grade II of IS 319 : 1974)(Chemical composition - Copper - IS 3685:1966)	-	200	-
4 -Table 3- v (Ref. Cl 8.1, Table 1 Grade II of IS 319 : 1974)(Chemical composition - Lead - IS 3685:1966)	-	200	-
4 -Table 3- v (Ref. Cl 8.1, Table 1 Grade II of IS 319 : 1974)(Chemical composition - Iron - IS 3685:1966)	-	200	-
4 -Table 3- v (Ref. Cl 8.1, Table 1 Grade II of IS 319 : 1974)(Chemical composition - Total other impurities excluding iron - IS 3685:1966)	-	200	-
4 -Table 3- v (Ref. Cl 8.1, Table 1 Grade II of IS 319 : 1974)(Chemical composition - Zinc- IS 3685:1966)	-	200	-
4 -Table 3- vi (Ref. Cl 4.1, Table 1 Alloy ZnAl4 of IS 742 : 1981)(Chemical composition - Aluminium- IS 2600:1964)	-	200	-
4 -Table 3- vi (Ref. Cl 4.1, Table 1 Alloy ZnAl4 of IS 742 : 1981)(Chemical composition - Magnesium- IS 2600:1964)	-	200	-
4 -Table 3- vi (Ref. Cl 4.1, Table 1 Alloy ZnAl4 of IS 742 : 1981)(Chemical composition - Impurities-Copper- IS 2600:1964)	-	200	-
4 -Table 3- vi (Ref. Cl 4.1, Table 1 Alloy ZnAl4 of IS 742 : 1981)(Chemical composition - Impurities-Iron- IS 2600:1964)	-	200	-
4 -Table 3- vi (Ref. Cl 4.1, Table 1 Alloy ZnAl4 of IS 742 : 1981)(Chemical composition - Impurities-Lead- IS 2600:1964)	-	200	-
4 -Table 3- vi (Ref. Cl 4.1, Table 1 Alloy ZnAl4 of IS 742 : 1981)(Chemical composition - Impurities-Cadmium- IS 2600:1964)	-	200	-
4 -Table 3- vi (Ref. Cl 4.1, Table 1 Alloy ZnAl4 of IS 742 : 1981)(Chemical composition - Impurities-Tin- IS 2600:1964)	-	200	-
4 -Table 3- vi (Ref. Cl 4.1, Table 1 Alloy ZnAl4 of IS 742 : 1981)(Chemical composition - Impurities-Thallium and Indium- IS 2600:1964)	-	200	-
4 -Table 3- vi (Ref. Cl 4.1, Table 1 Alloy ZnAl4 of IS 742 : 1981)(Chemical composition - Impurities-Nickel- IS 2600:1964)	-	200	-
4 -Table 3- vi (Ref. Cl 4.1, Table 1 Alloy ZnAl4 of IS 742 : 1981)(Chemical composition - Zinc- IS 2600:1964)	-	200	-
5.1(General)	-	1500	-
5.2.1 Table 1(Particulars-Barrel Tower Bolts)	-	1500	-
5.2.2 Table 2(Particulars-Skeleton Tower Bolts)	-	1500	-
6.1- Table 1(Dimension of Barrel tower bolts-1.Size 2.Length of Bolt or Barrel-(A or B) 4.Width of Barrel-C 5.Dia of Bolt-D 6.Length of Socket-E 7.Thickness of Metal of Barrel (Brass or Zink Alloy/Aluminium alloy/Sheet Brass)-F 8.Dia of bore of barrel or socket- G )	-	1500	-
6.1- Table 1(Dimension of barrel tower bolts-Minimum No. of equally Spaced holes in Barrel & Socket for wooden screw no 6)	-	1500	-
6.2- Table 2(Dimension of Skeleton Tower Bolts 1.Size 2.Length of Bolt -A 3.Length of Bolt Plate -B 4.Width of Bolt Plate or Staple-C 5.Dia of Bolt-D 6.Length of Staple-E 7.Thickness of Plate or Socket (Brass /Aluminium alloy or Zink Alloy)-F 8.Dia of bore of Plate or Staple-G 9.Dia of shank of Knob )	-	1500	-
6.2- Table 2(Dimension of Skeleton Tower Bolts- Nos of Staples)	-	1500	-
6.2- Table 2(Dimension of Skeleton Tower Bolts-Minimum No. of Screw holes for wood screw no 4)	-	1500	-
6.2- Table 3(PACKING)	-	0	-
7(Finish)	-	1500	-
8(Packing)	-	0	-
9(Scale of sampling)	-	0	-
10(Marking)	-	0	-

Complete

05 Oct, 2025

IS 2347 (2023)

DOMESTIC PRESSURE COOKER ï¿½ SPECIFICATION

35000 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
4.1(Gross capacity)	-	1500	-
4.2(Body Capacity)	-	1500	-
5.1(Body, Lid, Containers and Grid)	-	1500	-
5.1.2(Body and Lid )	-	1500	-
5.1.3(Stainless steel pressure cooker)	-	5000	-
5.1.4(Aluminium cooker )	-	5000	-
5.3(Gasket)	-	7000	-
5.4(Handles and Knobs)	-	15000	-
5.5(Pressure Regulating Device )	-	2000	-
5.6(Vent Seal Pin for Pressure Regulating Device )	-	2000	-
5.7(Vent Pipe )	-	2000	-
5.8(Vent Pipe Nut )	-	2000	-
5.9(Spring )	-	200	-
5.1(Material of Rim )	-	2000	-
5.11(Visual Pressure Indicator)	-	3000	-
5.12(Gasket Release System)	-	3000	-
6(Construction)	-	5000	-
7(Workmanship and Finish )	-	5000	-
8.1(Air Pressure Test )	-	5000	-
8.2(Proof Pressure Test )	-	5000	-
8.3(Operating Test for Pressure Regulating Device )	-	5000	-
8.4(Test for Safety Relief Device )	-	5000	-
8.5(Bursting Pressure Test )	-	5000	-
8.6(Test for Removal of Lid under Pressure )	-	5000	-
8.7(Test for Spring Loaded Mechanism )	-	5000	-
8.8(Composite Cooker Base )	-	5000	-
8.9(Aluminium induction compatible Base )	-	5000	-
8.1(Handles of cooker )	-	5000	-
8.11(External Coating)	-	5000	-
8.12(Internal Coating )	-	5000	-
8.13(Integral electrical heating)	-	7500	-
8.14(Ply construction cooker Body )	-	7500	-
8.15.1(Fragmentation Test )	-	1000	-
8.15.2(Ball Drop Test )	-	1000	-
8.15.3(Thermal Shock Test )	-	2000	-
8.15.4(Free Fall Test)	-	2000	-
8.17(Test for Effectiveness for Induction Bottom)	-	2500	-
11(Marking )	-	100	-
12(Packing )	-	100	-
5.2(Safety Relief Device)	-	2500	-

Complete

05 Oct, 2025

IS 204 : Part 1 (1991)

Tower bolts - Specification: Part 1 ferrous metals (Fifth Revision)

3000 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
4 -Table 5- i (Ref. Cl 7, Table 3, HR1 grade of IS 1079 : 2017)(Chemical composition - Carbon - IS 228)	-	500	-
4 -Table 5- i (Ref. Cl 7, Table 3, HR1 grade of IS 1079 : 2017)(Chemical composition - Manganese - IS 228)	-	200	-
4 -Table 5- i (Ref. Cl 7, Table 3, HR1 grade of IS 1079 : 2017)(Chemical composition - Phosphorus - IS 228)	-	200	-
4 -Table 5- i (Ref. Cl 7, Table 3, HR1 grade of IS 1079 : 2017)(Chemical composition - Sulphur - IS 228)	-	200	-
4 -Table 5- ii (Ref. Cl 5, Table 1, E300-C grade of IS 2062 : 2011)(Chemical composition - Carbon - IS 228)	-	200	-
4 -Table 5- ii (Ref. Cl 5, Table 1, E300-C grade of IS 2062 : 2011)(Chemical composition - Manganese - IS 228)	-	200	-
4 -Table 5- ii (Ref. Cl 5, Table 1, E300-C grade of IS 2062 : 2011)(Chemical composition - Sulphur - IS 228)	-	200	-
4 -Table 5- ii (Ref. Cl 5, Table 1, E300-C grade of IS 2062 : 2011)(Chemical composition - Phosphorus - IS 228)	-	200	-
4 -Table 5- ii (Ref. Cl 5, Table 1, E300-C grade of IS 2062 : 2011)(Chemical composition - Silicon - IS 228)	-	200	-
4 -Table 5- ii (Ref. Cl 5, Table 1, E300-C grade of IS 2062 : 2011)(Chemical composition - Carbon Equivalen(CE) - IS 228)	-	200	-
4 -Table 5- iii (Ref. Cl 6.1 of IS 210 : 2009)(Chemical composition - Sulphur and/or Phosphorous)	-	200	-
4 -Table 5- iii (Ref. Cl 9.1 of IS 210 : 2009)(The microstructure shall be substantially free of primary cementite and/ or massive stead ite and shall consist oftlake graphite in a matrix offerrite or pearlite or mixture thereof.)	-	200	-
4 -Table 5- iii (Ref. Cl 9.1.1 of IS 210 : 2009)(Graphite structute Distribution - IS 7754)	-	200	-
5.1(General)	-	500	-
5.2.1 Table 1(Particulars-Barrel Tower Bolts)	-	500	-
5.2.2 Table 2(Particulars-Sami Barrel Tower Bolts)	-	500	-
5.2.3 Table 3(Particulars-Riveted or Spot Welded Tower Bolts)	-	500	-
5.2.4 Table 4(Particulars-Skeleton Tower Bolts)	-	500	-
6.1- Table 1(Dimension of Barrel tower bolts-1.Size 2.Length of Bolt-A 3.Length of Barrel-B 4.Width of Barrel-C 5.Dia of Bolt-D 6.Length of Socket-E 7.Thickness of mild steel sheet for barrel-F 8.Dia of bore of barrel or socket- G )	-	500	-
6.1- Table 1(Dimension of Barrel tower bolts-Minimum No. of equally Spaced Screw holes in Barrel and Socket for wood screw no 6)	-	500	-
6.2- Table 2(Dimension of Sami Barrel Tower Bolts 1.Size 2.Length of Bolt-A 3.Length of Bolt Plate-B 4.Width of Bolt Plate-C 5.Dia of Bolt-D 6.Length of Socket-E 7.Thickness of Bolt Plate or Socket-F 8.Dia of bore of Bolt Plate or socket G )	-	500	-
6.2- Table 2(Dimension of Sami Barrel Tower Bolts-Minimum No. of equally Spaced Screw holes in Bolt Plate and Socket for wood screw no 6)	-	500	-
6.3- Table 3(Dimension of Riveted or Spot Welded Tower Bolts- 1.Size 2.Length of Bolt-A 3.Length of Bolt Plate-B 4.Width of Bolt Plate-C 5.Dia of Bolt-D 6.Length of Socket-E 7. Length of Strap-E" 8.Thickness of Back Plate -F 9.Thickness of Socket or Upper Plate and Strap- F" 10.Dia of bore of Bolt Plate or socket- G 11. Length of Alternative Socket-H )	-	500	-
6.3- Table 3(Dimension of Riveted or Spot Welded Tower Bolts-Minimum No. of equally Spaced Screw holes in Bolt Plate and Socket for wood screw no 6)	-	500	-
6.4- Table 4(Dimension of Skeleton Tower Bolts 1.Size 2.Length of Bolt-A 3.Length of Bolt Plate-B 4.Width of Bolt Plate-C 5.Dia of Bolt-D 6.Length of Staple-E 7.Thickness of Plate or Staple -F 8.Dia of bore of Plate or Staple-G 9.Dia of shank of Knob-J)	-	500	-
6.4- Table 4(Dimension of Skeleton Tower Bolts- Nos of Staples)	-	500	-
6.4- Table 4(Dimension of Skeleton Tower Bolts-Minimum No. of Screw holes for wood screw no 6)	-	500	-
8.1(MARKING- .)	-	0	-
8.1.1,(MARKING- )	-	0	-
9(PACKING)	-	0	-
7(Finish)	-	500	-
4 -Table 5- i (Ref. Cl 7, Table 3, HR1 grade of IS 1079 : 2017)(Chemical composition - Carbon - IS 228)	-	200	-
4 -Table 5- i (Ref. Cl 7, Table 3, HR1 grade of IS 1079 : 2017)(Chemical composition - Manganese - IS 228)	-	200	-
4 -Table 5- i (Ref. Cl 7, Table 3, HR1 grade of IS 1079 : 2017)(Chemical composition - Phosphorus - IS 228)	-	200	-
4 -Table 5- i (Ref. Cl 7, Table 3, HR1 grade of IS 1079 : 2017)(Chemical composition - Sulphur - IS 228)	-	200	-
4 -Table 5- ii (Ref. Cl 5, Table 1, E300-C grade of IS 2062 : 2011)(Chemical composition - Carbon - IS 228)	-	200	-
4 -Table 5- ii (Ref. Cl 5, Table 1, E300-C grade of IS 2062 : 2011)(Chemical composition - Manganese - IS 228)	-	200	-
4 -Table 5- ii (Ref. Cl 5, Table 1, E300-C grade of IS 2062 : 2011)(Chemical composition - Sulphur - IS 228)	-	200	-
4 -Table 5- ii (Ref. Cl 5, Table 1, E300-C grade of IS 2062 : 2011)(Chemical composition - Phosphorus - IS 228)	-	200	-
4 -Table 5- ii (Ref. Cl 5, Table 1, E300-C grade of IS 2062 : 2011)(Chemical composition - Silicon - IS 228)	-	200	-
4 -Table 5- ii (Ref. Cl 5, Table 1, E300-C grade of IS 2062 : 2011)(Chemical composition - Carbon Equivalen(CE) - IS 228)	-	200	-
4 -Table 5- iii (Ref. Cl 6.1 of IS 210 : 2009)(Chemical composition - Sulphur and/or Phosphorous)	-	200	-
4 -Table 5- iii (Ref. Cl 9.1 of IS 210 : 2009)(The microstructure shall be substantially free of primary cementite and/ or massive stead ite and shall consist oftlake graphite in a matrix offerrite or pearlite or mixture thereof.)	-	0	-
4 -Table 5- iii (Ref. Cl 9.1.1 of IS 210 : 2009)(Graphite structute Distribution - IS 7754)	-	0	-
5.1(General)	-	200	-
5.2.1 Table 1(Particulars-Barrel Tower Bolts)	-	200	-
5.2.2 Table 2(Particulars-Sami Barrel Tower Bolts)	-	200	-
5.2.3 Table 3(Particulars-Riveted or Spot Welded Tower Bolts)	-	200	-
5.2.4 Table 4(Particulars-Skeleton Tower Bolts)	-	200	-
6.1- Table 1(Dimension of Barrel tower bolts-1.Size 2.Length of Bolt-A 3.Length of Barrel-B 4.Width of Barrel-C 5.Dia of Bolt-D 6.Length of Socket-E 7.Thickness of mild steel sheet for barrel-F 8.Dia of bore of barrel or socket- G )	-	200	-
6.1- Table 1(Dimension of Barrel tower bolts-Minimum No. of equally Spaced Screw holes in Barrel and Socket for wood screw no 6)	-	200	-
6.2- Table 2(Dimension of Sami Barrel Tower Bolts 1.Size 2.Length of Bolt-A 3.Length of Bolt Plate-B 4.Width of Bolt Plate-C 5.Dia of Bolt-D 6.Length of Socket-E 7.Thickness of Bolt Plate or Socket-F 8.Dia of bore of Bolt Plate or socket G )	-	200	-
6.2- Table 2(Dimension of Sami Barrel Tower Bolts-Minimum No. of equally Spaced Screw holes in Bolt Plate and Socket for wood screw no 6)	-	200	-
6.3- Table 3(Dimension of Riveted or Spot Welded Tower Bolts- 1.Size 2.Length of Bolt-A 3.Length of Bolt Plate-B 4.Width of Bolt Plate-C 5.Dia of Bolt-D 6.Length of Socket-E 7. Length of Strap-E" 8.Thickness of Back Plate -F 9.Thickness of Socket or Upper Plate and Strap- F" 10.Dia of bore of Bolt Plate or socket- G 11. Length of Alternative Socket-H )	-	200	-
6.3- Table 3(Dimension of Riveted or Spot Welded Tower Bolts-Minimum No. of equally Spaced Screw holes in Bolt Plate and Socket for wood screw no 6)	-	200	-
6.4- Table 4(Dimension of Skeleton Tower Bolts 1.Size 2.Length of Bolt-A 3.Length of Bolt Plate-B 4.Width of Bolt Plate-C 5.Dia of Bolt-D 6.Length of Staple-E 7.Thickness of Plate or Staple -F 8.Dia of bore of Plate or Staple-G 9.Dia of shank of Knob-J)	-	200	-
6.4- Table 4(Dimension of Skeleton Tower Bolts- Nos of Staples)	-	200	-
6.4- Table 4(Dimension of Skeleton Tower Bolts-Minimum No. of Screw holes for wood screw no 6)	-	200	-
8.1(MARKING- .)	-	0	-
8.1.1,(MARKING- )	-	0	-
9(PACKING)	-	0	-
7(Finish)	-	500	-
4 -Table 5- i (Ref. Cl 7, Table 3, HR1 grade of IS 1079 : 2017)(Chemical composition - Carbon - IS 228)	-	200	-
4 -Table 5- i (Ref. Cl 7, Table 3, HR1 grade of IS 1079 : 2017)(Chemical composition - Manganese - IS 228)	-	200	-
4 -Table 5- i (Ref. Cl 7, Table 3, HR1 grade of IS 1079 : 2017)(Chemical composition - Phosphorus - IS 228)	-	200	-
4 -Table 5- i (Ref. Cl 7, Table 3, HR1 grade of IS 1079 : 2017)(Chemical composition - Sulphur - IS 228)	-	200	-
4 -Table 5- ii (Ref. Cl 5, Table 1, E300-C grade of IS 2062 : 2011)(Chemical composition - Carbon - IS 228)	-	200	-
4 -Table 5- ii (Ref. Cl 5, Table 1, E300-C grade of IS 2062 : 2011)(Chemical composition - Manganese - IS 228)	-	200	-
4 -Table 5- ii (Ref. Cl 5, Table 1, E300-C grade of IS 2062 : 2011)(Chemical composition - Sulphur - IS 228)	-	200	-
4 -Table 5- ii (Ref. Cl 5, Table 1, E300-C grade of IS 2062 : 2011)(Chemical composition - Phosphorus - IS 228)	-	200	-
4 -Table 5- ii (Ref. Cl 5, Table 1, E300-C grade of IS 2062 : 2011)(Chemical composition - Silicon - IS 228)	-	200	-
4 -Table 5- ii (Ref. Cl 5, Table 1, E300-C grade of IS 2062 : 2011)(Chemical composition - Carbon Equivalen(CE) - IS 228)	-	200	-
4 -Table 5- iii (Ref. Cl 6.1 of IS 210 : 2009)(Chemical composition - Sulphur and/or Phosphorous)	-	200	-
4 -Table 5- iii (Ref. Cl 9.1 of IS 210 : 2009)(The microstructure shall be substantially free of primary cementite and/ or massive stead ite and shall consist oftlake graphite in a matrix offerrite or pearlite or mixture thereof.)	-	200	-
4 -Table 5- iii (Ref. Cl 9.1.1 of IS 210 : 2009)(Graphite structute Distribution - IS 7754)	-	200	-
5.1(General)	-	200	-
5.2.1 Table 1(Particulars-Barrel Tower Bolts)	-	500	-
5.2.2 Table 2(Particulars-Sami Barrel Tower Bolts)	-	500	-
5.2.3 Table 3(Particulars-Riveted or Spot Welded Tower Bolts)	-	500	-
5.2.4 Table 4(Particulars-Skeleton Tower Bolts)	-	500	-
6.1- Table 1(Dimension of Barrel tower bolts-1.Size 2.Length of Bolt-A 3.Length of Barrel-B 4.Width of Barrel-C 5.Dia of Bolt-D 6.Length of Socket-E 7.Thickness of mild steel sheet for barrel-F 8.Dia of bore of barrel or socket- G )	-	500	-
6.1- Table 1(Dimension of Barrel tower bolts-Minimum No. of equally Spaced Screw holes in Barrel and Socket for wood screw no 6)	-	500	-
6.2- Table 2(Dimension of Sami Barrel Tower Bolts 1.Size 2.Length of Bolt-A 3.Length of Bolt Plate-B 4.Width of Bolt Plate-C 5.Dia of Bolt-D 6.Length of Socket-E 7.Thickness of Bolt Plate or Socket-F 8.Dia of bore of Bolt Plate or socket G )	-	500	-
6.2- Table 2(Dimension of Sami Barrel Tower Bolts-Minimum No. of equally Spaced Screw holes in Bolt Plate and Socket for wood screw no 6)	-	500	-
6.3- Table 3(Dimension of Riveted or Spot Welded Tower Bolts- 1.Size 2.Length of Bolt-A 3.Length of Bolt Plate-B 4.Width of Bolt Plate-C 5.Dia of Bolt-D 6.Length of Socket-E 7. Length of Strap-E" 8.Thickness of Back Plate -F 9.Thickness of Socket or Upper Plate and Strap- F" 10.Dia of bore of Bolt Plate or socket- G 11. Length of Alternative Socket-H )	-	500	-
6.3- Table 3(Dimension of Riveted or Spot Welded Tower Bolts-Minimum No. of equally Spaced Screw holes in Bolt Plate and Socket for wood screw no 6)	-	500	-
6.4- Table 4(Dimension of Skeleton Tower Bolts 1.Size 2.Length of Bolt-A 3.Length of Bolt Plate-B 4.Width of Bolt Plate-C 5.Dia of Bolt-D 6.Length of Staple-E 7.Thickness of Plate or Staple -F 8.Dia of bore of Plate or Staple-G 9.Dia of shank of Knob-J)	-	500	-
6.4- Table 4(Dimension of Skeleton Tower Bolts- Nos of Staples)	-	500	-
6.4- Table 4(Dimension of Skeleton Tower Bolts-Minimum No. of Screw holes for wood screw no 6)	-	500	-
8.1(MARKING- .)	-	0	-
8.1.1,(MARKING- )	-	0	-
9(PACKING)	-	0	-
7(Finish)	-	500	-
4 -Table 5- i (Ref. Cl 7, Table 3, HR1 grade of IS 1079 : 2017)(Chemical composition - Carbon - IS 228)	-	200	-
4 -Table 5- i (Ref. Cl 7, Table 3, HR1 grade of IS 1079 : 2017)(Chemical composition - Manganese - IS 228)	-	200	-
4 -Table 5- i (Ref. Cl 7, Table 3, HR1 grade of IS 1079 : 2017)(Chemical composition - Phosphorus - IS 228)	-	200	-
4 -Table 5- i (Ref. Cl 7, Table 3, HR1 grade of IS 1079 : 2017)(Chemical composition - Sulphur - IS 228)	-	200	-
4 -Table 5- ii (Ref. Cl 5, Table 1, E300-C grade of IS 2062 : 2011)(Chemical composition - Carbon - IS 228)	-	200	-
4 -Table 5- ii (Ref. Cl 5, Table 1, E300-C grade of IS 2062 : 2011)(Chemical composition - Manganese - IS 228)	-	200	-
4 -Table 5- ii (Ref. Cl 5, Table 1, E300-C grade of IS 2062 : 2011)(Chemical composition - Sulphur - IS 228)	-	200	-
4 -Table 5- ii (Ref. Cl 5, Table 1, E300-C grade of IS 2062 : 2011)(Chemical composition - Phosphorus - IS 228)	-	200	-
4 -Table 5- ii (Ref. Cl 5, Table 1, E300-C grade of IS 2062 : 2011)(Chemical composition - Silicon - IS 228)	-	200	-
4 -Table 5- ii (Ref. Cl 5, Table 1, E300-C grade of IS 2062 : 2011)(Chemical composition - Carbon Equivalen(CE) - IS 228)	-	200	-
4 -Table 5- iii (Ref. Cl 6.1 of IS 210 : 2009)(Chemical composition - Sulphur and/or Phosphorous)	-	200	-
4 -Table 5- iii (Ref. Cl 9.1 of IS 210 : 2009)(The microstructure shall be substantially free of primary cementite and/ or massive stead ite and shall consist oftlake graphite in a matrix offerrite or pearlite or mixture thereof.)	-	0	-
4 -Table 5- iii (Ref. Cl 9.1.1 of IS 210 : 2009)(Graphite structute Distribution - IS 7754)	-	0	-
5.1(General)	-	500	-
5.2.1 Table 1(Particulars-Barrel Tower Bolts)	-	500	-
5.2.2 Table 2(Particulars-Sami Barrel Tower Bolts)	-	500	-
5.2.3 Table 3(Particulars-Riveted or Spot Welded Tower Bolts)	-	500	-
5.2.4 Table 4(Particulars-Skeleton Tower Bolts)	-	500	-
6.1- Table 1(Dimension of Barrel tower bolts-1.Size 2.Length of Bolt-A 3.Length of Barrel-B 4.Width of Barrel-C 5.Dia of Bolt-D 6.Length of Socket-E 7.Thickness of mild steel sheet for barrel-F 8.Dia of bore of barrel or socket- G )	-	500	-
6.1- Table 1(Dimension of Barrel tower bolts-Minimum No. of equally Spaced Screw holes in Barrel and Socket for wood screw no 6)	-	500	-
6.2- Table 2(Dimension of Sami Barrel Tower Bolts 1.Size 2.Length of Bolt-A 3.Length of Bolt Plate-B 4.Width of Bolt Plate-C 5.Dia of Bolt-D 6.Length of Socket-E 7.Thickness of Bolt Plate or Socket-F 8.Dia of bore of Bolt Plate or socket G )	-	500	-
6.2- Table 2(Dimension of Sami Barrel Tower Bolts-Minimum No. of equally Spaced Screw holes in Bolt Plate and Socket for wood screw no 6)	-	500	-
6.3- Table 3(Dimension of Riveted or Spot Welded Tower Bolts- 1.Size 2.Length of Bolt-A 3.Length of Bolt Plate-B 4.Width of Bolt Plate-C 5.Dia of Bolt-D 6.Length of Socket-E 7. Length of Strap-E" 8.Thickness of Back Plate -F 9.Thickness of Socket or Upper Plate and Strap- F" 10.Dia of bore of Bolt Plate or socket- G 11. Length of Alternative Socket-H )	-	500	-
6.3- Table 3(Dimension of Riveted or Spot Welded Tower Bolts-Minimum No. of equally Spaced Screw holes in Bolt Plate and Socket for wood screw no 6)	-	500	-
6.4- Table 4(Dimension of Skeleton Tower Bolts 1.Size 2.Length of Bolt-A 3.Length of Bolt Plate-B 4.Width of Bolt Plate-C 5.Dia of Bolt-D 6.Length of Staple-E 7.Thickness of Plate or Staple -F 8.Dia of bore of Plate or Staple-G 9.Dia of shank of Knob-J)	-	500	-
6.4- Table 4(Dimension of Skeleton Tower Bolts- Nos of Staples)	-	500	-
6.4- Table 4(Dimension of Skeleton Tower Bolts-Minimum No. of Screw holes for wood screw no 6)	-	500	-
8.1(MARKING- .)	-	0	-
8.1.1,(MARKING- )	-	0	-
9(PACKING)	-	0	-
7(Finish)	-	500	-

Complete

05 Oct, 2025

IS/ISO 22702 (2018)

Utility lighters Safety specifications First Revision

80000 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
4.1(Flame generation)	-	5000	-
4.2(Flame heights)	-	5000	-
4.3(Flame- height adjustment)	-	2500	-
4.4("Resistance to Spitting or Sputtering and flaring")	-	2500	-
4.5(Flame extinction)	-	5000	-
4.6(Volumetric Displacement)	-	30000	-
5.2(Resistance to dropping)	-	5000	-
5.3(Resistance to elevated temperature)	-	10000	-
5.4(Burning behavior)	-	5000	-
5.5(Resistance to continuous burn)	-	5000	-
5.6(Resistance to cyclic burn)	-	2500	-
5.7(External Finish)	-	25000	-
5.8(Compatibility with fuel)	-	5000	-
5.9(Resistance to internal pressure)	-	5000	-
6(Refilling Test)	-	5000	-

Complete

05 Oct, 2025

IS 17150 (2019)

Mini domestic water heater for use with piped natural gas (PNG) ? specification

30000 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
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.)	-	200	NA
4.1(Rivets, Fastening screws and plugs , etc. shall not lead into gas passages.)	-	200	NA
4.1.1(No PNG regulator shall be included as a part of the instantaneous domestic gas water heater.)	-	200	NA
4.1.2(All parts in contact with water shall be made of such a material that shall not pollute water.)	-	200	NA
4.1.3(All Parts shall be made and so assembled that the performance characteristics of the appliance will not alter significantly during reasonable life and in normal conditions of installation and use.)	-	200	NA
4.1.4(it shall be possible to clean without difficulty)	-	200	NA
4.1.5(It shall not be possible to replace to replace parts, which are removable for maintenance in a way that could impair the safe performance of the appliance.)	-	200	NA
4.1.6(The gas and water soundness shall be assured after reassemble maintenance.)	-	200	NA
4.1.7(it shall be possible to install an appliance intended to be fixed to a wall with appropriate means of fixing, such as clamps, hooks, Screws, etc. )	-	200	NA
4.1.8(All parts of gas water heaters subject to direct heat shall have brazed or welded joints.)	-	200	NA
4.1.8(Interior surfaces shall be of such material or so protected, so as to avoid contamination of the contents.)	-	200	NA
4.1.9(The gas (heat) input to the pilot alone shall not exceed 8 l/h at a gas inlet pressure of 21 mbar and at temperature 25-30°C, wherever applicable.)	-	200	NA
4.1.10(The Appliance shall be provided with a safety device, which cuts off the supply of gas in case water dose not flow or stops flowing while in operation.)	-	200	NA
4.1.11(The water heater shall have a provision such that supply of gas shall be cut off and the burner extinguished after 20+1/-2 min of uninterrupted use. The appliance shall able to restart manually.)	-	200	NA
4.1.12(All heat exchanger tubes through which the water passes and water chamber, if provided, shall be completely filled with water before igniting the burner.)	-	200	NA
5.1(The material used in the construction of the water heater shall be resistant to wear and deterioration occuring in the normal use.)	-	500	NA
5.2(The copper and copper alloy forged and cast parts shall pass the mercurous nitrate test (Season cracking test) when tested according to the method specified in IS:2305.)	-	500	NA
5.3(Change in weight or volume of a non metallic material, when immerse in n-Pentane for 72 hours)	-	500	NA
5.4(Melting point of metal for burner top)	-	500	NA
5.5(Diaphragm if provided for inlet water control device, shall be made of synthetic rubber.while choosing the material, the manufacturer shall take into account the characteristics required for the satisfactory use that is , mechanical and chemical stability. Material selected shall not degrade under normal working conditions.)	-	500	NA
6.1(For connections and screws other than for water, metric threads shall be used. )	-	500	NA
6.2(Gas inlet connection shall permit a rigid connection.)	-	500	NA
6.2(Gas inlet connection shall permit a rigid connection.)	-	500	NA
6.3(All water connection shall be of copper or brass tube and have at least 6 mm inner diameter and 0.5 mm nominal wall thickness of the tube.)	-	500	NA
6.4(The water inlet and outlet connection shall be of 1/2" BSP thread.)	-	500	NA
6.5(The gas and water connections shall be situated at the base of the appliance. it shall be possible to connect the appliance to supply, which are in a plane parallel or perpendicular to the wall on which the appliance is fixed.)	-	500	NA
6.6(Gas Inlet Connections : The water heater shall be provided with nozzle or screwed gas inlet connection as given in 18 of IS:5116)	-	500	NA
7(All Appliances shall be designed so that ignition, correct burner performance and the length of the pilot flames. If any , can always be easily seen. This visibility shall be assumed at all times and particularly, where there is a viewing window, this shall not deteriorate under the effect of heat.)	-	1000	NA
8(The Appliance shall have a device allowing manual interruption of the supply of gas to the burner and pilot, if available in case of exigency.)	-	500	NA
8(The device shall be of such a design that gas shall not enter to the main burner and the pilot (if provided) until it is reset to the original position.)	-	500	NA
9.1(The Appliance shall have a flame failure device, controlling the admission of gas to the main burner and possibly to any ignition pilot. The provisions given in 14.1 of IS:5116 shall apply.)	-	1000	NA
10(An appliance shall have an ignition device, where the appliance is provided in the form of a pilot it shall be possible to light it easily with a matchstick or a special ignition device)	-	500	NA
10(The pilot shall be positioned in such a way that their products of combustion are evacuated with those of the burner)	-	500	NA
10(While in operation the relative position of the pilot and burner shall not alter.)	-	500	NA
10(The pilot burner shall be made of a material that shall not deteriorate under normal condition of use)	-	500	NA
10(It is essential that the pilot flame shall be seen either directly or by reflection.)	-	500	NA
10(The ignition to the burners from pilot shall be smooth)	-	500	NA
11(The Water heater shall be provided with a suitable overheat protection device, which shall switch off the supply of gas, if the temperature of the delivered water reaches 80°C max. )	-	1000	NA
11(The gas supply shall be restored manually.)	-	1000	NA
12(The Appliance shall be provided with a means of adjusting water rate.)	-	1000	NA
14(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)	-	1000	NA
15(All water carrying parts of the appliance, individually and when assembled to form the water circuit of the appliance shall not leak or show any permanent distortion during or after the test when tested at a hydrostatic pressure 4 kgf/cm2)	-	500	NA
15(The later circuit shall be kept under pressure for minimum 5 min.)	-	500	NA
16(Thermal efficiency of Water Heater shall not be less nthan 62%)	-	1000	NA
17(Ratio of Carbon Monoxide to Carbon Dioxide)	-	1000	NA
18( (D = Declared Value, Gas Consumption)	-	1000	NA
19.1(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)	-	400	NA
19.2(if the flame is applied to any one burner pors when the gas is flowing , flame travel shall be complete. This applies for all pressures from 20 to 25 gf/cm² taps being fully open.)	-	400	NA
19.3(if the burner is ignited from a pilot flame , ignition shall be smooth at pressure from 20-25 gf/cm² with the tap turned full on and ignition shall be effected without delay after turning on the taps.)	-	200	NA
20(It shall be possible to operate the appliance with taps fully open at gas inlet pressure , without the flame extinguishing, blowing off or striking back and without the formation of soot.)	-	500	NA
20(Pilot Flame shall be Stable without lifting or soot deposition at gas inlet pressure from 20-25 gf/cm2)	-	500	NA
21(Ignition of Burner flame, their operation and turning off shall not give rise to undue excessive noise during the operation.)	-	1000	NA
22(While the appliance is in operation at full gas consumption and the appliance is in thermal equilibrium, the flame shall be immediately reduced to the minimum possible and then brought back to the full size, the operation shall be repeated five times, no flash back shall occur during the test, applicable for pressure 20-25 gf/cm².)	-	1000	NA
23(There shall be no extinction of flame on any of the burner operating at the maximum consumption when the appliance is placed in a normal current of air with velocity of 2 m/s as measured with a rotating vane anemometer. The location of the appliance relative to the neighbouring walls and the direction of the draught shall be varied to correspond to likely conditions of appliance installation, applicable for all pressure 20-25 gf/cm².)	-	1000	NA
24(Wall, Floor, Ceiling temperatures: Rise of Temperature above room temperature in , after two hours of operation)	-	250	NA
24(Surface temperature:Temperature of the portion of the surface other than the working surface likely to be touched accidentally.)	-	250	NA
24(Temperature of the surface in normal use)	-	250	NA
24(Temperature of synthetic rubber diaphragm in gas carrying components)	-	250	NA
25(When tested as per annex D, at the nominal gas rate with the appliance adjusted to give a temperature rise of 45±5°C between the water inlet and outlet , the time to achieve 90% of this temperature rise-)	-	1000	NA
26(Hot water output, Declared Value)	-	1000	NA

Complete

05 Oct, 2025

IS 14756 (2022)

Draft Indian Standard STAINLESS STEEL COOKWARE SPECIFICATION Second Revision of IS 14756

15000 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
3.1 & Table 1 of IS 5522 (Carbon)	-	500	NA
3.1 & Table 1 of IS 5522 (Silicon)	-	500	NA
3.1 & Table 1 of IS 5522 (Manganese)	-	500	NA
3.1 & Table 1 of IS 5522 (Nickel)	-	500	NA
3.1 & Table 1 of IS 5522 (Chromium)	-	500	NA
3.1 & Table 1 of IS 5522 (Sulphur)	-	500	NA
3.1 & Table 1 of IS 5522 (Phosphorus)	-	500	NA
3.1 & Table 1 of IS 5522 (Copper)	-	750	NA
3.1 & Table 1 of IS 5522 (Nitrogen)	-	750	NA
4.1(Shape and Dimension,)	-	400	NA
4.2(Thickness)	-	100	NA
5.1(Workmanship And Finish)	-	500	NA
5.2(Workmanship And Finish)	-	500	NA
5.3(Workmanship And Finish)	-	500	NA
5.4(Workmanship And Finish)	-	500	NA
6.1(Staining Test)	-	500	NA
6.2(Mechanical Shock Test (for cladded utensils only))	-	500	NA
6.3(Thermal Shock Test (for cladded utensils only))	-	500	NA
6.4(Dry Heat Test (for cladded utensils only))	-	1500	NA
6.4(Dry Heat Test (for cladded utensils only))	-	1500	NA
3.1(Material)	-	5000	NA
3.2(Material)	-	5000	NA
3.3(Material)	-	5000	NA
3.4(Material)	-	5000	NA
3.5(Material)	-	5000	NA
3.5(Material)	-	5000	NA
3.5(Material)	-	5000	NA
3.5(Material)	-	5000	NA
4.1 (Annex A)(Shapes and Dimensions)	-	500	NA
4.2 (Table 1)(Shapes and Dimensions)	-	500	NA
4.2 (Table 1)(Shapes and Dimensions)	-	500	NA
4.2(Shapes and Dimensions)	-	500	NA
4.3(Shapes and Dimensions)	-	500	NA
4.4(Shapes and Dimensions)	-	500	NA
5.1(Workmanship and Finish)	-	500	NA
5.1(Workmanship and Finish)	-	500	NA
5.1(Workmanship and Finish)	-	500	NA
5.2(Workmanship and Finish)	-	500	NA
5.3(Workmanship and Finish)	-	500	NA
5.3(Workmanship and Finish)	-	500	NA
5.3(Workmanship and Finish)	-	500	NA
5.3(Workmanship and Finish)	-	500	NA
5.3(Workmanship and Finish)	-	500	NA
5.3(Workmanship and Finish)	-	500	NA
5.4(Workmanship and Finish)	-	500	NA
5.5(Workmanship and Finish)	-	500	NA
5.6(Workmanship and Finish)	-	500	NA
6.1(Staining Test)	-	500	NA
6.1(Staining Test)	-	500	NA
6.2(Mechanical Shock Test (For Cladded Utensils only))	-	500	NA
6.3(Thermal Shock Test (For Cladded Utensils only))	-	500	NA
6.4(Dry Heat Test (For Cladded Utensils only))	-	1500	NA
6.5(Coating Thickness Test (For Copper Deposit))	-	500	NA
6.6(3 Ply)	-	1500	NA
6.7.1(Nominal Capacity Test)	-	1000	NA
6.7.2(Nominal Capacity Test- Diameter)	-	1000	NA
6.8.1(Tests on Tempered Glass Lid)	-	500	NA
6.8.1(Tests on Tempered Glass Lid)	-	500	NA
6.8.2(Tests on Tempered Glass Lid (Ball drop test))	-	500	NA
6.8.3(Tests on Tempered Glass Lid (thermal shock test))	-	500	NA
6.8.4.1(Tests on Tempered Glass Lid (Free Fall Test with rim facing down))	-	1000	NA
6.8.4.2(Tests on Tempered Glass Lid (Free Fall Test without rim facing down))	-	1000	NA

Complete

05 Oct, 2025

IS 15997 (2012)

Low nickel austenitic stainless steel sheet and strip for utensils and kitchen appliances - Specification

10000 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
Cl. 8.1, 8.1.1 & 10.1 Table 1(Carbon -IS 228 and relevant parts or any other established Instrumental/Chemical method.)	-	550	10% Discount to BIS
Cl. 8.1, 8.1.1 & 10.1 Table 1(Silicon -IS 228 and relevant parts or any other established Instrumental/Chemical method.)	-	550	10% Discount to BIS
Cl. 8.1, 8.1.1 & 10.1 Table 1(Manganese -IS 228 and relevant parts or any other established Instrumental/Chemical method.)	-	550	10% Discount to BIS
Cl. 8.1, 8.1.1 & 10.1 Table 1(Nickel -IS 228 and relevant parts or any other established Instrumental/Chemical method.)	-	550	10% Discount to BIS
Cl. 8.1, 8.1.1 & 10.1 Table 1(Chromium -IS 228 and relevant parts or any other established Instrumental/Chemical method.)	-	550	10% Discount to BIS
Cl. 8.1, 8.1.1 & 10.1 Table 1(Sulphur -IS 228 and relevant parts or any other established Instrumental/Chemical method.)	-	550	10% Discount to BIS
Cl. 8.1, 8.1.1 & 10.1 Table 1(Phosphorus -IS 228 and relevant parts or any other established Instrumental/Chemical method.)	-	550	10% Discount to BIS
Cl. 8.1, 8.1.1 & 10.1 Table 1(Copper -IS 228 and relevant parts or any other established Instrumental/Chemical method.)	-	550	10% Discount to BIS
Cl. 8.1, 8.1.1 & 10.1 Table 1(Nitrogen -IS 228 and relevant parts or any other established Instrumental/Chemical method.)	-	550	10% Discount to BIS
6(Freedom From Defects)	-	50	10% Discount to BIS
9.3(Tensile Test-1608:Part 1)	-	750	10% Discount to BIS
9.3, Table 3 (Yield Strength, Mpa)	-	750	10% Discount to BIS
9.3, Table 3 (Tensile Strength, Mpa)	-	750	10% Discount to BIS
9.3, Table 3 (Elongation, %)	-	750	10% Discount to BIS
9.4(Erichsen Cupping Test,(Average depth of cupping) mm)	-	750	10% Discount to BIS
11(Surface finish)	-	250	10% Discount to BIS
12(Dimensions)	-	250	10% Discount to BIS
14.1(Thickness,mm)	-	150	10% Discount to BIS
14.2( Width, mm)	-	150	10% Discount to BIS
14.3(Length, mm)	-	150	10% Discount to BIS
14.4(Flatness, mm)	-	150	10% Discount to BIS
14.5(Camber, mm)	-	150	10% Discount to BIS

Complete

05 Oct, 2025

IS 9573 : Part 2 (2017)

Rubber hose for liquefied petroleum gas (Lpg) - Specification: Part 2 domestic and commercial application (Fourth Revision)

15000 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
Clause 4.1(General)	-	100	10% Discount to BIS
Clause 4.2(Material)	-	100	10% Discount to BIS
Clause 4.2.1(Lining)	-	100	10% Discount to BIS
Clause 4.2.2 (a)(Reinforcement)	-	100	10% Discount to BIS
Clause 4.2.2 (b)(Reinforcement)	-	100	10% Discount to BIS
Clause 4.2.3(Cover)	-	100	10% Discount to BIS
Clause 4.3 Sub Clause 4.3.1 Table 1(Bore Size)	-	290	10% Discount to BIS
Clause 4.3 Sub Clause 4.3.2 (a)(Thickness of Lining and Cover)	-	400	10% Discount to BIS
Clause 4.3 Sub Clause 4.3.2 (b)(Thickness of Lining and Cover)	-	200	10% Discount to BIS
Clause 4.3 Sub Clause 4.3.3(Length)	-	500	10% Discount to BIS
Clause 4.4 Sub Clause 4.4.1 Table 2 (i) (a)(Tensile Strength- Lining)	-	500	10% Discount to BIS
Clause 4.4 Sub Clause 4.4.1 Table 2 (i) (b)(Tensile Strength- cover)	-	500	10% Discount to BIS
Clause 4.4 Sub Clause 4.4.1 Table 2 (ii) (a)(Elongation at break- Lining)	-	500	10% Discount to BIS
Clause 4.4 Sub Clause 4.4.1 Table 2 (ii) (b)(Elongation at break- Cover)	-	500	10% Discount to BIS
Clause 4.4 Sub Clause 4.4.2 (a)(Accelerated Ageing Test lining)	-	500	10% Discount to BIS
Clause 4.4 Sub Clause 4.4.2 (b)(Accelerated Ageing Test lining)	-	500	10% Discount to BIS
Clause 4.4 Sub Clause 4.4.3 (a)(Resistance of Lining to n-pentane)	-	1200	10% Discount to BIS
Clause 4.4 Sub Clause 4.4.3 (b)(Resistance of Lining to n-pentane)	-	1200	10% Discount to BIS
Clause 4.5 Sub clause 4.5.1(Adhesion)	-	750	10% Discount to BIS
Clause 4.5 Sub clause 4.5.2(Low Temperature Flexibility)	-	1500	10% Discount to BIS
Clause 4.5 Sub clause 4.5.3(Flexibility of Hose)	-	300	10% Discount to BIS
Clause 4.5 Sub clause 4.5.4(Ozone Resistance)	-	2500	10% Discount to BIS
Clause 4.5 Sub clause 4.5.5 4.5.5.1(Proof pressure test)	-	700	10% Discount to BIS
Clause 4.5 Sub clause 4.5.5 4.5.5.2(Bursting pressure)	-	700	10% Discount to BIS
Clause 4.5 Sub clause 4.5.6(Grip Strength Test)	-	500	10% Discount to BIS
Clause 4.5 Sub clause 4.5.7(Burning Behaviour)	-	500	10% Discount to BIS
Clause 5.2 (a)(Marking Manufacturer’s name or trade-mark, if any )	-	20	10% Discount to BIS
Clause 5.2 (b)(Marking Words LPG, Max W.P. 1.0 MPa; )	-	20	10% Discount to BIS
Clause 5.2 (c)(Marking Nominal bore, 1000111)	-	20	10% Discount to BIS
Clause 5.2 (d)(Marking Batch/Lot No. )	-	20	10% Discount to BIS
Clause 5.2 (e)(Marking Month and year of manufacture )	-	20	10% Discount to BIS
Clause 5.2 (f)(Marking IS 9573 (Part 2) )	-	20	10% Discount to BIS
Clause 5.2 (f)(Marking ecommended to replace before (MONTH/YEAR) )	-	20	10% Discount to BIS
Clause 5.2.1(BIS Certification Marking )	-	20	10% Discount to BIS

Complete

05 Oct, 2025

IS 9573 : Part 1 (2017)

Rubber hose for liquefied petroleum gas (Lpg) - Specification: Part 1 industrial application (Fourth Revision)

All Size

15000 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
Clause 5.2.1(BIS Certification Marking )	-	10	NA
Clause 5.2 (f)(Marking IS 9573 (Part 1) )	-	10	NA
Clause 5.2 (e)(Marking Month and year of manufacture )	-	10	NA
Clause 5.2 (d)(Marking Batch/Lot No. )	-	10	NA
Clause 4.1 (General)	-	100	NA
Clause 4.1(General)	-	100	NA
Clause 4.2(Material)	-	100	NA
Clause 4.2.1(Lining)	-	100	NA
Clause 4.2.2(Reinforcement)	-	100	NA
Clause 4.2.3(Cover)	-	100	NA
Clause 4.3 Sub Clause 4.3.1 Table 1(Bore Size)	-	100	NA
Clause 4.3 Sub Clause 4.3.2 (a)(Thickness of Lining and Cover)	-	100	NA
Clause 4.3 Sub Clause 4.3.2 (b)(Thickness of Lining and Cover)	-	100	NA
Clause 4.3 Sub Clause 4.3.3(Length)	-	100	NA
Clause 4.4 Sub Clause 4.4.1 Table 2 (i) (a)(Tensile Strength- Lining)	-	1000	NA
Clause 4.4 Sub Clause 4.4.1 Table 2 (i) (b)(Tensile Strength- cover)	-	1000	NA
Clause 4.4 Sub Clause 4.4.1 Table 2 (ii) (a)(Elongation at break- Lining)	-	1000	NA
Clause 4.4 Sub Clause 4.4.1 Table 2 (ii) (b)(Elongation at break- cover)	-	1000	NA
Clause 4.4 Sub Clause 4.4.2 (a)(Accelerated Ageing Test lining)	-	600	NA
Clause 4.4 Sub Clause 4.4.2 (b)(Accelerated Ageing Test lining)	-	400	NA
Clause 4.4 Sub Clause 4.4.2 (a)(Accelerated Ageing Test cover)	-	400	NA
Clause 4.4 Sub Clause 4.4.2 (b)(Accelerated Ageing Test cover)	-	400	NA
Clause 4.4 Sub Clause 4.4.3 (a)(Resistance of Lining to n-pentane)	-	400	NA
Clause 4.4 Sub Clause 4.4.3 (b)(Resistance of Lining to n-pentane)	-	400	NA
Clause 4.5 Sub clause 4.5.1(Adhesion)	-	930	NA
Clause 4.5 Sub clause 4.5.2(Low Temperature Flexibility)	-	2000	NA
Clause 4.5 Sub clause 4.5.3(Flexibility of Hose)	-	800	NA
Clause 4.5 Sub clause 4.5.4(Ozone Resistance)	-	1500	NA
Clause 4.5 Sub clause 4.5.5 4.5.5.1(Proof pressure test)	-	600	NA
Clause 4.5 Sub clause 4.5.5 4.5.5.2(Bursting pressure)	-	500	NA
Clause 4.5 Sub clause 4.5.6(Electrical Continuity Test)	-	500	NA
Clause 4.5 Sub clause 4.5.7(Burning Behaviour)	-	500	NA
Clause 5.2 (a)(Marking Manufacturer’s name or trade-mark, if any )	-	10	NA
Clause 5.2 (b)(Marking Words LPG, Max W.P. 2.5 MPa; )	-	10	NA
Clause 5.2 (c)(Marking Nominal bore )	-	10	NA

Complete

05 Oct, 2025

IS 733 (1983)

Specification for wrought aluminium and aluminium alloy bars, rods and sections (For General Engineering Purposes) (Third Revision)

6000 View breakup
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Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
Cl. 4(Freedom from Defects)	-	150	NA
Cl. 5.1, Table 2(0.2 Percent proof stress- IS 1816)	-	150	NA
Cl. 5.1, Table 2(Tensile Strength- IS 1816)	-	1000	NA
Cl. 5.1, Table 2(Elongation on 50 mm or 5.65√So Gauge Length)	-	500	NA
Cl. 0.4, 5.1, Table 1(Aluminium- IS 504 or by any other suitable instrumental method)	-	400	NA
Cl. 0.4, 5.1, Table 1(Copper- IS 504 or by any other suitable instrumental method)	-	400	NA
Cl. 0.4, 5.1, Table 1(Magnesium- IS 504 or by any other suitable instrumental method)	-	400	NA
Cl. 0.4, 5.1, Table 1(Silicon- IS 504 or by any other suitable instrumental method)	-	400	NA
Cl. 0.4, 5.1, Table 1(Iron- IS 504 or by any other suitable instrumental method)	-	400	NA
Cl. 0.4, 5.1, Table 1(Zinc- IS 504 or by any other suitable instrumental method)	-	400	NA
Cl. 0.4, 5.1, Table 1(Titanium and / or other grain refining elements - IS 504 or by any other suitable instrumental method)	-	200	NA
Cl. 0.4, 5.1, Table 1(Chromium- IS 504 or by any other suitable instrumental method)	-	400	NA
Cl. 0.4, 5.1, Table 1(Ti+ V- IS 504 or by any other suitable instrumental method)	-	400	NA
Cl. 0.4, 5.1, Table 1(Total Impurities- IS 504 or by any other suitable instrumental method)	-	400	NA
Cl. 0.4, 5.1, Table 1(Cr+ Mn- IS 504 or by any other suitable instrumental method)	-	400	NA

Complete

05 Oct, 2025

IS 366 (1991)

Electric iron - Specification (Fourth Revision)

10000 View breakup
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Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
7.0(Classification (as per Cl.6 of IS 302-2-3 and Cl.6.1 of IS 302-1))	-	50	NA
7.0(Classification (as per Cl.6 of IS 302-2-3 and Cl.6.2 of IS 302-1))	-	50	NA
9.0(Protection against access to live parts (as per Cl. 8 of IS 302-2-3 and IS 302-1))	-	100	NA
9.0(Power input and current (as per Cl. 10 of IS 302-2-3 and IS 302-1))	-	100	NA
9.0(Temperature Rise (as per Cl. 11 of IS 302-2-3 and IS 302-1))	-	300	NA
9.0(Leakage current and Electric Strength at Operating Temperature (as per Cl. 13 of IS 302-2-3 and IS 302-1))	-	200	NA
9.0(Transient Overvoltage (as per of Cl. 14 of IS 302-2-3 and Table 6 of IS 302-1))	-	200	NA
9.0(Moisture Resistance (as per of Cl.15 of IS 302-2-3 and IS 302-1))	-	300	NA
9.0(Abnormal Operation (as per of Cl.19 of IS 302-2-3 and IS 302-1) )	-	200	NA
9.0(Staibilty and mechanical hazards (as per of Cl.20 of IS 302-2-3 and IS 302-1) )	-	300	NA
9.0(Mechanical strength (as per of Cl.21 of IS 302-2-3 and IS 302-1) )	-	300	NA
9.0(Construction (as per of Cl.22 of IS 302-2-3 and IS 302-1) )	-	400	NA
9.0(Internal wiring (as per of Cl.23 of IS 302-2-3 and IS 302-1) )	-	300	NA
6(Measurement of Thermostatic staibility)	-	500	NA
9.0(Temperature Rise (as per Cl. 11 of IS 302-2-3 and IS 302-1))	-	500	NA
9.0(Temperature Rise (as per Cl. 11 of IS 302-2-3 and IS 302-1))	-	500	NA
9.0(Temperature Rise (as per Cl. 11 of IS 302-2-3 and IS 302-1))	-	500	NA
9.0(Leakage current and Electric Strength at Operating Temperature (as per Cl. 13 of IS 302-2-3 and IS 302-1))	-	500	NA
9.0(Moisture Resistance (as per of Cl.15 of IS 302-2-3 and IS 302-1))	-	500	NA
16 of IS 302-2-3(Leakage current electric strength)	-	500	NA
9.0(Abnormal Operation (as per of Cl.19 of IS 302-2-3 and IS 302-1) )	-	500	NA
9.0(Abnormal Operation (as per of Cl.19 of IS 302-2-3 and IS 302-1) )	-	500	NA
9.0(Abnormal Operation (as per of Cl.19 of IS 302-2-3 and IS 302-1) )	-	500	NA
9.0(Abnormal Operation (as per of Cl.19 of IS 302-2-3 and IS 302-1) )	-	500	NA
9.0(Construction (as per of Cl.22 of IS 302-2-3 and IS 302-1) )	-	500	NA
9.0(Construction (as per of Cl.22 of IS 302-2-3 and IS 302-1) )	-	500	NA
9.0(Construction (as per of Cl.22 of IS 302-2-3 and IS 302-1) )	-	500	NA
9.0(Construction (as per of Cl.22 of IS 302-2-3 and IS 302-1) )	-	500	NA
9.0(Construction (as per of Cl.22 of IS 302-2-3 and IS 302-1) )	-	500	NA
9.0(Construction (as per of Cl.22 of IS 302-2-3 and IS 302-1) )	-	500	NA
9.0(Internal wiring (as per of Cl.23 of IS 302-2-3 and IS 302-1) )	-	500	NA
9.0(Internal wiring (as per of Cl.23 of IS 302-2-3 and IS 302-1) )	-	500	NA
9.0(Components (as per of Cl.24 of IS 302-2-3 and IS 302-1) )	-	500	NA
9.0(Supply connection and external flexible cord (as per of Cl.25 of IS 302-2-3 and IS 302-1) )	-	500	NA
9.0(Supply connection and external flexible cord (as per of Cl.25 of IS 302-2-3 and IS 302-1) )	-	500	NA
9.0(Supply connection and external flexible cord (as per of Cl.25 of IS 302-2-3 and IS 302-1) )	-	500	NA
9.0(Supply connection and external flexible cord (as per of Cl.25 of IS 302-2-3 and IS 302-1) )	-	500	NA
9.0(Provision for earthing (as per of Cl.27 of IS 302-2-3 and IS 302-1) )	-	500	NA
9.0(Terminals for external conductors (as per of Cl.26 of IS 302-2-3 and IS 302-1) )	-	500	NA
9.0(Screw and connections (as per of Cl.28 of IS 302-2-3 and IS 302-1))	-	500	NA
9.0(Clearances, creepage distances and solid insulation (as per of Cl.29 of IS 302-2-3 and IS 302-1))	-	500	NA
9.0(Resistance to Heat and Fire (as per of Cl.30 of IS 302-2-3 and IS 302-1))	-	500	NA
9.0(Resistance to Rusting (as per of Cl.31 of IS 302-2-3 and IS 302-1))	-	500	NA
10.0(Measurement of Heating up time)	-	500	NA
10.0(Measurement of Heating up time)	-	500	NA
11.0(Measurement of sole plate temperature)	-	500	NA
11.0(Measurement of sole plate temperature)	-	500	NA
12.0(Measurement of Tempearture Distribution)	-	500	NA
13.0(Measurement of Initial overswing temperature and Heating up excess temperature)	-	500	NA
13.0(Measurement of Initial overswing temperature and Heating up excess temperature)	-	500	NA
14.0(Measurement of Cyclic fluctuation of temperature of hottest point )	-	500	NA
15(MEASUREMENT OF TEMPERATURE DROP UNDER LOAD)	-	500	NA
16.0(Measurement of Thermostatic staibility)	-	500	NA
16.0(Measurement of Thermostatic staibility)	-	500	NA
17(Measurement of Thermostatic staibility)	-	500	NA

Complete

05 Oct, 2025

IS 8978 (1992)

Specification for electric instantaneous water heaters (Second Revision)

15000 View breakup
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Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
Cl.7 of IS 302-2-35:2017(Marking)	-	1000	NA
Cl.6 of IS 302-2-35:2017(Classification)	-	1000	NA
Cl.8 of IS 302-2-35:2017(Protection Against Access To Live Parts)	-	1000	NA
Cl.10 of IS 302-2- 35:2011(Power Input & Current )	-	1000	NA
Cl.11 of 302-2-35:2017(Heating)	-	1000	NA
Cl.13 of IS 302-2-35:2017(Leakage Current & Electrical Strength at Operating Temperature )	-	1000	NA
Cl.14 of IS 302-2-35:2017(Transient Over Voltages )	-	1000	NA
Cl.15 of IS 302-2-35-2011(Moisture Resistance )	-	1000	NA
Cl.16 of IS 302-2-35:2011(Leakage Current and Electric Strength)	-	200	NA
Cl.17 IS 302-2-35:2017(Overload Protection of Transformers & Associated circuits )	-	200	NA
Cl.19 of IS 302-2-35:2017(Abnormal Operation)	-	200	NA
Cl.20 of IS 302-2-35-2011(Stability & Mechanical Hazards )	-	500	NA
Cl.21.1 of IS 302-2-35-2011(Mechanical strength)	-	200	NA
Cl.22 of IS 302-2-35-2011(Construction )	-	500	NA
Cl.23 of IS 302-2-35-2011(Internal Wiring)	-	400	NA
Cl.24 of IS 302-2-35:2017(Component )	-	500	NA
Cl.25 of IS 302-2-35:2017(Supply Connection & External Flexible Cords)	-	500	NA
Cl.26 of IS 302-2-35:2017(Terminals for External Conductors)	-	500	NA
Cl.27 of IS 302-2-35:2017(Provision for Earthing)	-	500	NA
Cl.28 of IS 302-2-35:2017(Screws and Connections )	-	500	NA
Cl.29 of IS 302-2-35:2017(Clearances, Creepage Distances and Solid Insulation)	-	500	NA
Cl.7 of IS 302-2-35:2017(Marking)	-	200	NA

Complete

05 Oct, 2025

Bureau of Indian Standards

The National Standards Body of India

Shri Krishna Test House

B-70/1, Gali no 8 , New modern Shahdara ,Near DDA Flats mansarover park shahdara, Delhi, Shahdara, Delhi, 110032

9891112786 skth1234@gmail.com

Scope List