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Atmy Analytical Labs Pvt. Ltd., Faridabad

I-30,DLF Industrial Area, Phase-1, Faridabad, Faridabad, Haryana, 121003

9910808996 info@atmylabs.com

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301 Results

S.No.

Indian Standard No.

Product

Grade / Type / Size / Designation etc.

Testing Charges (Excl. Of Taxes)

Validity Date

Remark

IS 16703 (2017)

Textiles - High density polyethylene (HDPE) polypropylene (PP) woven sacks for packaging of 25 kg polymer materials - Specification

24900 View breakup
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Clause No.	Exclusion	Remark
5.1(Mass of Bale)	-	-
5.2 Table 1(Dimensions)	-	-
5.2 Table 1(Dimensions)	-	-
5.2 Table 1(Dimensions)	-	-
5.2 Table 1(Dimensions)	-	-
5.2 Table 1(Ends per dm)	-	-
5.2 Table 1(Picks per dm)	-	-
5.2 Table 1(Mass of sack, Gusseted type, g - IS 1964)	-	-
5.2 Table 1(Average breaking strength of fabric [Ravelled strip method, 325 mm × 70mm1)] Min, N) (kgf): - IS 1969 (Part 1))	-	-
5.2 Table 1(Average breaking strength of fabric [Ravelled strip method, 325 mm × 70mm1)] Min, N2) (kgf): - IS 1969 (Part 1))	-	-
5.2 Table 1(Breaking strength of bottom seam (Ravelled strip method), Min, N) (kgf) - IS 9030)	-	-
5.2 Table 1(Elongation at break of fabric (Ravelled strip method), percent : IS 1969 (Part 1))	-	-
5.2 Table 1(Elongation at break of fabric (Ravelled strip method), percent : IS 1969 (Part 1))	-	-
5.2 Table 1(Drop impact strength)	-	-
(Clauses 4.2, 5.1, 5.2, 5.3 and 5.4) Table 1 (Ash Content ,a) For UV stabilized sacks)	-	-
(Clauses 4.2, 5.1, 5.2, 5.3 and 5.4) Table 1 (Ash Content ,b) For non- UV stabilized sacks)	-	-
4.6(Capacity)	-	-
4.3.1(Bottom Seam)	-	-
4.3(Sacks)	-	-
4.2,5.1,5.2,5.3,5.4(Breaking strenght after U.V. Exposure (Warp/Weft))	-	-
4.2,5.1,5.2,5.3,5.4,(UV Resistance (192 hrs)(100 x 65+92x40))	-	-
4.2(Linear Density)	-	-
4.2(Width of tape)	-	-

25 Feb, 2027

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-

IS 16647 (2017)

Oriented unplasticized polyvinyl chloride (Pvc - O) pipes for water supply - Specification

49500 View breakup
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Clause No.	Exclusion	Remark
5.5( Density, g/cc)	-	-
9 /9.1 / 27 degree centigrate(MECHANICAL CHARACTERISTICS OF PIPES9./ Resistance to Hydrostatic Pressure)	-	-
7.3( Opacity)	-	-
9.2, table -11( Resistance to External Blows at 0 °C)	-	-
8.2 table-9( Pipe Ends)	-	-
5 / 5.1(MATERIALS )	-	-
5.3(VCM Content)	-	-
5.4( K-Value)	-	-
5.6 / 5.6.1( Material Classification, table -1)	-	-
6.0(CLASSIFICATION OF PIPES, table-2)	-	-
7, see 8.3 and fig-1( GENERAL REQUIREMENTS OF PIPES/ visual appearance)	-	-
7.2( Colour)	-	-
8.1.1, 8.1.1.2, table-3(Dimension of Pipes / Diameter/8.1.1.2 Diameter at any point)	-	-
8.1.2, table 4 to 7(Wall Thickness)	-	-
8.1.3 (Length, meter)	-	-
8.2 table-9(Dimensions of Integral Socket)	-	-
9.3 table-12( Ring Stiffness)	-	-
9.4, annexure-E( Orientation Factor)	-	-
10, table-13( PHYSICAL AND 1CHARACTERISTICS)	-	-
11,11.1( MECHANICAL CHARACTERISTICS OF ASSEMBLIES INCLUDING JOINTS/ 11.1 Assemblies with Non-End-Load-Bearing Joints)	-	-
11.2 / 11.2.1( Short-Term Pressure Test for Leak Tightness of Assemblies)	-	-
11.3( Short-Term Negative Pressure Test for Leak Tightness of Assemblies)	-	-
12(a)( ELASTOMERIC SEALS)	-	-
12(b)( ELASTOMERIC SEALS)	-	-
Cl.10, Table 10/1(Vicat Softening Temp (C))	-	-
Cl.10, Table 10/2(Effect on Water)	-	-
Cl.10, Table 10/3(Resistant to di-chloromethane (Degree of gelation))	-	-
Cl.10, Table 10/4(Alternate Test (Tensile test))	-	-

25 Feb, 2027

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Included w.e.f 10.02.2025

IS 1660 (2024)

Wrought and Cast Aluminium Utensils Specification ( Second Revision )

28500 View breakup
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Clause No.	Exclusion	Remark
Cl-3.1.1, 3.1.2(Minimum Thickness of Sheet)	-	-
Cl-3.1.3, Table-2(Minimum Thickness at the Bottom)	-	-
Cl-3.1.3, Table-2(Minimium Thickness of Wall at the Top Edge)	-	-
Cl-3.1.3, Table-2(Minimum Cover Thickness)	-	-
Cl-4.1(Main body of utensil)	-	-
Cl-4.1(Cast cookware)	-	-
Cl-4.1(Other aluminum components and parts)	-	-
Cl-4.1.1(Lids (material))	-	-
Cl-4.1.1(Minimum thickness of lid)	-	-
Cl-4.1.2(Minimum thickness of glass)	-	-
Cl-4.1.2(Material of rim)	-	-
Cl-4.1.2(Minimum thickness of rim)	-	-
Cl-4.2(Material of strips)	-	-
Cl-4.2(Stainless steel handles, rivets and fittings)	-	-
Cl-4.3(Clips of lunch box)	-	-
Cl-4.3(Clips of lunch box)	-	-
Cl-4.3(Rivets used in lunch box)	-	-
Cl-4.4(Screws, studs/nuts, and locking loop)	-	-
Cl-4.5(Rivets for fixing of handles)	-	-
Cl-4.5(Material of cap)	-	-
Cl-4.6(Strips used for flame guards)	-	-
Cl-4.6(stainless steel)	-	-
Cl-5(Fabrication)	-	-
Cl-6(Shape and Dimensions)	-	-
Cl-7.1(Handles, when fitted)	-	-
Cl-7.2(Handles)	-	-
Cl-7.3 (Cl- 4.1 of IS 13395)(Construction)	-	-
Cl-7.3 (Cl- 4.2 of IS 13395)(Materials)	-	-
Cl-7.3 (Cl- 4.3 of IS 13395)(Selection and Size)	-	-
Cl-7.3 (Cl- 4.4 of IS 13395)(Position of Handle and Knob with Respect to Cookware)	-	-
Cl-7.3 (Cl- 4.5 of IS 13395)(Attachment to Cookware)	-	-
Cl-7.3 (Cl- 5.2 of IS 13395)(Bending Strength)	-	-
Cl-7.3 (Cl- 5.3 of IS 13395)(Torque Strength)	-	-
Cl-7.3 (Cl- 5.4 of IS 13395)(Impact Strength)	-	-
Cl-7.3 (Cl- 5.5 of IS 13395)(Fatigue Resistance)	-	-
Cl-7.3 (Cl- 5.6 of IS 13395)(Leakage)	-	-
Cl-7.3 (Cl- 5.7 of IS 13395)(Thermal Insulation)	-	-
Wrought and Cast Aluminium Utensils — Specification(Heat Resistance)	-	-
Cl-7.3 (Cl- 5.9 of IS 13395)(Washing Resistance (Type Test))	-	-
Cl-7.3 (Cl- 5.10 of IS 13395)(Burning Resistance)	-	-
Cl-8(Workmanship and Finish)	-	-
Cl-8.3(Utensils, if anodized, fully or partially)	-	-
Cl-8.3(Minimum nominal thickness)	-	-
Cl-8.3(Thickness of hard anodized)	-	-
Cl-8.3(Finish and appearance of hard anodized)	-	-
Cl-8.3(Abrasion resistance of hard anodized)	-	-
Cl-8.3(Colour of hard anodized)	-	-
Cl-8.3(Hardness of hard anodized)	-	-
Wrought and Cast Aluminium Utensils — Specification(Lid of the cookware)	-	-
Cl-8.5(Non-stick unreinforced PTFE)	-	-
Cl-8.6(Ceramic coating)	-	-
Cl-8.7(The thickness test, adhesion test)	-	-
Cl-8.7(Minimum thickness of coating)	-	-
Cl-8.7.1(Dry heat the cookware)	-	-
Cl-8.8(Requirements of PTFE)	-	-
Cl-8.9(Material for induction plate)	-	-
Cl-8.9(Test for Induction compatible base)	-	-
Cl-8.10.1(Tests for Lunch Boxes- Performance Test)	-	-
Cl-8.10.1(Tests for Lunch Boxes- Performance Test)	-	-
Cl-8.10.2(Tests for Lunch Boxes- Ground Nut Oil Test for Leakage)	-	-
Cl-8.11.1(Test(s) on Tempered Glass Lid- Fragmentation Test)	-	-
Cl-8.11.2(Test(s) on Tempered Glass Lid-Ball Drop Test)	-	-
Cl-8.11.3(Test(s) on Tempered Glass Lid- Thermal Shock Test)	-	-
Cl-8.11.4(Test(s) on Tempered Glass Lid- Free Fall Test)	-	-
Cl-9.1(Normal Capacity)	-	-
Cl-9.2(Normal Capacity of internal diameter)	-	-
Cl-3.1.1, 3.1.2(Minimum Thickness of Sheet)	-	-
Cl-3.1.3, Table-2(Minimum Thickness at the Bottom)	-	-
Cl-3.1.3, Table-2(Minimium Thickness of Wall at the Top Edge)	-	-
Cl-3.1.3, Table-2(Minimum Cover Thickness)	-	-
Cl-4.1(Main body of utensil)	-	-
Cl-4.1(Cast cookware)	-	-
Cl-4.1(Other aluminum components and parts)	-	-
Cl-4.1.1(Lids (material))	-	-
Cl-4.1.1(Minimum thickness of lid)	-	-
Cl-4.1.2(Minimum thickness of glass)	-	-
Cl-4.1.2(Material of rim)	-	-
Cl-4.1.2(Minimum thickness of rim)	-	-
Cl-4.2(Material of strips)	-	-
Cl-4.2(Stainless steel handles, rivets and fittings)	-	-
Cl-4.3(Clips of lunch box)	-	-
Cl-4.3(Clips of lunch box)	-	-
Cl-4.3(Rivets used in lunch box)	-	-
Cl-4.4(Screws, studs/nuts, and locking loop)	-	-
Cl-4.5(Rivets for fixing of handles)	-	-
Cl-4.5(Material of cap)	-	-
Cl-4.6(Strips used for flame guards)	-	-
Cl-4.6(stainless steel)	-	-
Cl-5(Fabrication)	-	-
Cl-6(Shape and Dimensions)	-	-
Cl-7.1(Handles, when fitted)	-	-
Cl-7.2(Handles)	-	-
Cl-7.3 (Cl- 4.1 of IS 13395)(Construction)	-	-
Cl-7.3 (Cl- 4.2 of IS 13395)(Materials)	-	-
Cl-7.3 (Cl- 4.3 of IS 13395)(Selection and Size)	-	-
Cl-7.3 (Cl- 4.4 of IS 13395)(Position of Handle and Knob with Respect to Cookware)	-	-
Cl-7.3 (Cl- 4.5 of IS 13395)(Attachment to Cookware)	-	-
Cl-7.3 (Cl- 5.2 of IS 13395)(Bending Strength)	-	-
Cl-7.3 (Cl- 5.3 of IS 13395)(Torque Strength)	-	-
Cl-7.3 (Cl- 5.4 of IS 13395)(Impact Strength)	-	-
Cl-7.3 (Cl- 5.5 of IS 13395)(Fatigue Resistance)	-	-
Cl-7.3 (Cl- 5.6 of IS 13395)(Leakage)	-	-
Cl-7.3 (Cl- 5.7 of IS 13395)(Thermal Insulation)	-	-
Wrought and Cast Aluminium Utensils — Specification(Heat Resistance)	-	-
Cl-7.3 (Cl- 5.9 of IS 13395)(Washing Resistance (Type Test))	-	-
Cl-7.3 (Cl- 5.10 of IS 13395)(Burning Resistance)	-	-
Cl-8(Workmanship and Finish)	-	-
Cl-8.3(Utensils, if anodized, fully or partially)	-	-
Cl-8.3(Minimum nominal thickness)	-	-
Cl-8.3(Thickness of hard anodized)	-	-
Cl-8.3(Finish and appearance of hard anodized)	-	-
Cl-8.3(Abrasion resistance of hard anodized)	-	-
Cl-8.3(Colour of hard anodized)	-	-
Cl-8.3(Hardness of hard anodized)	-	-
Wrought and Cast Aluminium Utensils — Specification(Lid of the cookware)	-	-
Cl-8.5(Non-stick unreinforced PTFE)	-	-
Cl-8.6(Ceramic coating)	-	-
Cl-8.7(The thickness test, adhesion test)	-	-
Cl-8.7(Minimum thickness of coating)	-	-
Cl-8.7.1(Dry heat the cookware)	-	-
Cl-8.8(Requirements of PTFE)	-	-
Cl-8.9(Material for induction plate)	-	-
Cl-8.9(Test for Induction compatible base)	-	-
Cl-8.10.1(Tests for Lunch Boxes- Performance Test)	-	-
Cl-8.10.1(Tests for Lunch Boxes- Performance Test)	-	-
Cl-8.10.2(Tests for Lunch Boxes- Ground Nut Oil Test for Leakage)	-	-
Cl-8.11.1(Test(s) on Tempered Glass Lid- Fragmentation Test)	-	-
Cl-8.11.2(Test(s) on Tempered Glass Lid-Ball Drop Test)	-	-
Cl-8.11.3(Test(s) on Tempered Glass Lid- Thermal Shock Test)	-	-
Cl-8.11.4(Test(s) on Tempered Glass Lid- Free Fall Test)	-	-
Cl-9.1(Normal Capacity)	-	-
Cl-9.2(Normal Capacity of internal diameter)	-	-

25 Feb, 2027

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-

IS 1171 (2011)

Ferromanganese - Specification (Fifth Revision)

14900 View breakup
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Clause No.	Exclusion	Remark
Clause-4(Grades)	-	-
Clause-6(Supply of Materials)	-	-
Clause-7.1(Constitution of Consignment)	-	-
Clause-7, Table-1, S.No-3(Mn)	-	-
Clause-7.2.1,Table-1, S.No-4(C)	-	-
Clause-7.2.1, Table-1, S.No-5(Si Max)	-	-
Clause-7.2.1,Table-1, S.No-6(S Max)	-	-
Clause-7.2.1,Table-1, S.No-7(P Max)	-	-
Clause-8(Size Range)	-	-
Clause-12(Marking)	-	-

25 Feb, 2027

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-

IS 14261 (1995)

Transmission devices - V - Belts endless narrowv - Belts for industrial use - Specification

16500 View breakup
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Clause No.	Exclusion	Remark
Cl 4(Material And Workmanship)	-	-
Cl 5.1(Cross-Section Dimensions)	-	-
Cl 5.2(Cross-Section Dimensions)	-	-
Cl 6(DESIGNATION)	-	-
Cl 7(Length Measurement And Tolerances)	-	-
Cl 7.2.1(Determination of Pitch Length)	-	-
Cl 7.2.2(Determination of Pitch Length)	-	-
Cl 7.2.3(Determination of Pitch Length)	-	-
Cl 7.3(Matched Belts)	-	-

25 Feb, 2027

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IS 18513 (2023)

Hot-Dip Zinc- Aluminium-Magnesium Alloy Coated Steel Sheets Plates and Strips - Specification

ALL

24500 View breakup
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Clause No.	Exclusion	Remark
Clause. 5.4(Surface Finish)	-	-
Clause. 7.0(Material)	-	-
Clause. 8.0(Coating Adherence)	-	-
Clause. 8.0(Coating Mass)	-	-
Clause. 10.0(Tensile Test)	-	-
Clause. 10.0(Yield Stress or Proof stress)	-	-
Clause. 10.0(Elongation)	-	-
Clause. 10.0(Plastic strain Ratio)	-	-
Clause. 10.0(Tensile Strain Hardening Component)	-	-
Clause. 10.0(Bake Hardening Index)	-	-
Clause. 10.0(Hardness Test)	-	-
Clause. 10.0(Bend Test)	-	-
Clause.11.0(Dimensions, Shape & Tolerances)	-	-
7(C)	-	-
7(Mn)	-	-
7(P)	-	-
7(S)	-	-
7(Si)	-	-
7(N)	-	-
7(Cr)	-	-
7(Mo)	-	-
7(Ni)	-	-
7(Al)	-	-
7(B)	-	-
7(Ti)	-	-
7(V)	-	-
7(Nb)	-	-

25 Feb, 2027

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Included w.e.f 04.12.2024

IS 1865 (1991)

Iron castings with spheroidal or nodular graphite - Specification (Third Revision)

ALL

14500 View breakup
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Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
3(Grades)	-	14500	-
4.1(General requirements)	-	14500	-
5(Manufacture)	-	14500	-
6(Workmanship and finish)	-	14500	-
7(Heat treatment)	-	14500	-
9(Micro structure)	-	14500	-
10.1(Separately-Cast Test Samples)	-	14500	-
10.2(Cast-on Test Samples)	-	14500	-
11.1(Batch)	-	14500	-
11.2(Number of Tests per Batch)	-	14500	-
12.1(Tensile Strength)	-	14500	-
12.2(Impact Test)	-	14500	-
13.1(Tensile Test)	-	14500	-
13.2(Hardness Test)	-	14500	-
13.3(Impact Test)	-	14500	-
14(Validity of tests)	-	14500	-
15(Retest)	-	14500	-
16(Additional test)	-	14500	-
17(Marking)	-	14500	-

25 Feb, 2027

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IS/ISO 9994 (2018)

Lighters Safety specifications First Revision

18500 View breakup
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Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
Cl.4(Flame Generation)	-	18500	-
Cl.4.2(Flame Height)	-	18500	-
Cl.4.3(Flame-Height adjustment)	-	18500	-
Cl.4.4(Resistance to spitting or sputtering and flaring)	-	18500	-
Cl.4.5(Flame Extinction)	-	18500	-
Cl.4.6(Volumetric displacement of Fuel)	-	18500	-
Cl.4.7(Mass of Fuel)	-	18500	-
Cl.5.1(External Finish)	-	18500	-
Cl.5.2(Compatibility of Fuel)	-	18500	-
Cl.5.3(Resistance to Fuel Loss)	-	18500	-
Cl.5.4(Resistance to dropping)	-	18500	-
Cl.5.5(Resistance to elevated Temperature)	-	18500	-
Cl.5.6(Resistance to internal Pressure)	-	18500	-
Cl.5.7(Burning Behavior)	-	18500	-
Cl.5.8(Resistance to cyclic burning)	-	18500	-
Cl.5.9(Resistance to Continue Burning)	-	18500	-
6.6, 6.6.3.1(Refilling test-IS/ISO 9994)	-	18500	-
6.6, 6.6.3.2(Refilling test-IS/ISO 9994)	-	18500	-

25 Feb, 2027

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IS 4992 (2024)

Door Handles for Mortice Locks â Specification (Second Revision)

ALL

18800 View breakup
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Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
Cl-6.1(Fastening Elements and Spindle)	-	18800	-
Cl-6.2, Table-2 (i) a(Axial strength percent)	-	18800	-
Cl-6.2, Table-2 (i) b(Pre-load)	-	18800	-
Cl-6.2, Table-2 (i) c(Permanent deformation)	-	18800	-
Cl-6.3(Safety Requirements)	-	18800	-
Cl-6.4, Table-3 (1) a(Number of cycles)	-	18800	-
Cl-6.4, Table-3 (1) b(Force “P”)	-	18800	-
Cl-6.5(Corrosion Resistance)	-	18800	-
Cl-6.6(Fire Resistance Test)	-	18800	-
Cl-8(Marking)	-	18800	-

25 Feb, 2027

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IS 1470 (2013)

Silicomanganese - Specification (Fourth Revision)

14500 View breakup
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Clause No.	Exclusion	Remark
Clause-4(Grades)	-	-
Clause-6(Supply of Materials)	-	-
Clause-7.1(Constitution of Consignment)	-	-
Clause-7.2.1(Mn, Max)	-	-
Clause-7.2.1(Si, Max)	-	-
Clause-7.2.1(Phosphorus)	-	-
Clause-7.2.1(Sulphur)	-	-
Clause-7.2.4(Established instrumental/chemical method)	-	-
Clause-8(Size Designation)	-	-
Clause-10(Sampling)	-	-
Clause-12(Marking)	-	-

25 Feb, 2027

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Included w.e.f 04.12.2024

IS 18384 (2023)

Hot-Rolled Steel Strip, Sheet and Plates for Welded Steel Pipe for Pipeline Transportation Systems ï¿½ Specification

19900 View breakup
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Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
Cl.8.1, 8.2, 8.4, table 2, table 3(Carbon- Relevant parts of IS 228 or any other established chemical/instrumental method)	-	19900	-
Cl.8.1, 8.2, 8.4, table 2, table 3(Sulphur- Relevant parts of IS 228 or any other established chemical/instrumental method)	-	19900	-
Cl.8.1, 8.2, 8.4, table 2, table 3(Phosphorous- Relevant parts of IS 228 or any other established chemical/instrumental method)	-	19900	-
Cl.8.1, 8.2, 8.4, table 2, table 3(Manganese- IRelevant parts of IS 228 or any other established chemical/instrumental method)	-	19900	-
Cl.8.1, 8.2, 8.4, table 2, table 3(Silicon- Relevant parts of IS 228 or any other established chemical/instrumental method)	-	19900	-
Cl.8.1, 8.2, 8.4, table 2, table 3(Chromium-Relevant parts of IS 228 or any other established chemical/instrumental method)	-	19900	-
Cl.8.1, 8.2, 8.4, table 2, table 3(Copper- Relevant parts of IS 228 or any other established chemical/instrumental method)	-	19900	-
Cl.8.1, 8.2, 8.4, table 2, table 3(Nickel- Relevant parts of IS 228 or any other established chemical/instrumental method)	-	19900	-
Cl.8.1, 8.2, 8.4, table 2, table 3(Molybdenum- Relevant parts of IS 228 or any other established chemical/instrumental method)	-	19900	-
Cl.8.1, 8.2, 8.4, table 2, table 3(Vanadium- Relevant parts of IS 228 or any other established chemical/instrumental method)	-	19900	-
Cl.8.1, 8.2, 8.4, table 2, table 3(Niobium- Relevant parts of IS 228 or any other established chemical/instrumental method)	-	19900	-
Cl.8.1, 8.2, 8.4, table 2, table 3(Titanium- Relevant parts of IS 228 or any other established chemical/instrumental method)	-	19900	-
Cl.8.1, 8.2, 8.4, table 2, table 3(Nb+V Relevant parts of IS 228 or any other established chemical/instrumental method)	-	19900	-
Cl.8.1, 8.2, 8.4, table 2, table 3(Nb+V+Ti Relevant parts of IS 228 or any other established chemical/instrumental method)	-	19900	-
Cl.8.1, 8.2, 8.4, table 2, table 3(others-- Relevant parts of IS 228 or any other established chemical/instrumental method)	-	19900	-
Cl.8.1, 8.2, 8.4, table 2, table 3(CEPcm- Relevant parts of IS 228 or any other established chemical/instrumental method)	-	19900	-
Cl.8.1, 8.2, 8.4, table 2, table 3(CEIIW - Relevant parts of IS 228 or any other established chemical/instrumental method)	-	19900	-
9(Yield Strength)	-	19900	-
9(Tensile Strength)	-	19900	-
9(Plastic Strain Ratio)	-	19900	-
9(Elongation)	-	19900	-
10(Bend Test)	-	19900	-
11(Hardnes Test)	-	19900	-
12(CVN Impact Test)	-	19900	-
13(DWT Test)	-	19900	-
17(Dimensions)	-	19900	-
18(Tolerances)	-	19900	-
Cl.8.1, 8.2, 8.4, table 2, table 3(Carbon- Relevant parts of IS 228 or any other established chemical/instrumental method)	-	19900	-
Cl.8.1, 8.2, 8.4, table 2, table 3(Sulphur- Relevant parts of IS 228 or any other established chemical/instrumental method)	-	19900	-
Cl.8.1, 8.2, 8.4, table 2, table 3(Phosphorous- Relevant parts of IS 228 or any other established chemical/instrumental method)	-	19900	-
Cl.8.1, 8.2, 8.4, table 2, table 3(Manganese- IRelevant parts of IS 228 or any other established chemical/instrumental method)	-	19900	-
Cl.8.1, 8.2, 8.4, table 2, table 3(Silicon- Relevant parts of IS 228 or any other established chemical/instrumental method)	-	19900	-
Cl.8.1, 8.2, 8.4, table 2, table 3(Chromium-Relevant parts of IS 228 or any other established chemical/instrumental method)	-	19900	-
Cl.8.1, 8.2, 8.4, table 2, table 3(Copper- Relevant parts of IS 228 or any other established chemical/instrumental method)	-	19900	-
Cl.8.1, 8.2, 8.4, table 2, table 3(Nickel- Relevant parts of IS 228 or any other established chemical/instrumental method)	-	19900	-
Cl.8.1, 8.2, 8.4, table 2, table 3(Molybdenum- Relevant parts of IS 228 or any other established chemical/instrumental method)	-	19900	-
Cl.8.1, 8.2, 8.4, table 2, table 3(Vanadium- Relevant parts of IS 228 or any other established chemical/instrumental method)	-	19900	-
Cl.8.1, 8.2, 8.4, table 2, table 3(Niobium- Relevant parts of IS 228 or any other established chemical/instrumental method)	-	19900	-
Cl.8.1, 8.2, 8.4, table 2, table 3(Titanium- Relevant parts of IS 228 or any other established chemical/instrumental method)	-	19900	-
Cl.8.1, 8.2, 8.4, table 2, table 3(Nb+V Relevant parts of IS 228 or any other established chemical/instrumental method)	-	19900	-
Cl.8.1, 8.2, 8.4, table 2, table 3(Nb+V+Ti Relevant parts of IS 228 or any other established chemical/instrumental method)	-	19900	-
Cl.8.1, 8.2, 8.4, table 2, table 3(others-- Relevant parts of IS 228 or any other established chemical/instrumental method)	-	19900	-
Cl.8.1, 8.2, 8.4, table 2, table 3(CEPcm- Relevant parts of IS 228 or any other established chemical/instrumental method)	-	19900	-
Cl.8.1, 8.2, 8.4, table 2, table 3(CEIIW - Relevant parts of IS 228 or any other established chemical/instrumental method)	-	19900	-
9(Yield Strength)	-	19900	-
9(Tensile Strength)	-	19900	-
9(Plastic Strain Ratio)	-	19900	-
9(Elongation)	-	19900	-
10(Bend Test)	-	19900	-
11(Hardnes Test)	-	19900	-
12(CVN Impact Test)	-	19900	-
13(DWT Test)	-	19900	-
17(Dimensions)	-	19900	-
18(Tolerances)	-	19900	-

25 Feb, 2027

-
Included w.e.f. 20.11.2024

IS 17954 (2023)

TELESCOPIC BALL BEARING DRAWER SLIDE SPECIFICATION

ALL

24900 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
Cl-4.2, Table- 2 (i)(Internal channel)	-	24900	-
Cl-4.2, Table- 2 (ii)(Outer channel)	-	24900	-
Cl-4.2, Table- 2 (iii)(Track up to 550 mm)	-	24900	-
Cl-4.2, Table- 2 (iv)(Track from 600 mm onwards)	-	24900	-
Cl-4.2, Table- 2 (v)(Ball cage)	-	24900	-
Cl-4.2, Table- 2 (vi)(Ball spacer)	-	24900	-
Cl-5(Components and Manufacture)	-	24900	-
Cl-5(Components and Manufacture)	-	24900	-
Cl-6.1(Preparatory Measures)	-	24900	-
Cl-6.2 (a)(Limiting Deviations- Force)	-	24900	-
Cl-6.2 (b)(Limiting Deviations- Speed)	-	24900	-
Cl-6.2 (c)(Limiting Deviations- Weights)	-	24900	-
Cl-6.2 (d)(Limiting Deviations- Dimension)	-	24900	-
Cl-6.3(Application of Forces)	-	24900	-
Cl-6.4(Testing Equipment)	-	24900	-
Cl-6.5(Sequence of testing)	-	24900	-
Cl-7(Vertical Load Test)	-	24900	-
Cl-8(Horizontal Load Test)	-	24900	-
Cl-9(Durability Test)	-	24900	-
Cl-10(Deflection Test)	-	24900	-
Cl-11(Slam Test)	-	24900	-
Cl-12(Finish)	-	24900	-
Cl-5.11(Ball)	-	24900	-
Cl-5.10(Rivets)	-	24900	-
Cl-4.2, Table- 2 (i)(Internal channel)	-	24900	-
Cl-4.2, Table- 2 (ii)(Outer channel)	-	24900	-
Cl-4.2, Table- 2 (iii)(Track up to 550 mm)	-	24900	-
Cl-4.2, Table- 2 (iv)(Track from 600 mm onwards)	-	24900	-
Cl-4.2, Table- 2 (v)(Ball cage)	-	24900	-
Cl-4.2, Table- 2 (vi)(Ball spacer)	-	24900	-
Cl-5(Components and Manufacture)	-	24900	-
Cl-5(Components and Manufacture)	-	24900	-
Cl-6.1(Preparatory Measures)	-	24900	-
Cl-6.2 (a)(Limiting Deviations- Force)	-	24900	-
Cl-6.2 (b)(Limiting Deviations- Speed)	-	24900	-
Cl-6.2 (c)(Limiting Deviations- Weights)	-	24900	-
Cl-6.2 (d)(Limiting Deviations- Dimension)	-	24900	-
Cl-6.3(Application of Forces)	-	24900	-
Cl-6.4(Testing Equipment)	-	24900	-
Cl-6.5(Sequence of testing)	-	24900	-
Cl-7(Vertical Load Test)	-	24900	-
Cl-8(Horizontal Load Test)	-	24900	-
Cl-9(Durability Test)	-	24900	-
Cl-10(Deflection Test)	-	24900	-
Cl-11(Slam Test)	-	24900	-
Cl-12(Finish)	-	24900	-
Cl-5.11(Ball)	-	24900	-
Cl-5.10(Rivets)	-	24900	-

25 Feb, 2027

-
-

IS 18340 (2023)

Vinyl Sulphone - Specification

22500 View breakup
-

Clause No.	Exclusion	Remark
Cl-3.1(Description)	-	-
Cl-3.2, Table-1 (i)(Assay (by nitrite value), percent by mass (on dry basis), Min)	-	-
Cl-3.2, Table-1 (i)(Assay (by HPLC1)), percent area (on dry basis),Min)	-	-
Cl-3.2, Table-1 (ii)(Hydrolysis value, percent by mass (on 100 percent basis), Min)	-	-
Cl-3.2, Table-1 (iii)(Matter insoluble in sodium carbonate solution percent by mass, Max)	-	-
Cl-3.2, Table-1 (iv)(4-Chloroaniline content, percent by mass (on 100 percent basis), Max)	-	-
Cl-4.2(Marking)	-	-

25 Feb, 2027

-
Included w.e.f. 20.11.2024

IS 18507 (2024)

Drywall Screws ï¿½ Specification

ALL

19800 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
Clause. 4.0(Dimenssions.)	-	19800	-
Clause. 4.0(Thread size.)	-	19800	-
Clause. 4.0(Length)	-	19800	-
Clause. 5.0(Material)	-	19800	-
Clause. 5.0(Cross Recess)	-	19800	-
Clause. 5.0(Tolerances)	-	19800	-
Clause. 5.0(Surface Condition)	-	19800	-
Clause. 5.0(Surface Coating)	-	19800	-
Clause. 5.0(Acceptability)	-	19800	-
Clause.6.0(Torque Testing)	-	19800	-
Clause.7.0(Hardness)	-	19800	-
Clause.8.0(Designation)	-	19800	-
Clause.9.0(Marking)	-	19800	-

25 Feb, 2027

-
Included w.e.f. 20.11.2024

IS 2494 : Part 2 (1993)

V - Belts - Endless V - Belts for industrial purposes: Part 2 fire resistant and antistatic V - Belts - Specification

ALL

16500 View breakup
-

Clause No.	Exclusion	Remark
3.1(Fire Resistant Antistatic V-belts)	-	-
3.2(Antistatic V-belts)	-	-
5(Requirements)	-	-
7.1(Fire Resistance Test)	-	-
7.2(Electrical Resistance Test)	-	-
7.3(Tensile Test)	-	-
8(Designation)	-	-
9(Marking)	-	-

25 Feb, 2027

-
-

IS 8637 (2020)

H Acid ? Specification ( Second Revision )

22500 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
3.1(Description)	-	22500	-
3.2-Table 1-(i)(Purity (by nitrite value))	-	22500	-
3.2-Table 1-(ii)(Difference between nitrite value and coupling value)	-	22500	-
3.2-Table 1-(iii)(Matter insoluble in sodium carbonate solution)	-	22500	-
3.2-Table 1-(iv)(Purity (by HPCL))	-	22500	-
3.2-Table 1-(v)(Chromotropic acid content,)	-	22500	-
3.2-Table 1-(vi)(Koch’s acid content)	-	22500	-
4.1(Packing )	-	22500	-
4.2(Marking)	-	22500	-

25 Feb, 2027

-
Included w.e.f. 20.11.2024

IS 1254 (2007)

Corrugated aluminium sheet (Fourth Revision)

ALL

14900 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
3(FREEDOM FROM DEFECTS)	-	14900	-
4(SUPPLY OF MATERIAL)	-	14900	-
5(PROFILE)	-	14900	-
6(MATERIAL)	-	14900	-
7.2(WIDTH)	-	14900	-
7.3(LENGTH)	-	14900	-
7.4(SQUARENESS)	-	14900	-
7.5(Depth and Pitch of the Corrugation)	-	14900	-
8(FINISH)	-	14900	-
9(MARKING)	-	14900	-

25 Feb, 2027

-
Included w.e.f 04.12.2024

IS 18297 (2023)

Cabinet Hinges

ALL

24900 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
4(Type & Size)	-	24900	-
4.1(Type (a) Full Overlay (Fig-1))	-	24900	-
4.2((b) Half Overlay (Fig-2))	-	24900	-
4.1((b) Half Overlay (Fig-2))	-	24900	-
4.1(c) Inset (Fig-2))	-	24900	-
4.2(Size (Fig-2))	-	24900	-
4.3(Manufacture & Purchaser)	-	24900	-
5(Material (IS 18297))	-	24900	-
6 Table 1(Manufacture(IS: 18297))	-	24900	-
7.1(General Test Requirement (IS: 18297))	-	24900	-
7.1.1(Preparatory Measures (IS:18297))	-	24900	-
7.1.2(Limiting Deviations (IS:18297))	-	24900	-
7.1.3(Application of Force (IS: 18297))	-	24900	-
7.1.4(Sequence of Testing (IS 18297))	-	24900	-
7.1.5.1(Mass (IS:18297))	-	24900	-
7.1.5.2((i) Face withdrawal of Screws (IS: 2380 P-14))	-	24900	-
7.1.5.2((ii) Density (IS 2380 P-3))	-	24900	-
7.2(Over Load Test (IS 18297))	-	24900	-
7.2(Vertical Static over Load test (IS:18297))	-	24900	-
7.2(Horizontal Static Over load Test ( IS:18297))	-	24900	-
Cabinet Hinges(Functional Test (IS: 18297))	-	24900	-
Cabinet Hinges(Functional Test (IS: 18297))	-	24900	-
7.3.2(First Vertical Static Load test (IS 18297))	-	24900	-
7.3.3(First Horizontal Static Load test (IS 18297))	-	24900	-
7.3.4(Slam shut test (IS 18297))	-	24900	-
7.3.6(Durability Test (IS 18297))	-	24900	-
7.3.7(Deflection Test (IS 18297))	-	24900	-
7.3.8(Second Vertical Static Test (IS 18297))	-	24900	-
7.3.9(Second Horizontal Static Test (IS: 18297))	-	24900	-
7.4(Crrosion Resistance (IS 18297))	-	24900	-
7.5(Finish (IS: 18297))	-	24900	-
7.3.1(Operating Forces)	-	24900	-

25 Feb, 2027

-
-

IS 18573 (2024)

Cold formed welded carbon steel square and rectangular hollow sections for mechanical, general engineering and decorative purposes ï¿½ Specification

ALL

14900 View breakup
-

Clause No.	Exclusion	Remark
Clause. 3.0(Types)	-	-
Clause.4.0(Carbon)	-	-
Clause.4.0(Sulphur)	-	-
Clause.4.0(Sulphur)	-	-
Clause.4.0(Phosphorus)	-	-
Clause.4.0(Silicon)	-	-
Clause.4.0(Manganese)	-	-
Clause.5.0(Supply of Material)	-	-
Clause.5.0(Supply of Material)	-	-
Clause.6.0(Workmanship)	-	-
Clause.7.0(Straightness)	-	-
Clause.8.0(Basis of Calculation)	-	-
Clause.9.0(Length)	-	-
Clause.10.0(Dimensions and properties)	-	-
Clause.10.0(Dimensions and properties)	-	-
Clause.11.0(General)	-	-
Clause.11.0(Outside Dimension)	-	-
Clause.11.0(Thickness)	-	-
Clause.11.0(Thickness)	-	-
Clause.11.0(Concavity and Convexity)	-	-
Clause.11.0(Squareness of Sides)	-	-
Clause.11.0(External Corner Radiius)	-	-
Clause.11.0(Straightness and twist)	-	-
Clause.12.0(Dimension Tolerances)	-	-
Clause.12.0(Dimension Tolerances)	-	-
Clause.13.0(Surface Protection)	-	-
Clause.14.0(Testing)	-	-
Clause.15.0(Tensile test)	-	-
Clause.15.0(Yield strength)	-	-
Clause.15.0(Elognation Percent)	-	-
Clause.18.0(Marking)	-	-

25 Feb, 2027

-
Included w.e.f. 26.07.2024

IS 17861 (2022)

TEXTILE BOOTS WITH POLYMERIC SOLE JUNGLE BOOTS - SPECIFICATION Third Revision

50900 View breakup
-

Clause No.	Exclusion	Remark
Clause-5.1(Design)	-	-
Clause-5.2(Size and Fitting)	-	-
Clause-5.3(Height of Upper)	-	-
Clause-5.4(Weight)	-	-
Clause-5.5.1(Construction)	-	-
Clause-5.5.2(Upper – Outsole Bond Strength)	-	-
Clause-5.5.3(Consolidation Test (For Type 1 and Type 2))	-	-
Clause-5.5.4(Ergonomic Features)	-	-
Clause-5.5.5(Slip Resistance)	-	-
Clause-5.5.6(Energy Absorption of Seat Region)	-	-
Clause-5.5.7(Water Resistance)	-	-
Clause-5.6.1(Penetration Resistance)	-	-
Clause-5.6.2(Electrical Resistance (Antistatic))	-	-
Clause-5.6.3(Heat Insulation of Sole Complex)	-	-
Clause-5.6.4(Cold Insulation of Sole Complex)	-	-
Clause-5.7.1(Material)	-	-
Clause-5.7.2(Tear Strength)	-	-
Clause-5.7.3(Water Vapour Permeability and Coefficient)	-	-
Clause-5.7.4(Colour Fastness: Light)	-	-
Clause-5.7.4(Colour Fastness:Washing)	-	-
Clause-5.8.2(Tear Strength)	-	-
Clause-5.8.3(Abrasion Resistance)	-	-
Clause-5.8.4(Water Vapour Permeability and Coefficient)	-	-
Clause-5.9.1(Tear Strength)	-	-
Clause-5.10.1(Binding Tape)	-	-
Clause-5.11.1(Closing Thread)	-	-
Clause-5.12.1(Material and Thickness)	-	-
Clause-5.12.2(Abrasion Resistance)	-	-
Clause-5.12.3(Water Absorption and Desorption)	-	-
Clause-5.13.1(Material and Thickness)	-	-
Clause-5.13.2(Abrasion Resistance)	-	-
Clause-5.13.3(Bond Strength of Textile Layer and Insock)	-	-
Clause-5.15(Toe Puff and Counter Stiffener)	-	-
Clause-5.16.1(Material)	-	-
Clause-5.16.2(Thickness)	-	-
Clause-5.16.3(Sole Density)	-	-
Clause-5.16.4(Hardness)	-	-
Clause-5.16.5(Ageing)	-	-
Clause-5.16.6(Tear Strength)	-	-
Clause-5.16.7(Abrasion Resistance)	-	-
Clause-5.16.8(Flexing Resistance)	-	-
Clause-5.16.9(Hydrolysis)	-	-
Clause-5.16.10(Interlayer Bond Strength)	-	-
Clause-5.17(Eyelets)	-	-
Clause-5.18.1(Material)	-	-
Clause-5.18.2(Colour Fastness (Light, Washing))	-	-
Clause-5.18.3(Breaking Load and Tag Retention)	-	-
Clause-5.18.4.1(Lace to lace)	-	-
Clause-5.18.4.2(Lace to eyelet)	-	-
Clause-6, Table no. 1 of IS 17011,(i)(Allergenic and carcinogenic disperse dyes)	-	-
Clause-7(Marking)	-	-
Cl-5.10.2(Colour fastness to light)	-	-
Cl-5.10.2(Colour fastness to washing)	-	-
Cl-5.11.2(Colour fastness to washing)	-	-
Cl-5.11.2(Colour fastness to light)	-	-
Cl-5.11.2(Colour fastness to perspiration)	-	-
Cl 5.9(Outer Toe Cap (minimum thickness))	-	-
Cl- 6, Table No 1 of IS 17011 (ii)(Aromatic amines released from Azo dyes (each individual amine))	-	-
Cl-6, Table no 1 of IS 17011 (iii)(Aromatic amines released from Azo dyes (each individual amine))	-	-
Cl-6, Table no 1 of IS 17011 (iv)(Chromium (VI))	-	-
Cl-6, Table no-1 of IS 17011 (v)(Dimethyl fumarate (DMFU))	-	-
Cl-6, Table no1 of IS 17011 (vi)(Formaldehyde (free or released by partial hydrolysis))	-	-
Cl-6, Table no-1 of IS 17011 (vii)(Formaldehyde)	-	-
Cl-6, Table no 1 of IS 17011 (viii)(Organotin compounds)	-	-
Cl-6, Table no 1 of IS 17011 (ix)(PCP-TeCP-TriCP polychlorophenols)	-	-
Cl-6, Table no 1 of IS 17011 (x)(pH)	-	-
Cl-6, Table no 1 of IS 17011 (xi)(Phthalates (each individual phthalate))	-	-
Cl-6, Table no 1 of IS 17011 (xii)(Nickel, on skin contact)	-	-
Clause-5.1(Design)	-	-
Clause-5.2(Size and Fitting)	-	-
Clause-5.3(Height of Upper)	-	-
Clause-5.4(Weight)	-	-
Clause-5.5.1(Construction)	-	-
Clause-5.5.2(Upper – Outsole Bond Strength)	-	-
Clause-5.5.3(Consolidation Test (For Type 1 and Type 2))	-	-
Clause-5.5.4(Ergonomic Features)	-	-
Clause-5.5.5(Slip Resistance)	-	-
Clause-5.5.6(Energy Absorption of Seat Region)	-	-
Clause-5.5.7(Water Resistance)	-	-
Clause-5.6.1(Penetration Resistance)	-	-
Clause-5.6.2(Electrical Resistance (Antistatic))	-	-
Clause-5.6.3(Heat Insulation of Sole Complex)	-	-
Clause-5.6.4(Cold Insulation of Sole Complex)	-	-
Clause-5.7.1(Material)	-	-
Clause-5.7.2(Tear Strength)	-	-
Clause-5.7.3(Water Vapour Permeability and Coefficient)	-	-
Clause-5.7.4(Colour Fastness: Light)	-	-
Clause-5.7.4(Colour Fastness:Washing)	-	-
Clause-5.8.2(Tear Strength)	-	-
Clause-5.8.3(Abrasion Resistance)	-	-
Clause-5.8.4(Water Vapour Permeability and Coefficient)	-	-
Clause-5.9.1(Tear Strength)	-	-
Clause-5.10.1(Binding Tape)	-	-
Clause-5.11.1(Closing Thread)	-	-
Clause-5.12.1(Material and Thickness)	-	-
Clause-5.12.2(Abrasion Resistance)	-	-
Clause-5.12.3(Water Absorption and Desorption)	-	-
Clause-5.13.1(Material and Thickness)	-	-
Clause-5.13.2(Abrasion Resistance)	-	-
Clause-5.13.3(Bond Strength of Textile Layer and Insock)	-	-
Clause-5.15(Toe Puff and Counter Stiffener)	-	-
Clause-5.16.1(Material)	-	-
Clause-5.16.2(Thickness)	-	-
Clause-5.16.3(Sole Density)	-	-
Clause-5.16.4(Hardness)	-	-
Clause-5.16.5(Ageing)	-	-
Clause-5.16.6(Tear Strength)	-	-
Clause-5.16.7(Abrasion Resistance)	-	-
Clause-5.16.8(Flexing Resistance)	-	-
Clause-5.16.9(Hydrolysis)	-	-
Clause-5.16.10(Interlayer Bond Strength)	-	-
Clause-5.17(Eyelets)	-	-
Clause-5.18.1(Material)	-	-
Clause-5.18.2(Colour Fastness (Light, Washing))	-	-
Clause-5.18.3(Breaking Load and Tag Retention)	-	-
Clause-5.18.4.1(Lace to lace)	-	-
Clause-5.18.4.2(Lace to eyelet)	-	-
Clause-6, Table no. 1 of IS 17011,(i)(Allergenic and carcinogenic disperse dyes)	-	-
Clause-7(Marking)	-	-
Cl-5.10.2(Colour fastness to light)	-	-
Cl-5.10.2(Colour fastness to washing)	-	-
Cl-5.11.2(Colour fastness to washing)	-	-
Cl-5.11.2(Colour fastness to light)	-	-
Cl-5.11.2(Colour fastness to perspiration)	-	-
Cl 5.9(Outer Toe Cap (minimum thickness))	-	-
Cl- 6, Table No 1 of IS 17011 (ii)(Aromatic amines released from Azo dyes (each individual amine))	-	-
Cl-6, Table no 1 of IS 17011 (iii)(Aromatic amines released from Azo dyes (each individual amine))	-	-
Cl-6, Table no 1 of IS 17011 (iv)(Chromium (VI))	-	-
Cl-6, Table no-1 of IS 17011 (v)(Dimethyl fumarate (DMFU))	-	-
Cl-6, Table no1 of IS 17011 (vi)(Formaldehyde (free or released by partial hydrolysis))	-	-
Cl-6, Table no-1 of IS 17011 (vii)(Formaldehyde)	-	-
Cl-6, Table no 1 of IS 17011 (viii)(Organotin compounds)	-	-
Cl-6, Table no 1 of IS 17011 (ix)(PCP-TeCP-TriCP polychlorophenols)	-	-
Cl-6, Table no 1 of IS 17011 (x)(pH)	-	-
Cl-6, Table no 1 of IS 17011 (xi)(Phthalates (each individual phthalate))	-	-
Cl-6, Table no 1 of IS 17011 (xii)(Nickel, on skin contact)	-	-

25 Feb, 2027

-
-

IS 12786 (2024)

Irrigation equipment - Polyethylene pipes for irrigation laterals - Specification (first revision)

ALL

14500 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
Cl-4.1(Material)	-	11900	-
Cl-4.2(Carbon content of finished PE lateral pipe)	-	11900	-
Cl-5.1(Dimensions of pipes and wall thicknesses)	-	11900	-
Cl-6.0(Visual Appearance)	-	11900	-
Cl-7.1(Hydraulic Characteristics- Internal pressure creep rupture test)	-	11900	-
Cl-7.1(Hydraulic Characteristics- quality acceptance test)	-	11900	-
Cl-7.2(Reversion Test)	-	11900	-
Cl-7.3(Tensile Test)	-	11900	-
Cl-7.3.1(Test Piece)	-	11900	-
Cl-7.3.2(Procedure)	-	11900	-
Cl-7.4(Susceptibility to Environmental Stress Cracking)	-	11900	-
Cl-8.0(Supply of pipes)	-	11900	-
Cl-9.0(Coiling)	-	11900	-
Cl-10.0(Sampling and criteria for conformity)	-	11900	-
Cl-11(Marking)	-	11900	-
Cl-4.1(Material)	-	11900	-
Cl-4.2(Carbon content of finished PE lateral pipe)	-	11900	-
Cl-5.1(Dimensions of pipes and wall thicknesses)	-	11900	-
Cl-6.0(Visual Appearance)	-	11900	-
Cl-7.1(Hydraulic Characteristics- Internal pressure creep rupture test)	-	11900	-
Cl-7.1(Hydraulic Characteristics- quality acceptance test)	-	11900	-
Cl-7.2(Reversion Test)	-	11900	-
Cl-7.3(Tensile Test)	-	11900	-
Cl-7.3.1(Test Piece)	-	11900	-
Cl-7.3.2(Procedure)	-	11900	-
Cl-7.4(Susceptibility to Environmental Stress Cracking)	-	11900	-
Cl-8.0(Supply of pipes)	-	11900	-
Cl-9.0(Coiling)	-	11900	-
Cl-10.0(Sampling and criteria for conformity)	-	11900	-
Cl-11(Marking)	-	11900	-
3(Class of Pipe)	-	11900	-
5.1 & Table 1(Dimensions of Pipes - Outside diameters)	-	11900	-
5.1 & Table 1(Dimensions of Pipes - Wall thickness)	-	11900	-
6(Visual Appearance)	-	11900	-
7.1 & Table 2(Hydraulic Characteristics)	-	11900	-
7.1 & Table 2(Hydraulic Characteristics)	-	11900	-
7.2(Reversion Test)	-	11900	-
7.3(Tensile Strength)	-	11900	-
7.3(Elongation at Break)	-	11900	-
7.4(SusceptibiIity to Environmental Stress Cracking)	-	11900	-
4.2(a)(Carbon Black Content-IS 2530)	-	11900	-
4.2(b)(Carbon Black Dispersion-IS 2530)	-	11900	-

25 Feb, 2027

-
-

IS 617 (2024)

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

ALL

14900 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
Cl-6.1, Table-1(Si)	-	0	-
Cl-6.1, Table-1(Fe)	-	0	-
Cl-6.1, Table-1(Cu)	-	0	-
Cl-6.1, Table-1(Mn)	-	0	-
Cl-6.1, Table-1(Mg)	-	0	-
Cl-6.1, Table-1(Cr)	-	0	-
Cl-6.1, Table-1(Ni)	-	0	-
Cl-6.1, Table-1(Zn)	-	0	-
Cl-6.1, Table-1(Pb)	-	0	-
Cl-6.1, Table-1(Sn)	-	0	-
Cl-6.1, Table-1(Ti)	-	0	-
Cl-6.1, Table-1(Others elements Each)	-	0	-
Cl-6.1, Table-1(Others elements Total)	-	0	-
Cl-6.1, Table-1(Aluminium)	-	0	-
Cl-6.2(The chemical analysis)	-	6500	Cl.6.1 Table-1 and Cl. 6.2
Cl-7.1, Table-2(Sand-Cast Alloys- Tensile Strength)	-	2500	Table -2,3,4 (Mechanical Properties of Sand-Cast Alloys, Chill Cast Alloys, Investment-Cast Alloys for Separately Cast Test Pieces)
Cl-7.1, Table-2(Sand-Cast Alloys- Proof Stress)	-	0	-
Cl-7.1, Table-2(Sand-Cast Alloys- Elongation)	-	0	-
Cl-7.1, Table-2(Sand-Cast Alloys- Brinell Hardness HBW)	-	0	-
Cl-7.1, Table-3(Chill Cast Alloys- Tensile Strength)	-	0	-
Cl-7.1, Table-3(Chill Cast Alloys- Proof Stress)	-	0	-
Cl-7.1, Table-3(Chill Cast Alloys- Elongation)	-	0	-
Cl-7.1, Table-3(Chill Cast Alloys- Brinell Hardness HBW)	-	0	-
Cl-7.1, Table-4(Investment-Cast Alloys- Tensile Strength)	-	0	-
Cl-7.1, Table-4(Investment-Cast Alloys- Proof Stress)	-	0	-
Cl-7.1, Table-4(Investment-Cast Alloys- Elongation)	-	0	-
Cl-7.1, Table-4(Investment-Cast Alloys-Brinell Hardness)	-	0	-
Cl-7.2(Tensile Tests)	-	0	-
Cl-7.3(Test Pieces)	-	0	-
Cl-7.4(Hardness)	-	3000	-
Cl-8(Freedom from Defects)	-	3000	-
Cl-11(RETEST)	-	0	-
Cl-13(Marking)	-	500	-
Cl-6.1, Table-1(Si)	-	0	-
Cl-6.1, Table-1(Fe)	-	0	-
Cl-6.1, Table-1(Cu)	-	0	-
Cl-6.1, Table-1(Mn)	-	0	-
Cl-6.1, Table-1(Mg)	-	0	-
Cl-6.1, Table-1(Cr)	-	0	-
Cl-6.1, Table-1(Ni)	-	0	-
Cl-6.1, Table-1(Zn)	-	0	-
Cl-6.1, Table-1(Pb)	-	0	-
Cl-6.1, Table-1(Sn)	-	0	-
Cl-6.1, Table-1(Ti)	-	0	-
Cl-6.1, Table-1(Others elements Each)	-	0	-
Cl-6.1, Table-1(Others elements Total)	-	0	-
Cl-6.1, Table-1(Aluminium)	-	0	-
Cl-6.2(The chemical analysis)	-	0	-
Cl-7.1, Table-2(Sand-Cast Alloys- Tensile Strength)	-	0	-
Cl-7.1, Table-2(Sand-Cast Alloys- Proof Stress)	-	0	-
Cl-7.1, Table-2(Sand-Cast Alloys- Elongation)	-	0	-
Cl-7.1, Table-2(Sand-Cast Alloys- Brinell Hardness HBW)	-	0	-
Cl-7.1, Table-3(Chill Cast Alloys- Tensile Strength)	-	0	-
Cl-7.1, Table-3(Chill Cast Alloys- Proof Stress)	-	0	-
Cl-7.1, Table-3(Chill Cast Alloys- Elongation)	-	0	-
Cl-7.1, Table-3(Chill Cast Alloys- Brinell Hardness HBW)	-	0	-
Cl-7.1, Table-4(Investment-Cast Alloys- Tensile Strength)	-	0	-
Cl-7.1, Table-4(Investment-Cast Alloys- Proof Stress)	-	0	-
Cl-7.1, Table-4(Investment-Cast Alloys- Elongation)	-	0	-
Cl-7.1, Table-4(Investment-Cast Alloys-Brinell Hardness)	-	0	-
Cl-7.2(Tensile Tests)	-	0	-
Cl-7.3(Test Pieces)	-	0	-
Cl-7.4(Hardness)	-	0	-
Cl-8(Freedom from Defects)	-	0	-
Cl-11(RETEST)	-	0	-
Cl-13(Marking)	-	0	-
Cl-6.1, Table-1(Si)	-	0	-
Cl-6.1, Table-1(Fe)	-	0	-
Cl-6.1, Table-1(Cu)	-	0	-
Cl-6.1, Table-1(Mn)	-	0	-
Cl-6.1, Table-1(Mg)	-	0	-
Cl-6.1, Table-1(Cr)	-	0	-
Cl-6.1, Table-1(Ni)	-	0	-
Cl-6.1, Table-1(Zn)	-	0	-
Cl-6.1, Table-1(Pb)	-	0	-
Cl-6.1, Table-1(Sn)	-	0	-
Cl-6.1, Table-1(Ti)	-	0	-
Cl-6.1, Table-1(Others elements Each)	-	0	-
Cl-6.1, Table-1(Others elements Total)	-	0	-
Cl-6.1, Table-1(Aluminium)	-	0	-
Cl-6.2(The chemical analysis)	-	0	-
Cl-7.1, Table-2(Sand-Cast Alloys- Tensile Strength)	-	0	-
Cl-7.1, Table-2(Sand-Cast Alloys- Proof Stress)	-	0	-
Cl-7.1, Table-2(Sand-Cast Alloys- Elongation)	-	0	-
Cl-7.1, Table-2(Sand-Cast Alloys- Brinell Hardness HBW)	-	0	-
Cl-7.1, Table-3(Chill Cast Alloys- Tensile Strength)	-	0	-
Cl-7.1, Table-3(Chill Cast Alloys- Proof Stress)	-	0	-
Cl-7.1, Table-3(Chill Cast Alloys- Elongation)	-	0	-
Cl-7.1, Table-3(Chill Cast Alloys- Brinell Hardness HBW)	-	0	-
Cl-7.1, Table-4(Investment-Cast Alloys- Tensile Strength)	-	0	-
Cl-7.1, Table-4(Investment-Cast Alloys- Proof Stress)	-	0	-
Cl-7.1, Table-4(Investment-Cast Alloys- Elongation)	-	0	-
Cl-7.1, Table-4(Investment-Cast Alloys-Brinell Hardness)	-	0	-
Cl-7.2(Tensile Tests)	-	0	-
Cl-7.3(Test Pieces)	-	0	-
Cl-7.4(Hardness)	-	0	-
Cl-8(Freedom from Defects)	-	0	-
Cl-11(RETEST)	-	0	-
Cl-13(Marking)	-	0	-
Cl-6.1, Table-1(Si)	-	0	-
Cl-6.1, Table-1(Fe)	-	0	-
Cl-6.1, Table-1(Cu)	-	0	-
Cl-6.1, Table-1(Mn)	-	0	-
Cl-6.1, Table-1(Mg)	-	0	-
Cl-6.1, Table-1(Cr)	-	0	-
Cl-6.1, Table-1(Ni)	-	0	-
Cl-6.1, Table-1(Zn)	-	0	-
Cl-6.1, Table-1(Pb)	-	0	-
Cl-6.1, Table-1(Sn)	-	0	-
Cl-6.1, Table-1(Ti)	-	0	-
Cl-6.1, Table-1(Others elements Each)	-	0	-
Cl-6.1, Table-1(Others elements Total)	-	0	-
Cl-6.1, Table-1(Aluminium)	-	0	-
Cl-6.2(The chemical analysis)	-	0	-
Cl-7.1, Table-2(Sand-Cast Alloys- Tensile Strength)	-	0	-
Cl-7.1, Table-2(Sand-Cast Alloys- Proof Stress)	-	0	-
Cl-7.1, Table-2(Sand-Cast Alloys- Elongation)	-	0	-
Cl-7.1, Table-2(Sand-Cast Alloys- Brinell Hardness HBW)	-	0	-
Cl-7.1, Table-3(Chill Cast Alloys- Tensile Strength)	-	0	-
Cl-7.1, Table-3(Chill Cast Alloys- Proof Stress)	-	0	-
Cl-7.1, Table-3(Chill Cast Alloys- Elongation)	-	0	-
Cl-7.1, Table-3(Chill Cast Alloys- Brinell Hardness HBW)	-	0	-
Cl-7.1, Table-4(Investment-Cast Alloys- Tensile Strength)	-	0	-
Cl-7.1, Table-4(Investment-Cast Alloys- Proof Stress)	-	0	-
Cl-7.1, Table-4(Investment-Cast Alloys- Elongation)	-	0	-
Cl-7.1, Table-4(Investment-Cast Alloys-Brinell Hardness)	-	0	-
Cl-7.2(Tensile Tests)	-	0	-
Cl-7.3(Test Pieces)	-	0	-
Cl-7.4(Hardness)	-	0	-
Cl-8(Freedom from Defects)	-	0	-
Cl-11(RETEST)	-	0	-
Cl-13(Marking)	-	0	-
Cl-6.1, Table-1(Si)	-	0	-
Cl-6.1, Table-1(Fe)	-	0	-
Cl-6.1, Table-1(Cu)	-	0	-
Cl-6.1, Table-1(Mn)	-	0	-
Cl-6.1, Table-1(Mg)	-	0	-
Cl-6.1, Table-1(Cr)	-	0	-
Cl-6.1, Table-1(Ni)	-	0	-
Cl-6.1, Table-1(Zn)	-	0	-
Cl-6.1, Table-1(Pb)	-	0	-
Cl-6.1, Table-1(Sn)	-	0	-
Cl-6.1, Table-1(Ti)	-	0	-
Cl-6.1, Table-1(Others elements Each)	-	0	-
Cl-6.1, Table-1(Others elements Total)	-	0	-
Cl-6.1, Table-1(Aluminium)	-	0	-
Cl-6.2(The chemical analysis)	-	0	-
Cl-7.1, Table-2(Sand-Cast Alloys- Tensile Strength)	-	0	-
Cl-7.1, Table-2(Sand-Cast Alloys- Proof Stress)	-	0	-
Cl-7.1, Table-2(Sand-Cast Alloys- Elongation)	-	0	-
Cl-7.1, Table-2(Sand-Cast Alloys- Brinell Hardness HBW)	-	0	-
Cl-7.1, Table-3(Chill Cast Alloys- Tensile Strength)	-	0	-
Cl-7.1, Table-3(Chill Cast Alloys- Proof Stress)	-	0	-
Cl-7.1, Table-3(Chill Cast Alloys- Elongation)	-	0	-
Cl-7.1, Table-3(Chill Cast Alloys- Brinell Hardness HBW)	-	0	-
Cl-7.1, Table-4(Investment-Cast Alloys- Tensile Strength)	-	0	-
Cl-7.1, Table-4(Investment-Cast Alloys- Proof Stress)	-	0	-
Cl-7.1, Table-4(Investment-Cast Alloys- Elongation)	-	0	-
Cl-7.1, Table-4(Investment-Cast Alloys-Brinell Hardness)	-	0	-
Cl-7.2(Tensile Tests)	-	0	-
Cl-7.3(Test Pieces)	-	0	-
Cl-7.4(Hardness)	-	0	-
Cl-8(Freedom from Defects)	-	0	-
Cl-11(RETEST)	-	0	-
Cl-13(Marking)	-	0	-
Cl. 6(Silicon)	-	0	-
Cl. 6(Iron)	-	0	-
Cl. 6(Copper)	-	0	-
Cl. 6(Manganese)	-	0	-
Cl. 6(Magnesium)	-	0	-
Cl. 6(Chromium)	-	0	-
Cl. 6(Nickel)	-	0	-
Cl. 6(Zinc)	-	0	-
Cl. 6(Lead)	-	0	-
Cl. 6(Tin)	-	0	-
Cl. 6(Titanium)	-	0	-
Cl. 6(Others Element Each)	-	0	-
Cl. 6(Others Element Total)	-	0	-
Cl. 6(Aluminium)	-	0	-
Cl. 6(Silver)	-	0	-
Cl. 6(Zirconium)	-	0	-
Cl. 6(Titanium+Zirconium)	-	0	-
Cl. 6(Antimony)	-	0	-
Cl. 6(Cobalt)	-	0	-
Cl. 6(Antimony+Cobalt)	-	0	-
Cl. 6(Beryllium)	-	0	-
10(Pressure Test)	-	0	-

25 Feb, 2027

-
-

IS 13428 (2024)

PACKAGED NATURAL MINERAL WATER - SPECIFICATION Third Revision

17500 View breakup
-

Clause No.	Exclusion	Remark
6.1.1(Escherichia coli)	-	-
6.1.2(Coliform)	-	-
6.1.3(Faecal Streptococci)	-	-
6.1.4(Sulphite Reducing Anaerobe)	-	-
6.1.5(Pseudomonas aeruginosa)	-	-
6.1.6(Yeast and moould)	-	-
6.1.7(Salmonella)	-	-
6.1.8(Vibrio Cholera)	-	-
6.2/Table 1/i(Colour)	-	-
6.2/Table 1/ii(Odour)	-	-
6.2/Table 1/iii(Taste)	-	-
6.2/Table 1/iv(Turbidity)	-	-
6.2/Table 1/v(Total Dissoved)	-	-
6.2/Table 1/vi(pH Value)	-	-
6.2/Table 2/i(Nitrate)	-	-
6.2/Table 2/ii(Nitrite)	-	-
6.2/Table 2/iii(Sulphide)	-	-
6.2/Table 2/iv(Manganese)	-	-
6.2/Table 2/v(Copper)	-	-
6.2/Table 2/vi(Fluoride)	-	-
6.2/Table 2/viii(Antimony)	-	-
6.2/Table 2/ix(Borate)	-	-
6.2/Table 2/x(Silver)	-	-
6.2/Table 2/xi(Chloride)	-	-
6.2/Table 2/xii(Sulphate)	-	-
6.2/Table 2/xiii(Magnesium)	-	-
6.2/Table 2/xiv(Calcium)	-	-
6.2/Table 2/xv(Sodium)	-	-
6.2/Table 2/xvi(Alkalinity)	-	-
6.2/Table 2/xvii(Selenium)	-	-
6.2/Table 2/xviii(Mineral Oil)	-	-
6.2/Table 2/xix(Phenolic Compounds)	-	-
6.2/Table 2/xx(Anionic Surface active agents)	-	-
6.2/Table 3/i(Arsenic)	-	-
6.2/Table 3/ii(Cadmium)	-	-
6.2/Table 3/iii(Cyanide)	-	-
6.2/Table 3/iv(Chromium)	-	-
6.2/Table 3/vii(Nickel)	-	-
6.2/Table 3/viii(Polychlorinated biphenyle (PCB))	-	-
6.2/Table 3/ix(Polynuclear aromatic hydrocarbons)	-	-
6.2/Table 3/x(Uranium)	-	-
Cl- 6.3, Annex N (i)(P,P -DDE)	-	-
Cl- 6.3, Annex N (i)(O,P -DDE)	-	-
Cl- 6.3, Annex N (i)(P,P- DDT)	-	-
Cl- 6.3, Annex N (i)(O,P -DDT)	-	-
Cl-6.3, Annex N (i)(P,P- DDD)	-	-
Cl-6.3, Annex N (i)(O,P-DDD)	-	-
Cl- 6.3, Annex N (ii)(γ-HCH (lindane))	-	-
Cl- 6.3, Annex N (iii)(α-HCH)	-	-
Cl- 6.3, Annex N (iii)(β-HCH)	-	-
Cl- 6.3, Annex N (iii)(δ - HCH)	-	-
Cl- 6.3, Annex N (iv)(Endosulfan - α)	-	-
Cl- 6.3, Annex N (iv)(Endosulfan - β)	-	-
Cl- 6.3, Annex N (iv)(Endosulfan - sulphate)	-	-
Cl- 6.3, Annex N (v)(Monocrotophos)	-	-
Cl- 6.3, Annex N (vi)(Ethion)	-	-
Cl- 6.3, Annex N (vii)(Chlorpyrifos)	-	-
Cl- 6.3, Annex N (viii)(Phorate and its oxygen analogue)	-	-
Cl- 6.3, Annex N (viii)(phorate sulphoxide)	-	-
Cl- 6.3, Annex N (viii)(phorate sulphone)	-	-
Cl- 6.3, Annex N (ix)(2,4-D)	-	-
Cl- 6.3, Annex N (x)(Butachlor)	-	-
Cl- 6.3, Annex N (xi)(Isoproturon)	-	-
Cl- 6.3, Annex N (xii)(Alachlor)	-	-
Cl- 6.3, Annex N (xiii)(Atrazine)	-	-
Cl- 6.3, Annex N (xiv)(Methyl parathion)	-	-
Cl- 6.3, Annex N (xiv)(Methyl paraoxon)	-	-
Cl- 6.3, Annex N (xv)(Malathion)	-	-
Cl- 6.3, Annex N (xv)(malaoxon)	-	-
Cl- 6.3, Annex N (xvi)(Aldrin)	-	-
6.2/Table 2/vii(Barium)	-	-
6.2/Table 3/v(Mercury)	-	-
6.2/Table 3/vi(Lead)	-	-
6.1.1(Escherichia coli)	-	-
6.1.2(Coliform)	-	-
6.1.3(Faecal Streptococci)	-	-
6.1.4(Sulphite Reducing Anaerobe)	-	-
6.1.5(Pseudomonas aeruginosa)	-	-
6.1.6(Yeast and moould)	-	-
6.1.7(Salmonella)	-	-
6.1.8(Vibrio Cholera)	-	-
6.2/Table 1/i(Colour)	-	-
6.2/Table 1/ii(Odour)	-	-
6.2/Table 1/iii(Taste)	-	-
6.2/Table 1/iv(Turbidity)	-	-
6.2/Table 1/v(Total Dissoved)	-	-
6.2/Table 1/vi(pH Value)	-	-
6.2/Table 2/i(Nitrate)	-	-
6.2/Table 2/ii(Nitrite)	-	-
6.2/Table 2/iii(Sulphide)	-	-
6.2/Table 2/iv(Manganese)	-	-
6.2/Table 2/v(Copper)	-	-
6.2/Table 2/vi(Fluoride)	-	-
6.2/Table 2/viii(Antimony)	-	-
6.2/Table 2/ix(Borate)	-	-
6.2/Table 2/x(Silver)	-	-
6.2/Table 2/xi(Chloride)	-	-
6.2/Table 2/xii(Sulphate)	-	-
6.2/Table 2/xiii(Magnesium)	-	-
6.2/Table 2/xiv(Calcium)	-	-
6.2/Table 2/xv(Sodium)	-	-
6.2/Table 2/xvi(Alkalinity)	-	-
6.2/Table 2/xvii(Selenium)	-	-
6.2/Table 2/xviii(Mineral Oil)	-	-
6.2/Table 2/xix(Phenolic Compounds)	-	-
6.2/Table 2/xx(Anionic Surface active agents)	-	-
6.2/Table 3/i(Arsenic)	-	-
6.2/Table 3/ii(Cadmium)	-	-
6.2/Table 3/iii(Cyanide)	-	-
6.2/Table 3/iv(Chromium)	-	-
6.2/Table 3/vii(Nickel)	-	-
6.2/Table 3/viii(Polychlorinated biphenyle (PCB))	-	-
6.2/Table 3/ix(Polynuclear aromatic hydrocarbons)	-	-
6.2/Table 3/x(Uranium)	-	-
Cl- 6.3, Annex N (i)(P,P -DDE)	-	-
Cl- 6.3, Annex N (i)(O,P -DDE)	-	-
Cl- 6.3, Annex N (i)(P,P- DDT)	-	-
Cl- 6.3, Annex N (i)(O,P -DDT)	-	-
Cl-6.3, Annex N (i)(P,P- DDD)	-	-
Cl-6.3, Annex N (i)(O,P-DDD)	-	-
Cl- 6.3, Annex N (ii)(γ-HCH (lindane))	-	-
Cl- 6.3, Annex N (iii)(α-HCH)	-	-
Cl- 6.3, Annex N (iii)(β-HCH)	-	-
Cl- 6.3, Annex N (iii)(δ - HCH)	-	-
Cl- 6.3, Annex N (iv)(Endosulfan - α)	-	-
Cl- 6.3, Annex N (iv)(Endosulfan - β)	-	-
Cl- 6.3, Annex N (iv)(Endosulfan - sulphate)	-	-
Cl- 6.3, Annex N (v)(Monocrotophos)	-	-
Cl- 6.3, Annex N (vi)(Ethion)	-	-
Cl- 6.3, Annex N (vii)(Chlorpyrifos)	-	-
Cl- 6.3, Annex N (viii)(Phorate and its oxygen analogue)	-	-
Cl- 6.3, Annex N (viii)(phorate sulphoxide)	-	-
Cl- 6.3, Annex N (viii)(phorate sulphone)	-	-
Cl- 6.3, Annex N (ix)(2,4-D)	-	-
Cl- 6.3, Annex N (x)(Butachlor)	-	-
Cl- 6.3, Annex N (xi)(Isoproturon)	-	-
Cl- 6.3, Annex N (xii)(Alachlor)	-	-
Cl- 6.3, Annex N (xiii)(Atrazine)	-	-
Cl- 6.3, Annex N (xiv)(Methyl parathion)	-	-
Cl- 6.3, Annex N (xiv)(Methyl paraoxon)	-	-
Cl- 6.3, Annex N (xv)(Malathion)	-	-
Cl- 6.3, Annex N (xv)(malaoxon)	-	-
Cl- 6.3, Annex N (xvi)(Aldrin)	-	-
6.2/Table 2/vii(Barium)	-	-
6.2/Table 3/v(Mercury)	-	-
6.2/Table 3/vi(Lead)	-	-
6.1.1(Escherichia coli)	-	-
6.1.2(Coliform)	-	-
6.1.3(Faecal Streptococci)	-	-
6.1.4(Sulphite Reducing Anaerobe)	-	-
6.1.5(Pseudomonas aeruginosa)	-	-
6.1.6(Yeast and moould)	-	-
6.1.7(Salmonella)	-	-
6.1.8(Vibrio Cholera)	-	-
6.2/Table 1/i(Colour)	-	-
6.2/Table 1/ii(Odour)	-	-
6.2/Table 1/iii(Taste)	-	-
6.2/Table 1/iv(Turbidity)	-	-
6.2/Table 1/v(Total Dissoved)	-	-
6.2/Table 1/vi(pH Value)	-	-
6.2/Table 2/i(Nitrate)	-	-
6.2/Table 2/ii(Nitrite)	-	-
6.2/Table 2/iii(Sulphide)	-	-
6.2/Table 2/iv(Manganese)	-	-
6.2/Table 2/v(Copper)	-	-
6.2/Table 2/vi(Fluoride)	-	-
6.2/Table 2/viii(Antimony)	-	-
6.2/Table 2/ix(Borate)	-	-
6.2/Table 2/x(Silver)	-	-
6.2/Table 2/xi(Chloride)	-	-
6.2/Table 2/xii(Sulphate)	-	-
6.2/Table 2/xiii(Magnesium)	-	-
6.2/Table 2/xiv(Calcium)	-	-
6.2/Table 2/xv(Sodium)	-	-
6.2/Table 2/xvi(Alkalinity)	-	-
6.2/Table 2/xvii(Selenium)	-	-
6.2/Table 2/xviii(Mineral Oil)	-	-
6.2/Table 2/xix(Phenolic Compounds)	-	-
6.2/Table 2/xx(Anionic Surface active agents)	-	-
6.2/Table 3/i(Arsenic)	-	-
6.2/Table 3/ii(Cadmium)	-	-
6.2/Table 3/iii(Cyanide)	-	-
6.2/Table 3/iv(Chromium)	-	-
6.2/Table 3/vii(Nickel)	-	-
6.2/Table 3/viii(Polychlorinated biphenyle (PCB))	-	-
6.2/Table 3/ix(Polynuclear aromatic hydrocarbons)	-	-
6.2/Table 3/x(Uranium)	-	-
Cl- 6.3, Annex N (i)(P,P -DDE)	-	-
Cl- 6.3, Annex N (i)(O,P -DDE)	-	-
Cl- 6.3, Annex N (i)(P,P- DDT)	-	-
Cl- 6.3, Annex N (i)(O,P -DDT)	-	-
Cl-6.3, Annex N (i)(P,P- DDD)	-	-
Cl-6.3, Annex N (i)(O,P-DDD)	-	-
Cl- 6.3, Annex N (ii)(γ-HCH (lindane))	-	-
Cl- 6.3, Annex N (iii)(α-HCH)	-	-
Cl- 6.3, Annex N (iii)(β-HCH)	-	-
Cl- 6.3, Annex N (iii)(δ - HCH)	-	-
Cl- 6.3, Annex N (iv)(Endosulfan - α)	-	-
Cl- 6.3, Annex N (iv)(Endosulfan - β)	-	-
Cl- 6.3, Annex N (iv)(Endosulfan - sulphate)	-	-
Cl- 6.3, Annex N (v)(Monocrotophos)	-	-
Cl- 6.3, Annex N (vi)(Ethion)	-	-
Cl- 6.3, Annex N (vii)(Chlorpyrifos)	-	-
Cl- 6.3, Annex N (viii)(Phorate and its oxygen analogue)	-	-
Cl- 6.3, Annex N (viii)(phorate sulphoxide)	-	-
Cl- 6.3, Annex N (viii)(phorate sulphone)	-	-
Cl- 6.3, Annex N (ix)(2,4-D)	-	-
Cl- 6.3, Annex N (x)(Butachlor)	-	-
Cl- 6.3, Annex N (xi)(Isoproturon)	-	-
Cl- 6.3, Annex N (xii)(Alachlor)	-	-
Cl- 6.3, Annex N (xiii)(Atrazine)	-	-
Cl- 6.3, Annex N (xiv)(Methyl parathion)	-	-
Cl- 6.3, Annex N (xiv)(Methyl paraoxon)	-	-
Cl- 6.3, Annex N (xv)(Malathion)	-	-
Cl- 6.3, Annex N (xv)(malaoxon)	-	-
Cl- 6.3, Annex N (xvi)(Aldrin)	-	-
6.2/Table 2/vii(Barium)	-	-
6.2/Table 3/v(Mercury)	-	-
6.2/Table 3/vi(Lead)	-	-
6.2/Table 4/i(Alpha emitters, Bq/l, Max)	-	-
6.2/Table 4/ii(Beta emitters, Bq/l, Max)	-	-
Cl-6.1.3(Staphylococcus aureus)	-	-
Cl-6.1.7(Shigella)	-	-
Cl-6.1.8(V. parahaemolyticus)	-	-
Cl-6.3, Annex N (XVI)(Dieldrin)	-	-
6.1.1(Escherichia coli)	-	-
6.1.2(Coliform)	-	-
6.1.3(Faecal Streptococci)	-	-
6.1.4(Sulphite Reducing Anaerobe)	-	-
6.1.5(Pseudomonas aeruginosa)	-	-
6.1.6(Yeast and moould)	-	-
6.1.7(Salmonella)	-	-
6.1.8(Vibrio Cholera)	-	-
6.2/Table 1/i(Colour)	-	-
6.2/Table 1/ii(Odour)	-	-
6.2/Table 1/iii(Taste)	-	-
6.2/Table 1/iv(Turbidity)	-	-
6.2/Table 1/v(Total Dissoved)	-	-
6.2/Table 1/vi(pH Value)	-	-
6.2/Table 2/i(Nitrate)	-	-
6.2/Table 2/ii(Nitrite)	-	-
6.2/Table 2/iii(Sulphide)	-	-
6.2/Table 2/iv(Manganese)	-	-
6.2/Table 2/v(Copper)	-	-
6.2/Table 2/vi(Fluoride)	-	-
6.2/Table 2/viii(Antimony)	-	-
6.2/Table 2/ix(Borate)	-	-
6.2/Table 2/x(Silver)	-	-
6.2/Table 2/xi(Chloride)	-	-
6.2/Table 2/xii(Sulphate)	-	-
6.2/Table 2/xiii(Magnesium)	-	-
6.2/Table 2/xiv(Calcium)	-	-
6.2/Table 2/xv(Sodium)	-	-
6.2/Table 2/xvi(Alkalinity)	-	-
6.2/Table 2/xvii(Selenium)	-	-
6.2/Table 2/xviii(Mineral Oil)	-	-
6.2/Table 2/xix(Phenolic Compounds)	-	-
6.2/Table 2/xx(Anionic Surface active agents)	-	-
6.2/Table 3/i(Arsenic)	-	-
6.2/Table 3/ii(Cadmium)	-	-
6.2/Table 3/iii(Cyanide)	-	-
6.2/Table 3/iv(Chromium)	-	-
6.2/Table 3/vii(Nickel)	-	-
6.2/Table 3/viii(Polychlorinated biphenyle (PCB))	-	-
6.2/Table 3/ix(Polynuclear aromatic hydrocarbons)	-	-
6.2/Table 3/x(Uranium)	-	-
Cl- 6.3, Annex N (i)(P,P -DDE)	-	-
Cl- 6.3, Annex N (i)(O,P -DDE)	-	-
Cl- 6.3, Annex N (i)(P,P- DDT)	-	-
Cl- 6.3, Annex N (i)(O,P -DDT)	-	-
Cl-6.3, Annex N (i)(P,P- DDD)	-	-
Cl-6.3, Annex N (i)(O,P-DDD)	-	-
Cl- 6.3, Annex N (ii)(γ-HCH (lindane))	-	-
Cl- 6.3, Annex N (iii)(α-HCH)	-	-
Cl- 6.3, Annex N (iii)(β-HCH)	-	-
Cl- 6.3, Annex N (iii)(δ - HCH)	-	-
Cl- 6.3, Annex N (iv)(Endosulfan - α)	-	-
Cl- 6.3, Annex N (iv)(Endosulfan - β)	-	-
Cl- 6.3, Annex N (iv)(Endosulfan - sulphate)	-	-
Cl- 6.3, Annex N (v)(Monocrotophos)	-	-
Cl- 6.3, Annex N (vi)(Ethion)	-	-
Cl- 6.3, Annex N (vii)(Chlorpyrifos)	-	-
Cl- 6.3, Annex N (viii)(Phorate and its oxygen analogue)	-	-
Cl- 6.3, Annex N (viii)(phorate sulphoxide)	-	-
Cl- 6.3, Annex N (viii)(phorate sulphone)	-	-
Cl- 6.3, Annex N (ix)(2,4-D)	-	-
Cl- 6.3, Annex N (x)(Butachlor)	-	-
Cl- 6.3, Annex N (xi)(Isoproturon)	-	-
Cl- 6.3, Annex N (xii)(Alachlor)	-	-
Cl- 6.3, Annex N (xiii)(Atrazine)	-	-
Cl- 6.3, Annex N (xiv)(Methyl parathion)	-	-
Cl- 6.3, Annex N (xiv)(Methyl paraoxon)	-	-
Cl- 6.3, Annex N (xv)(Malathion)	-	-
Cl- 6.3, Annex N (xv)(malaoxon)	-	-
Cl- 6.3, Annex N (xvi)(Aldrin)	-	-
6.2/Table 2/vii(Barium)	-	-
6.2/Table 3/v(Mercury)	-	-
6.2/Table 3/vi(Lead)	-	-
6.2/Table 4/i(Alpha emitters, Bq/l, Max)	-	-
6.2/Table 4/ii(Beta emitters, Bq/l, Max)	-	-
Cl-6.1.3(Staphylococcus aureus)	-	-
Cl-6.1.7(Shigella)	-	-
Cl-6.1.8(V. parahaemolyticus)	-	-
Cl-6.3, Annex N (XVI)(Dieldrin)	-	-

25 Feb, 2027

-
Exclusion: Cl.6.2/Table 4/i (Alpha emitters), Cl.6.2/Table 4/ii (Beta emitters)

IS 14543 (2024)

Packaged Drinking Water Other than Packaged Natural Mineral Water Specification Third Revision

17500 View breakup
-

Clause No.	Exclusion	Remark
5.2.1(Escherichia Coli)	-	-
5.2.2(Coliform)	-	-
5.2.3(Faecal Streptococci & Staphylococcus aureus)	-	-
5.2.4(Sulphite Reducing Anaerobes)	-	-
5.2.5(Pseudomonas aeruginosa)	-	-
5.2.6(Aerobic Microbial Count @ 22 o C & 37o C)	-	-
5.2.7(Yeast & Mould)	-	-
5.2.8(Salmonella & Shigella)	-	-
5.2.9(Vibrio Cholera & Vibrio parahaemolyicus)	-	-
5.3(Appearance)	-	-
5.3/Table 1/i(Colour)	-	-
5.3/Table 1/ii(Odour)	-	-
5.3/Table 1/iii(Taste)	-	-
5.3/Table 1/iv(Turbidity)	-	-
5.3/Table 1/v(Total Dissolved Solids)	-	-
5.3/Table 1/vi(pH)	-	-
5.3/Table 2/i(Barium)	-	-
5.3/Table 2/ii(Copper)	-	-
5.3/Table 2/iii(Iron)	-	-
5.3/Table 2/iv(Maganese)	-	-
5.3/Table 2/v(Nitrate)	-	-
5.3/Table 2/vi(Nitrite)	-	-
5.3/Table 2/vii(Fluoride)	-	-
5.3/Table 2/viii(Zinc)	-	-
5.3/Table 2/ix(Silver)	-	-
5.3/Table 2/x(Aluminium)	-	-
5.3/Table 2/xi(Chloride)	-	-
5.3/Table 2/xii(Selenium)	-	-
5.3/Table 2/xiii(Suphate)	-	-
5.3/Table 2/xiv(Alkalinity)	-	-
5.3/Table 2/xv(Calcium)	-	-
5.3/Table 2/xvi(Magnesium)	-	-
5.3/Table 2/xvii(Sodium)	-	-
5.3/Table 2/xviii(Residual Free Chlorine)	-	-
5.3/Table 2/xix(Phenolic Compounds)	-	-
5.3/Table 2/xx(Mineral Oil)	-	-
5.3/Table 2/xxi(Anionic Surface- Active Agents as MBAS)	-	-
5.3/Table 2/xxii(Sulphide)	-	-
5.3/Table 2/xxiii(Antinomy)	-	-
5.3/Table 2/xxiv(Borates)	-	-
5.3/Table 2/xxxv(Bromate)	-	-
5.3/Table 3/i(Mercury)	-	-
5.3/Table 3/ii(Cadmium)	-	-
5.3/Table 3/iii(Arsenic)	-	-
5.3/Table 3/iv(Cyanide)	-	-
5.3/Table 3/v(Lead)	-	-
5.3/Table 3/vi(Chromium)	-	-
5.3/Table 3/vii(Nickel)	-	-
5.3/Table 3/viii(Polyclorinated biphenyl (PCB))	-	-
5.3/Table 3/ix(Polynuclear Aromatic Hydrocarbons)	-	-
5.3/Table 3/x(Uranium)	-	-
5.2.1(Escherichia Coli)	-	-
5.2.2(Coliform)	-	-
5.2.3(Faecal Streptococci & Staphylococcus aureus)	-	-
5.2.4(Sulphite Reducing Anaerobes)	-	-
5.2.5(Pseudomonas aeruginosa)	-	-
5.2.6(Aerobic Microbial Count @ 22 o C & 37o C)	-	-
5.2.7(Yeast & Mould)	-	-
5.2.8(Salmonella & Shigella)	-	-
5.2.9(Vibrio Cholera & Vibrio parahaemolyicus)	-	-
5.3(Appearance)	-	-
5.3/Table 1/i(Colour)	-	-
5.3/Table 1/ii(Odour)	-	-
5.3/Table 1/iii(Taste)	-	-
5.3/Table 1/iv(Turbidity)	-	-
5.3/Table 1/v(Total Dissolved Solids)	-	-
5.3/Table 1/vi(pH)	-	-
5.3/Table 2/i(Barium)	-	-
5.3/Table 2/ii(Copper)	-	-
5.3/Table 2/iii(Iron)	-	-
5.3/Table 2/iv(Maganese)	-	-
5.3/Table 2/v(Nitrate)	-	-
5.3/Table 2/vi(Nitrite)	-	-
5.3/Table 2/vii(Fluoride)	-	-
5.3/Table 2/viii(Zinc)	-	-
5.3/Table 2/ix(Silver)	-	-
5.3/Table 2/x(Aluminium)	-	-
5.3/Table 2/xi(Chloride)	-	-
5.3/Table 2/xii(Selenium)	-	-
5.3/Table 2/xiii(Suphate)	-	-
5.3/Table 2/xiv(Alkalinity)	-	-
5.3/Table 2/xv(Calcium)	-	-
5.3/Table 2/xvi(Magnesium)	-	-
5.3/Table 2/xvii(Sodium)	-	-
5.3/Table 2/xviii(Residual Free Chlorine)	-	-
5.3/Table 2/xix(Phenolic Compounds)	-	-
5.3/Table 2/xx(Mineral Oil)	-	-
5.3/Table 2/xxi(Anionic Surface- Active Agents as MBAS)	-	-
5.3/Table 2/xxii(Sulphide)	-	-
5.3/Table 2/xxiii(Antinomy)	-	-
5.3/Table 2/xxiv(Borates)	-	-
5.3/Table 2/xxxv(Bromate)	-	-
5.3/Table 3/i(Mercury)	-	-
5.3/Table 3/ii(Cadmium)	-	-
5.3/Table 3/iii(Arsenic)	-	-
5.3/Table 3/iv(Cyanide)	-	-
5.3/Table 3/v(Lead)	-	-
5.3/Table 3/vi(Chromium)	-	-
5.3/Table 3/vii(Nickel)	-	-
5.3/Table 3/viii(Polyclorinated biphenyl (PCB))	-	-
5.3/Table 3/ix(Polynuclear Aromatic Hydrocarbons)	-	-
5.3/Table 3/x(Uranium)	-	-
5.2.1(Escherichia Coli)	-	-
5.2.2(Coliform)	-	-
5.2.3(Faecal Streptococci & Staphylococcus aureus)	-	-
5.2.4(Sulphite Reducing Anaerobes)	-	-
5.2.5(Pseudomonas aeruginosa)	-	-
5.2.6(Aerobic Microbial Count @ 22 o C & 37o C)	-	-
5.2.7(Yeast & Mould)	-	-
5.2.8(Salmonella & Shigella)	-	-
5.2.9(Vibrio Cholera & Vibrio parahaemolyicus)	-	-
5.3(Appearance)	-	-
5.3/Table 1/i(Colour)	-	-
5.3/Table 1/ii(Odour)	-	-
5.3/Table 1/iii(Taste)	-	-
5.3/Table 1/iv(Turbidity)	-	-
5.3/Table 1/v(Total Dissolved Solids)	-	-
5.3/Table 1/vi(pH)	-	-
5.3/Table 2/i(Barium)	-	-
5.3/Table 2/ii(Copper)	-	-
5.3/Table 2/iii(Iron)	-	-
5.3/Table 2/iv(Maganese)	-	-
5.3/Table 2/v(Nitrate)	-	-
5.3/Table 2/vi(Nitrite)	-	-
5.3/Table 2/vii(Fluoride)	-	-
5.3/Table 2/viii(Zinc)	-	-
5.3/Table 2/ix(Silver)	-	-
5.3/Table 2/x(Aluminium)	-	-
5.3/Table 2/xi(Chloride)	-	-
5.3/Table 2/xii(Selenium)	-	-
5.3/Table 2/xiii(Suphate)	-	-
5.3/Table 2/xiv(Alkalinity)	-	-
5.3/Table 2/xv(Calcium)	-	-
5.3/Table 2/xvi(Magnesium)	-	-
5.3/Table 2/xvii(Sodium)	-	-
5.3/Table 2/xviii(Residual Free Chlorine)	-	-
5.3/Table 2/xix(Phenolic Compounds)	-	-
5.3/Table 2/xx(Mineral Oil)	-	-
5.3/Table 2/xxi(Anionic Surface- Active Agents as MBAS)	-	-
5.3/Table 2/xxii(Sulphide)	-	-
5.3/Table 2/xxiii(Antinomy)	-	-
5.3/Table 2/xxiv(Borates)	-	-
5.3/Table 2/xxxv(Bromate)	-	-
5.3/Table 3/i(Mercury)	-	-
5.3/Table 3/ii(Cadmium)	-	-
5.3/Table 3/iii(Arsenic)	-	-
5.3/Table 3/iv(Cyanide)	-	-
5.3/Table 3/v(Lead)	-	-
5.3/Table 3/vi(Chromium)	-	-
5.3/Table 3/vii(Nickel)	-	-
5.3/Table 3/viii(Polyclorinated biphenyl (PCB))	-	-
5.3/Table 3/ix(Polynuclear Aromatic Hydrocarbons)	-	-
5.3/Table 3/x(Uranium)	-	-
5.4/Annex D/i(P,P-DDT)	-	-
5.4/Annex D/ii(Lindane)	-	-
5.4/Annex D/iv(b-Endosulfan)	-	-
5.4/Annex D/xvi(Dieldrin)	-	-
5.4/Annex D/xvi(Aldrin)	-	-
5.4/Annex D/i(O,P-DDT)	-	-
5.4/Annex D/iv(a-Endosulfan)	-	-
5.4/Annex D/iii(d-HCH)	-	-
5.4/Annex D/i(O,P-DDD)	-	-
5.4/Annex D/i(P,P-DDE)	-	-
5.4/Annex D/i(O,P-DDE)	-	-
5.4/Annex D/iii(a-HCH)	-	-
5.4/Annex D/iii(β- HCH)	-	-
5.4/Annex D/iv(Endosulfan sulfate)	-	-
5.4/Annex D/i(P,P-DDD)	-	-
5.4/Annex D/xii(Alachlor)	-	-
5.4/Annex D/vii(Chlorpyrifos)	-	-
5.4/Annex D/x(Butachlor)	-	-
5.4/Annex D/vi(Ethion)	-	-
5.4/Annex D/xiv(Methyl parathion)	-	-
5.4/Annex D/xv(Malathion)	-	-
5.4/Annex D/viii(Phorate)	-	-
5.4/Annex D/v(Monochrotophos)	-	-
5.4/Annex D/xiii(Atrazine)	-	-
5.4/Annex D/viii(Phorate sulphoxide)	-	-
5.4/Annex D/viii(Phorate sulfone)	-	-
5.4/Annex D/xxvii(Methyl paraoxon)	-	-
5.4/Annex D/xxviii(Malaoxon)	-	-
5.4/Annex D/xi(Isoproturon)	-	-
5.4/Annex D/ix(2,4 –D)	-	-
5.4/Annex D/xxxi(Total Pesticide Residue)	-	-
Cl-5.1(General Requirements)	-	-
Cl-5.2.1(Escherichia coli or thermotolerant bacteria)	-	-
Cl-5.2.2(Coliform)	-	-
Cl-5.2.3(Staphylococcus aureus)	-	-
Cl-5.2.4(Sulphite Reducing Anaerobes)	-	-
Cl-5.2.5(Pseudomonas Aeruginosa)	-	-
Cl-5.2.6(Aerobic Microbial Count @ 37 deg C)	-	-
Cl-5.2.7(Yeast and mould)	-	-
Cl-5.2.8(Salmonella)	-	-
Cl-5.2.9(Vibrio cholera)	-	-
Cl-5.3, Table-1 (i)(Colour, true colour units, Max)	-	-
Cl-5.3, Table-1 (ii)(Odour)	-	-
Cl-5.3, Table-1 (iii)(Taste)	-	-
Cl-5.3, Table-1 (iv)(Turbidity, nephelometric turbidity unit (NTU), Max)	-	-
Cl-5.3, Table-1 (v)(Total dissolved solids, mg/l, Max)	-	-
Cl-5.3, Table-1 (vi)(pH)	-	-
Cl-5.3, Table-2 (i)(Barium (as Ba))	-	-
Cl-5.3, Table-2 (ii)(Copper (as Cu))	-	-
Cl-5.3, Table-2 (iii)(Iron (as Fe))	-	-
Cl-5.3, Table-2 (iv)(Manganese (as Mn))	-	-
Cl-5.3, Table-2 (v)(Nitrate (as NO3 ))	-	-
Cl-5.3, Table-2 (vi)(Nitrite (as NO2 ))	-	-
Cl-5.3, Table-2 (vii)(Fluoride (as F))	-	-
Cl-5.3, Table-2 (viii)(Zinc (as Zn))	-	-
Cl-5.3, Table-2 (ix)(Silver (as Ag))	-	-
Cl-5.3, Table-2 (x)(Aluminium (as A1))	-	-
Cl-5.3, Table-2 (xi)(Chloride (as Cl))	-	-
Cl-5.3, Table-2 (xii)(Selenium (as Se))	-	-
Cl-5.3, Table-2 (xiii)(Sulphate (as SO4 ))	-	-
Cl-5.3, Table-2 (xiv)(Alkalinity (as HCO3 ))	-	-
Cl-5.3, Table-2 (xv)(Calcium (as Ca))	-	-
Cl-5.3, Table-2 (xvi)(Magnesium (as Mg))	-	-
Cl-5.3, Table-2 (xvii)(Sodium (as Na))	-	-
Cl-5.3, Table-2 (xviii)(Residual free chlorine)	-	-
Cl-5.3, Table-2 (xix)(Phenolic compounds (as C6H5OH))	-	-
Cl-5.3, Table-2 (xx)(Mineral oil)	-	-
Cl-5.3, Table-2 (xxi)(Anionic surface active agents)	-	-
Cl-5.3, Table-2 (xxii)(Sulphide)	-	-
Cl-5.3, Table-2 (xxiii)(Antimony (as Sb))	-	-
Cl-5.3, Table-2 (xxiv)(Borates (as B))	-	-
Cl-5.3, Table-2 (xxv)(Bromates (as BrO3 ))	-	-
Cl-5.3, Table-3 (i)(Mercury (as Hg))	-	-
Cl-5.3, Table-3 (ii)(Cadmium (as Cd))	-	-
Cl-5.3, Table-3 (iii)(Arsenic (as As))	-	-
Cl-5.3, Table-3 (iv)(Cyanide (as CN))	-	-
Cl-5.3, Table-3 (v)(Lead (as Pb))	-	-
Cl-5.3, Table-3 (vi)(Chromium (as Cr))	-	-
Cl-5.3, Table-3 (vii)(Nickel (as Ni))	-	-
Cl-5.3, Table-3 (viii)(Polychlorinated biphenyl (PCB))	-	-
Cl-5.3, Table-3 (ix)(Polynuclear aromatic hydrocarbons)	-	-
Cl-5.3, Table-3 (x)(Uranium)	-	-
Cl-5.3, Table-4 (i)(Alpha emitters, Becquerel (Bq/l))	-	-
Cl-5.3, Table-4 (ii)(Beta emitters, Becquerel (Bq/l),)	-	-
Cl-5.4 (i)(Pesticide residues considered individually)	-	-
Cl-5.4 (ii)(Total pesticide residue)	-	-
Cl-5.2.3(Faecal streptococci)	-	-
Cl-5.2.8(shigella)	-	-
Cl-5.2.9(V.parahaemolyticus)	-	-
5.2.1(Escherichia Coli)	-	-
5.2.2(Coliform)	-	-
5.2.3(Faecal Streptococci & Staphylococcus aureus)	-	-
5.2.4(Sulphite Reducing Anaerobes)	-	-
5.2.5(Pseudomonas aeruginosa)	-	-
5.2.6(Aerobic Microbial Count @ 22 o C & 37o C)	-	-
5.2.7(Yeast & Mould)	-	-
5.2.8(Salmonella & Shigella)	-	-
5.2.9(Vibrio Cholera & Vibrio parahaemolyicus)	-	-
5.3(Appearance)	-	-
5.3/Table 1/i(Colour)	-	-
5.3/Table 1/ii(Odour)	-	-
5.3/Table 1/iii(Taste)	-	-
5.3/Table 1/iv(Turbidity)	-	-
5.3/Table 1/v(Total Dissolved Solids)	-	-
5.3/Table 1/vi(pH)	-	-
5.3/Table 2/i(Barium)	-	-
5.3/Table 2/ii(Copper)	-	-
5.3/Table 2/iii(Iron)	-	-
5.3/Table 2/iv(Maganese)	-	-
5.3/Table 2/v(Nitrate)	-	-
5.3/Table 2/vi(Nitrite)	-	-
5.3/Table 2/vii(Fluoride)	-	-
5.3/Table 2/viii(Zinc)	-	-
5.3/Table 2/ix(Silver)	-	-
5.3/Table 2/x(Aluminium)	-	-
5.3/Table 2/xi(Chloride)	-	-
5.3/Table 2/xii(Selenium)	-	-
5.3/Table 2/xiii(Suphate)	-	-
5.3/Table 2/xiv(Alkalinity)	-	-
5.3/Table 2/xv(Calcium)	-	-
5.3/Table 2/xvi(Magnesium)	-	-
5.3/Table 2/xvii(Sodium)	-	-
5.3/Table 2/xviii(Residual Free Chlorine)	-	-
5.3/Table 2/xix(Phenolic Compounds)	-	-
5.3/Table 2/xx(Mineral Oil)	-	-
5.3/Table 2/xxi(Anionic Surface- Active Agents as MBAS)	-	-
5.3/Table 2/xxii(Sulphide)	-	-
5.3/Table 2/xxiii(Antinomy)	-	-
5.3/Table 2/xxiv(Borates)	-	-
5.3/Table 2/xxxv(Bromate)	-	-
5.3/Table 3/i(Mercury)	-	-
5.3/Table 3/ii(Cadmium)	-	-
5.3/Table 3/iii(Arsenic)	-	-
5.3/Table 3/iv(Cyanide)	-	-
5.3/Table 3/v(Lead)	-	-
5.3/Table 3/vi(Chromium)	-	-
5.3/Table 3/vii(Nickel)	-	-
5.3/Table 3/viii(Polyclorinated biphenyl (PCB))	-	-
5.3/Table 3/ix(Polynuclear Aromatic Hydrocarbons)	-	-
5.3/Table 3/x(Uranium)	-	-
5.4/Annex D/i(P,P-DDT)	-	-
5.4/Annex D/ii(Lindane)	-	-
5.4/Annex D/iv(b-Endosulfan)	-	-
5.4/Annex D/xvi(Dieldrin)	-	-
5.4/Annex D/xvi(Aldrin)	-	-
5.4/Annex D/i(O,P-DDT)	-	-
5.4/Annex D/iv(a-Endosulfan)	-	-
5.4/Annex D/iii(d-HCH)	-	-
5.4/Annex D/i(O,P-DDD)	-	-
5.4/Annex D/i(P,P-DDE)	-	-
5.4/Annex D/i(O,P-DDE)	-	-
5.4/Annex D/iii(a-HCH)	-	-
5.4/Annex D/iii(β- HCH)	-	-
5.4/Annex D/iv(Endosulfan sulfate)	-	-
5.4/Annex D/i(P,P-DDD)	-	-
5.4/Annex D/xii(Alachlor)	-	-
5.4/Annex D/vii(Chlorpyrifos)	-	-
5.4/Annex D/x(Butachlor)	-	-
5.4/Annex D/vi(Ethion)	-	-
5.4/Annex D/xiv(Methyl parathion)	-	-
5.4/Annex D/xv(Malathion)	-	-
5.4/Annex D/viii(Phorate)	-	-
5.4/Annex D/v(Monochrotophos)	-	-
5.4/Annex D/xiii(Atrazine)	-	-
5.4/Annex D/viii(Phorate sulphoxide)	-	-
5.4/Annex D/viii(Phorate sulfone)	-	-
5.4/Annex D/xxvii(Methyl paraoxon)	-	-
5.4/Annex D/xxviii(Malaoxon)	-	-
5.4/Annex D/xi(Isoproturon)	-	-
5.4/Annex D/ix(2,4 –D)	-	-
5.4/Annex D/xxxi(Total Pesticide Residue)	-	-
Cl-5.1(General Requirements)	-	-
Cl-5.2.1(Escherichia coli or thermotolerant bacteria)	-	-
Cl-5.2.2(Coliform)	-	-
Cl-5.2.3(Staphylococcus aureus)	-	-
Cl-5.2.4(Sulphite Reducing Anaerobes)	-	-
Cl-5.2.5(Pseudomonas Aeruginosa)	-	-
Cl-5.2.6(Aerobic Microbial Count @ 37 deg C)	-	-
Cl-5.2.7(Yeast and mould)	-	-
Cl-5.2.8(Salmonella)	-	-
Cl-5.2.9(Vibrio cholera)	-	-
Cl-5.3, Table-1 (i)(Colour, true colour units, Max)	-	-
Cl-5.3, Table-1 (ii)(Odour)	-	-
Cl-5.3, Table-1 (iii)(Taste)	-	-
Cl-5.3, Table-1 (iv)(Turbidity, nephelometric turbidity unit (NTU), Max)	-	-
Cl-5.3, Table-1 (v)(Total dissolved solids, mg/l, Max)	-	-
Cl-5.3, Table-1 (vi)(pH)	-	-
Cl-5.3, Table-2 (i)(Barium (as Ba))	-	-
Cl-5.3, Table-2 (ii)(Copper (as Cu))	-	-
Cl-5.3, Table-2 (iii)(Iron (as Fe))	-	-
Cl-5.3, Table-2 (iv)(Manganese (as Mn))	-	-
Cl-5.3, Table-2 (v)(Nitrate (as NO3 ))	-	-
Cl-5.3, Table-2 (vi)(Nitrite (as NO2 ))	-	-
Cl-5.3, Table-2 (vii)(Fluoride (as F))	-	-
Cl-5.3, Table-2 (viii)(Zinc (as Zn))	-	-
Cl-5.3, Table-2 (ix)(Silver (as Ag))	-	-
Cl-5.3, Table-2 (x)(Aluminium (as A1))	-	-
Cl-5.3, Table-2 (xi)(Chloride (as Cl))	-	-
Cl-5.3, Table-2 (xii)(Selenium (as Se))	-	-
Cl-5.3, Table-2 (xiii)(Sulphate (as SO4 ))	-	-
Cl-5.3, Table-2 (xiv)(Alkalinity (as HCO3 ))	-	-
Cl-5.3, Table-2 (xv)(Calcium (as Ca))	-	-
Cl-5.3, Table-2 (xvi)(Magnesium (as Mg))	-	-
Cl-5.3, Table-2 (xvii)(Sodium (as Na))	-	-
Cl-5.3, Table-2 (xviii)(Residual free chlorine)	-	-
Cl-5.3, Table-2 (xix)(Phenolic compounds (as C6H5OH))	-	-
Cl-5.3, Table-2 (xx)(Mineral oil)	-	-
Cl-5.3, Table-2 (xxi)(Anionic surface active agents)	-	-
Cl-5.3, Table-2 (xxii)(Sulphide)	-	-
Cl-5.3, Table-2 (xxiii)(Antimony (as Sb))	-	-
Cl-5.3, Table-2 (xxiv)(Borates (as B))	-	-
Cl-5.3, Table-2 (xxv)(Bromates (as BrO3 ))	-	-
Cl-5.3, Table-3 (i)(Mercury (as Hg))	-	-
Cl-5.3, Table-3 (ii)(Cadmium (as Cd))	-	-
Cl-5.3, Table-3 (iii)(Arsenic (as As))	-	-
Cl-5.3, Table-3 (iv)(Cyanide (as CN))	-	-
Cl-5.3, Table-3 (v)(Lead (as Pb))	-	-
Cl-5.3, Table-3 (vi)(Chromium (as Cr))	-	-
Cl-5.3, Table-3 (vii)(Nickel (as Ni))	-	-
Cl-5.3, Table-3 (viii)(Polychlorinated biphenyl (PCB))	-	-
Cl-5.3, Table-3 (ix)(Polynuclear aromatic hydrocarbons)	-	-
Cl-5.3, Table-3 (x)(Uranium)	-	-
Cl-5.3, Table-4 (i)(Alpha emitters, Becquerel (Bq/l))	-	-
Cl-5.3, Table-4 (ii)(Beta emitters, Becquerel (Bq/l),)	-	-
Cl-5.4 (i)(Pesticide residues considered individually)	-	-
Cl-5.4 (ii)(Total pesticide residue)	-	-
Cl-5.2.3(Faecal streptococci)	-	-
Cl-5.2.8(shigella)	-	-
Cl-5.2.9(V.parahaemolyticus)	-	-

25 Feb, 2027

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Exclusion: Cl-5.3, Table-4 (i) (Alpha emitters), Cl-5.3, Table-4 (ii) (Beta emitters)

IS 4105 (2023)

Styrene (vinyl benzene) - Specification (Third Revision)

19800 View breakup
-

Clause No.	Exclusion	Remark
Cl-3.1(Description)	-	-
Cl-3.1 & 6.1, Table-1 (i)(Colour, Pt-Co, Max)	-	-
Cl-3.1 & 6.1, Table-1 (ii)(Relative density at 27 °C /27 °C)	-	-
Cl-3.1 & 6.1, Table-1 (iii)(Refractive index at 27 ºC, Min)	-	-
Cl-3.1 & 6.1, Table-1 (iv)(Freezing point, Min)	-	-
Cl-3.1 & 6.1, Table-1 (v)(Assay, percent by mass, Min)	-	-
Cl-3.1 & 6.1, Table-1 (vi)(Aldehyde, percent by mass (as benzaldehyde), Max)	-	-
Cl-3.1 & 6.1, Table-1 (vii)(Peroxides, percent by mass (as H2O2 ), Max)	-	-
Cl-3.1 & 6.1, Table-1 (viii)(Sulphur, percent by mass, Max)	-	-
Cl-3.1 & 6.1, Table-1 (ix)(Chlorides, percent by mass, Max)	-	-
Cl-3.1 & 6.1, Table-1 (x)(Polymer content, ppm, Max)	-	-
Cl-3.1 & 6.1, Table-1 (xii)(Inhibitor content (ptertiary butyl catechol) , ppm)	-	-
Cl-3.1 & 6.1, Table-1 (xiii)(Ethyl benzene, percent by mass, Max)	-	-
Cl-3.1 & 6.1, Table-1 (xiv)(Alpha methyl styrene, percent by mass, Max)	-	-
Cl-3.1 & 6.1, Table-1 (xv)(Benzene, ppm, Max)	-	-
Cl-3.1(Description)	-	-
Cl-3.1 & 6.1, Table-1 (i)(Colour, Pt-Co, Max)	-	-
Cl-3.1 & 6.1, Table-1 (ii)(Relative density at 27 °C /27 °C)	-	-
Cl-3.1 & 6.1, Table-1 (iii)(Refractive index at 27 ºC, Min)	-	-
Cl-3.1 & 6.1, Table-1 (iv)(Freezing point, Min)	-	-
Cl-3.1 & 6.1, Table-1 (v)(Assay, percent by mass, Min)	-	-
Cl-3.1 & 6.1, Table-1 (vi)(Aldehyde, percent by mass (as benzaldehyde), Max)	-	-
Cl-3.1 & 6.1, Table-1 (vii)(Peroxides, percent by mass (as H2O2 ), Max)	-	-
Cl-3.1 & 6.1, Table-1 (viii)(Sulphur, percent by mass, Max)	-	-
Cl-3.1 & 6.1, Table-1 (ix)(Chlorides, percent by mass, Max)	-	-
Cl-3.1 & 6.1, Table-1 (x)(Polymer content, ppm, Max)	-	-
Cl-3.1 & 6.1, Table-1 (xii)(Inhibitor content (ptertiary butyl catechol) , ppm)	-	-
Cl-3.1 & 6.1, Table-1 (xiii)(Ethyl benzene, percent by mass, Max)	-	-
Cl-3.1 & 6.1, Table-1 (xiv)(Alpha methyl styrene, percent by mass, Max)	-	-
Cl-3.1 & 6.1, Table-1 (xv)(Benzene, ppm, Max)	-	-
Cl-3.1(Description)	-	-
Cl-3.1 & 6.1, Table-1 (i)(Colour, Pt-Co, Max)	-	-
Cl-3.1 & 6.1, Table-1 (ii)(Relative density at 27 °C /27 °C)	-	-
Cl-3.1 & 6.1, Table-1 (iii)(Refractive index at 27 ºC, Min)	-	-
Cl-3.1 & 6.1, Table-1 (iv)(Freezing point, Min)	-	-
Cl-3.1 & 6.1, Table-1 (v)(Assay, percent by mass, Min)	-	-
Cl-3.1 & 6.1, Table-1 (vi)(Aldehyde, percent by mass (as benzaldehyde), Max)	-	-
Cl-3.1 & 6.1, Table-1 (vii)(Peroxides, percent by mass (as H2O2 ), Max)	-	-
Cl-3.1 & 6.1, Table-1 (viii)(Sulphur, percent by mass, Max)	-	-
Cl-3.1 & 6.1, Table-1 (ix)(Chlorides, percent by mass, Max)	-	-
Cl-3.1 & 6.1, Table-1 (x)(Polymer content, ppm, Max)	-	-
Cl-3.1 & 6.1, Table-1 (xii)(Inhibitor content (ptertiary butyl catechol) , ppm)	-	-
Cl-3.1 & 6.1, Table-1 (xiii)(Ethyl benzene, percent by mass, Max)	-	-
Cl-3.1 & 6.1, Table-1 (xiv)(Alpha methyl styrene, percent by mass, Max)	-	-
Cl-3.1 & 6.1, Table-1 (xv)(Benzene, ppm, Max)	-	-

25 Feb, 2027

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-

IS 1117 (2018)

Laboratory glassware - Single - Volume pipettes (Second Revision)

15500 View breakup
-

Clause No.	Exclusion	Remark
6.1.1&3(Marking)	-	-
3(Class of Accuracy)	-	-
4.1(Nominal capacities)	-	-
4.2(Accuracy)	-	-
5.1(Material)	-	-
5.1(Material)	-	-
5.1.1(Limit of Alkalinity)	-	-
5.2(Pattern of Pipette)	-	-
5.3(Workmanship & Finish)	-	-
5.4(i) Distance of graduation line from top of pipette.)	-	-
5.4(ii) Distance from graduation line to top of bulb(pattern 2))	-	-
5.4(iii)Distance from graduation line to tip of jet (Pattern 1))	-	-
5.4(iv) Wall thickness)	-	-
5.4(a) pattern 2 pipette of 1 and 2ml )	-	-
5.4(b) Other pipettes)	-	-
5.4(v) Dia. of safety bulb (if provided ))	-	-
5.4(vi)Distance from top of pipette to bottom of safety bulb )	-	-
5.4(vii) Overall length, L)	-	-
5.4(viii) Length of suction tube, L1 )	-	-
5.4(ix) Length of delivery tube, L2 )	-	-
5.4(x) Internal dia. of suction tube D1 )	-	-
5.4(xi) External dia. of bulb D2 )	-	-
5.4(xii) External dia. of delivery tube D3 )	-	-
5.5(Delivery Time)	-	-
5.5(Delivery Time)	-	-
5.6&7(Graduation line & Visibility )	-	-
6.1.2(Marking)	-	-
6.1.1&3(Marking)	-	-
3(Class of Accuracy)	-	-
4.1(Nominal capacities)	-	-
4.2(Accuracy)	-	-
5.1(Material)	-	-
5.1(Material)	-	-
5.1.1(Limit of Alkalinity)	-	-
5.2(Pattern of Pipette)	-	-
5.3(Workmanship & Finish)	-	-
5.4(i) Distance of graduation line from top of pipette.)	-	-
5.4(ii) Distance from graduation line to top of bulb(pattern 2))	-	-
5.4(iii)Distance from graduation line to tip of jet (Pattern 1))	-	-
5.4(iv) Wall thickness)	-	-
5.4(a) pattern 2 pipette of 1 and 2ml )	-	-
5.4(b) Other pipettes)	-	-
5.4(v) Dia. of safety bulb (if provided ))	-	-
5.4(vi)Distance from top of pipette to bottom of safety bulb )	-	-
5.4(vii) Overall length, L)	-	-
5.4(viii) Length of suction tube, L1 )	-	-
5.4(ix) Length of delivery tube, L2 )	-	-
5.4(x) Internal dia. of suction tube D1 )	-	-
5.4(xi) External dia. of bulb D2 )	-	-
5.4(xii) External dia. of delivery tube D3 )	-	-
5.5(Delivery Time)	-	-
5.5(Delivery Time)	-	-
5.6&7(Graduation line & Visibility )	-	-
6.1.2(Marking)	-	-
6.1.1&3(Marking)	-	-
3(Class of Accuracy)	-	-
4.1(Nominal capacities)	-	-
4.2(Accuracy)	-	-
5.1(Material)	-	-
5.1(Material)	-	-
5.1.1(Limit of Alkalinity)	-	-
5.2(Pattern of Pipette)	-	-
5.3(Workmanship & Finish)	-	-
5.4(i) Distance of graduation line from top of pipette.)	-	-
5.4(ii) Distance from graduation line to top of bulb(pattern 2))	-	-
5.4(iii)Distance from graduation line to tip of jet (Pattern 1))	-	-
5.4(iv) Wall thickness)	-	-
5.4(a) pattern 2 pipette of 1 and 2ml )	-	-
5.4(b) Other pipettes)	-	-
5.4(v) Dia. of safety bulb (if provided ))	-	-
5.4(vi)Distance from top of pipette to bottom of safety bulb )	-	-
5.4(vii) Overall length, L)	-	-
5.4(viii) Length of suction tube, L1 )	-	-
5.4(ix) Length of delivery tube, L2 )	-	-
5.4(x) Internal dia. of suction tube D1 )	-	-
5.4(xi) External dia. of bulb D2 )	-	-
5.4(xii) External dia. of delivery tube D3 )	-	-
5.5(Delivery Time)	-	-
5.5(Delivery Time)	-	-
5.6&7(Graduation line & Visibility )	-	-
6.1.2(Marking)	-	-

25 Feb, 2027

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-

IS 2619 (2018)

Glass beakers - Specification (Third Revision)

15500 View breakup
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Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
Cl.5 Capacity (a)overflow of capacity of a beaker shall exceed the nominal capacity by at least 5 %;)	-	15500	-
Cl.5 Capacity (b) Distance between the levels corresponding to the nominal and overflow capacities shall be at least 10 mm.)	-	15500	-
Cl.6 Material(Beakers shall be made of borosilicate glass 3.3 in accordance with ISO 3585. The glass shall be reasonably free from residual strain and from visible glass defects which might impair the safety and performance of the beaker.)	-	15500	-
Cl.7.1 Dimensions(Low-form and tall-form beakers shall observe the dimensions specified in Table 1 and thick-walled beakers the dimensions specifed in Table 2. The tolerances on the external diameter shall be ±5 % of the value given in the tables.)	-	15500	-
Cl.7.2 Radius at base(Beakers having a nominal capacity of 250 ml or greater shall have an external radius at the junction between the base and the side of 10 % to 20 % of the external diameter.)	-	15500	-
Cl.7.2 Radius at base(Beakers having a nominal capacity less than 250 ml shall have a minimum radius at the junction between the base and the side of 5 % of the external diameter.)	-	15500	-
Cl.7.3 Wall thickness(Substantial local irregularities from the minimum values for wall thickness given in the tables shall be avoided. That means, the minimum wall thickness shall fall at no place below the values given in Table 1 and Table 2 and the beakers shall comply with the requirement for thermal shock endurance specified in 8.5.)	-	15500	-
Cl.8.1 Base(The design of the base shall enable the beaker to stand vertically on a plane horizontal surface without spinning or rocking)	-	15500	-
8.2 Upper edge(The side of the beaker shall be slightly flared near the brim in a smooth and regular curve. The diameter of the brim shall be of the order of 5 % to 15 % greater than the diameter of the body. The edge of the brim shall be finished in a plane parallel with that of the horizontal base.)	-	15500	-
Cl. 8.3 Spout(The spout shall be shaped so that, when the beaker is filled with water, the water may be poured in a regular stream clear of the side of the beaker. When the beaker is placed on a horizontal surface and filling is continued beyond its overflow capacity, the water shall first overflow from the spout and not from any other part of the brim.)	-	15500	-
Cl.8.4 Scale(Beakers may be provided with a scale, which should approximately indicate the volume contained in the beaker.)	-	15500	-
Cl.8.5 Thermal shock resistance(Beakers shall have a thermal shock resistance of 160 °C when tested in accordance with ISO 718.)	-	15500	-
Cl.5 Capacity (a)overflow of capacity of a beaker shall exceed the nominal capacity by at least 5 %;)	-	15500	-
Cl.5 Capacity (b) Distance between the levels corresponding to the nominal and overflow capacities shall be at least 10 mm.)	-	15500	-
Cl.6 Material(Beakers shall be made of borosilicate glass 3.3 in accordance with ISO 3585. The glass shall be reasonably free from residual strain and from visible glass defects which might impair the safety and performance of the beaker.)	-	15500	-
Cl.7.1 Dimensions(Low-form and tall-form beakers shall observe the dimensions specified in Table 1 and thick-walled beakers the dimensions specifed in Table 2. The tolerances on the external diameter shall be ±5 % of the value given in the tables.)	-	15500	-
Cl.7.2 Radius at base(Beakers having a nominal capacity of 250 ml or greater shall have an external radius at the junction between the base and the side of 10 % to 20 % of the external diameter.)	-	15500	-
Cl.7.2 Radius at base(Beakers having a nominal capacity less than 250 ml shall have a minimum radius at the junction between the base and the side of 5 % of the external diameter.)	-	15500	-
Cl.7.3 Wall thickness(Substantial local irregularities from the minimum values for wall thickness given in the tables shall be avoided. That means, the minimum wall thickness shall fall at no place below the values given in Table 1 and Table 2 and the beakers shall comply with the requirement for thermal shock endurance specified in 8.5.)	-	15500	-
Cl.8.1 Base(The design of the base shall enable the beaker to stand vertically on a plane horizontal surface without spinning or rocking)	-	15500	-
8.2 Upper edge(The side of the beaker shall be slightly flared near the brim in a smooth and regular curve. The diameter of the brim shall be of the order of 5 % to 15 % greater than the diameter of the body. The edge of the brim shall be finished in a plane parallel with that of the horizontal base.)	-	15500	-
Cl. 8.3 Spout(The spout shall be shaped so that, when the beaker is filled with water, the water may be poured in a regular stream clear of the side of the beaker. When the beaker is placed on a horizontal surface and filling is continued beyond its overflow capacity, the water shall first overflow from the spout and not from any other part of the brim.)	-	15500	-
Cl.8.4 Scale(Beakers may be provided with a scale, which should approximately indicate the volume contained in the beaker.)	-	15500	-
Cl.8.5 Thermal shock resistance(Beakers shall have a thermal shock resistance of 160 °C when tested in accordance with ISO 718.)	-	15500	-
Cl.5 Capacity (a)overflow of capacity of a beaker shall exceed the nominal capacity by at least 5 %;)	-	15500	-
Cl.5 Capacity (b) Distance between the levels corresponding to the nominal and overflow capacities shall be at least 10 mm.)	-	15500	-
Cl.6 Material(Beakers shall be made of borosilicate glass 3.3 in accordance with ISO 3585. The glass shall be reasonably free from residual strain and from visible glass defects which might impair the safety and performance of the beaker.)	-	15500	-
Cl.7.1 Dimensions(Low-form and tall-form beakers shall observe the dimensions specified in Table 1 and thick-walled beakers the dimensions specifed in Table 2. The tolerances on the external diameter shall be ±5 % of the value given in the tables.)	-	15500	-
Cl.7.2 Radius at base(Beakers having a nominal capacity of 250 ml or greater shall have an external radius at the junction between the base and the side of 10 % to 20 % of the external diameter.)	-	15500	-
Cl.7.2 Radius at base(Beakers having a nominal capacity less than 250 ml shall have a minimum radius at the junction between the base and the side of 5 % of the external diameter.)	-	15500	-
Cl.7.3 Wall thickness(Substantial local irregularities from the minimum values for wall thickness given in the tables shall be avoided. That means, the minimum wall thickness shall fall at no place below the values given in Table 1 and Table 2 and the beakers shall comply with the requirement for thermal shock endurance specified in 8.5.)	-	15500	-
Cl.8.1 Base(The design of the base shall enable the beaker to stand vertically on a plane horizontal surface without spinning or rocking)	-	15500	-
8.2 Upper edge(The side of the beaker shall be slightly flared near the brim in a smooth and regular curve. The diameter of the brim shall be of the order of 5 % to 15 % greater than the diameter of the body. The edge of the brim shall be finished in a plane parallel with that of the horizontal base.)	-	15500	-
Cl. 8.3 Spout(The spout shall be shaped so that, when the beaker is filled with water, the water may be poured in a regular stream clear of the side of the beaker. When the beaker is placed on a horizontal surface and filling is continued beyond its overflow capacity, the water shall first overflow from the spout and not from any other part of the brim.)	-	15500	-
Cl.8.4 Scale(Beakers may be provided with a scale, which should approximately indicate the volume contained in the beaker.)	-	15500	-
Cl.8.5 Thermal shock resistance(Beakers shall have a thermal shock resistance of 160 °C when tested in accordance with ISO 718.)	-	15500	-
Cl.5 Capacity (a)overflow of capacity of a beaker shall exceed the nominal capacity by at least 5 %;)	-	0	-
Cl.5 Capacity (b) Distance between the levels corresponding to the nominal and overflow capacities shall be at least 10 mm.)	-	0	-
Cl.6 Material(Beakers shall be made of borosilicate glass 3.3 in accordance with ISO 3585. The glass shall be reasonably free from residual strain and from visible glass defects which might impair the safety and performance of the beaker.)	-	0	-
Cl.7.1 Dimensions(Low-form and tall-form beakers shall observe the dimensions specified in Table 1 and thick-walled beakers the dimensions specifed in Table 2. The tolerances on the external diameter shall be ±5 % of the value given in the tables.)	-	0	-
Cl.7.2 Radius at base(Beakers having a nominal capacity of 250 ml or greater shall have an external radius at the junction between the base and the side of 10 % to 20 % of the external diameter.)	-	0	-
Cl.7.2 Radius at base(Beakers having a nominal capacity less than 250 ml shall have a minimum radius at the junction between the base and the side of 5 % of the external diameter.)	-	0	-
Cl.7.3 Wall thickness(Substantial local irregularities from the minimum values for wall thickness given in the tables shall be avoided. That means, the minimum wall thickness shall fall at no place below the values given in Table 1 and Table 2 and the beakers shall comply with the requirement for thermal shock endurance specified in 8.5.)	-	0	-
Cl.8.1 Base(The design of the base shall enable the beaker to stand vertically on a plane horizontal surface without spinning or rocking)	-	0	-
8.2 Upper edge(The side of the beaker shall be slightly flared near the brim in a smooth and regular curve. The diameter of the brim shall be of the order of 5 % to 15 % greater than the diameter of the body. The edge of the brim shall be finished in a plane parallel with that of the horizontal base.)	-	0	-
Cl. 8.3 Spout(The spout shall be shaped so that, when the beaker is filled with water, the water may be poured in a regular stream clear of the side of the beaker. When the beaker is placed on a horizontal surface and filling is continued beyond its overflow capacity, the water shall first overflow from the spout and not from any other part of the brim.)	-	0	-
Cl.8.4 Scale(Beakers may be provided with a scale, which should approximately indicate the volume contained in the beaker.)	-	0	-
Cl.8.5 Thermal shock resistance(Beakers shall have a thermal shock resistance of 160 °C when tested in accordance with ISO 718.)	-	0	-
Cl.5 Capacity (a)overflow of capacity of a beaker shall exceed the nominal capacity by at least 5 %;)	-	0	-
Cl.5 Capacity (b) Distance between the levels corresponding to the nominal and overflow capacities shall be at least 10 mm.)	-	0	-
Cl.6 Material(Beakers shall be made of borosilicate glass 3.3 in accordance with ISO 3585. The glass shall be reasonably free from residual strain and from visible glass defects which might impair the safety and performance of the beaker.)	-	0	-
Cl.7.1 Dimensions(Low-form and tall-form beakers shall observe the dimensions specified in Table 1 and thick-walled beakers the dimensions specifed in Table 2. The tolerances on the external diameter shall be ±5 % of the value given in the tables.)	-	0	-
Cl.7.2 Radius at base(Beakers having a nominal capacity of 250 ml or greater shall have an external radius at the junction between the base and the side of 10 % to 20 % of the external diameter.)	-	0	-
Cl.7.2 Radius at base(Beakers having a nominal capacity less than 250 ml shall have a minimum radius at the junction between the base and the side of 5 % of the external diameter.)	-	0	-
Cl.7.3 Wall thickness(Substantial local irregularities from the minimum values for wall thickness given in the tables shall be avoided. That means, the minimum wall thickness shall fall at no place below the values given in Table 1 and Table 2 and the beakers shall comply with the requirement for thermal shock endurance specified in 8.5.)	-	0	-
Cl.8.1 Base(The design of the base shall enable the beaker to stand vertically on a plane horizontal surface without spinning or rocking)	-	0	-
8.2 Upper edge(The side of the beaker shall be slightly flared near the brim in a smooth and regular curve. The diameter of the brim shall be of the order of 5 % to 15 % greater than the diameter of the body. The edge of the brim shall be finished in a plane parallel with that of the horizontal base.)	-	0	-
Cl. 8.3 Spout(The spout shall be shaped so that, when the beaker is filled with water, the water may be poured in a regular stream clear of the side of the beaker. When the beaker is placed on a horizontal surface and filling is continued beyond its overflow capacity, the water shall first overflow from the spout and not from any other part of the brim.)	-	0	-
Cl.8.4 Scale(Beakers may be provided with a scale, which should approximately indicate the volume contained in the beaker.)	-	0	-
Cl.8.5 Thermal shock resistance(Beakers shall have a thermal shock resistance of 160 °C when tested in accordance with ISO 718.)	-	0	-
Cl.5 Capacity (a)overflow of capacity of a beaker shall exceed the nominal capacity by at least 5 %;)	-	0	-
Cl.5 Capacity (b) Distance between the levels corresponding to the nominal and overflow capacities shall be at least 10 mm.)	-	0	-
Cl.6 Material(Beakers shall be made of borosilicate glass 3.3 in accordance with ISO 3585. The glass shall be reasonably free from residual strain and from visible glass defects which might impair the safety and performance of the beaker.)	-	0	-
Cl.7.1 Dimensions(Low-form and tall-form beakers shall observe the dimensions specified in Table 1 and thick-walled beakers the dimensions specifed in Table 2. The tolerances on the external diameter shall be ±5 % of the value given in the tables.)	-	0	-
Cl.7.2 Radius at base(Beakers having a nominal capacity of 250 ml or greater shall have an external radius at the junction between the base and the side of 10 % to 20 % of the external diameter.)	-	0	-
Cl.7.2 Radius at base(Beakers having a nominal capacity less than 250 ml shall have a minimum radius at the junction between the base and the side of 5 % of the external diameter.)	-	0	-
Cl.7.3 Wall thickness(Substantial local irregularities from the minimum values for wall thickness given in the tables shall be avoided. That means, the minimum wall thickness shall fall at no place below the values given in Table 1 and Table 2 and the beakers shall comply with the requirement for thermal shock endurance specified in 8.5.)	-	0	-
Cl.8.1 Base(The design of the base shall enable the beaker to stand vertically on a plane horizontal surface without spinning or rocking)	-	0	-
8.2 Upper edge(The side of the beaker shall be slightly flared near the brim in a smooth and regular curve. The diameter of the brim shall be of the order of 5 % to 15 % greater than the diameter of the body. The edge of the brim shall be finished in a plane parallel with that of the horizontal base.)	-	0	-
Cl. 8.3 Spout(The spout shall be shaped so that, when the beaker is filled with water, the water may be poured in a regular stream clear of the side of the beaker. When the beaker is placed on a horizontal surface and filling is continued beyond its overflow capacity, the water shall first overflow from the spout and not from any other part of the brim.)	-	0	-
Cl.8.4 Scale(Beakers may be provided with a scale, which should approximately indicate the volume contained in the beaker.)	-	0	-
Cl.8.5 Thermal shock resistance(Beakers shall have a thermal shock resistance of 160 °C when tested in accordance with ISO 718.)	-	0	-

25 Feb, 2027

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IS 915 (2012)

Laboratory glassware - One - Mark volumetric flasks (Third Revision)

15500 View breakup
-

Clause No.	Exclusion	Remark
8.1(Material)	-	-
Table 1(Nominal Capacity)	-	-
Table 1(Internal Neck Diameter)	-	-
Table 1(Distance of graduation line)	-	-
Table 1(Overall Height)	-	-
Table 1(Bulb Diameter)	-	-
Table 1(Base Diameter)	-	-
Table 1(Wall Thickness)	-	-
Table 1(Ground joint k4)	-	-
Table 1(Ground joint k6)	-	-
8.3(Shape)	-	-
8.4(Neck)	-	-
8.5(Stopper)	-	-
8.6(Dimensions)	-	-
9.0(Graduation Line)	-	-
Table-2(Nominal capacity)	-	-
Table-2(Internal neck diameter)	-	-
Table-2(Distance of graduation line 1))	-	-
Table-2(Overall height 2))	-	-
Table-2(Bulb diameter)	-	-
Table-2(Base diameter)	-	-
Table-2(Wall thickness)	-	-
Table-2(Ground joint 3) k4)	-	-
Table-2(Ground joint 3) k6)	-	-
12.1(Visibility of graduation line, figures and marking)	-	-
12.2(Visibility of graduation line, figures and marking)	-	-
Clause. 7.0(Accuracy)	-	-
Table 1(Nominal Capacity)	-	-
9.0(Graduation Line)	-	-
Table-2(Nominal capacity)	-	-
Table-2(Internal neck diameter)	-	-
Table-2(Distance of graduation line 1))	-	-
Table-2(Overall height 2))	-	-
Table-2(Bulb diameter)	-	-
Table-2(Base diameter)	-	-
Table-2(Wall thickness)	-	-
Table-2(Ground joint 3) k4)	-	-
Table-2(Ground joint 3) k6)	-	-
12.1(Visibility of graduation line, figures and marking)	-	-
12.2(Visibility of graduation line, figures and marking)	-	-
Clause. 7.0(Accuracy)	-	-
Table 1(Nominal Capacity)	-	-
9.0(Graduation Line)	-	-
Table-2(Nominal capacity)	-	-
Table-2(Internal neck diameter)	-	-
Table-2(Distance of graduation line 1))	-	-
Table-2(Overall height 2))	-	-
Table-2(Bulb diameter)	-	-
Table-2(Base diameter)	-	-
Table-2(Wall thickness)	-	-
Table-2(Ground joint 3) k4)	-	-
Table-2(Ground joint 3) k6)	-	-
12.1(Visibility of graduation line, figures and marking)	-	-
12.2(Visibility of graduation line, figures and marking)	-	-
Clause. 7.0(Accuracy)	-	-

25 Feb, 2027

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IS 878 (2008)

Laboratory glassware - Graduated measuring cylinders (Second Revision)

14500 View breakup
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Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
Table-1(Nominal capacity)	-	14500	-
Table-1(Overall height)	-	14500	-
Table-1(Distance from top of scale to top of cylinder)	-	14500	-
Table-1(Internal height to highest graduation line)	-	14500	-
Table-1(Sub-divisions)	-	14500	-
Table-1(capacity at lowest graduation line)	-	14500	-
Cl-9.1(Wall thickness)	-	14500	-
Cl-9.2(Stability)	-	14500	-
Cl-9.3(Base)	-	14500	-
Cl-9.4(Rim and spout)	-	14500	-
Cl-9.5(Neck and stopper)	-	14500	-
Cl-9.6, Table-2(Nominal capacity)	-	14500	-
Cl-9.6, Table-2(Overall height)	-	14500	-
Cl-9.6, Table-2(Distance from top of scale to top of cylinder)	-	14500	-
Cl-9.6, Table-2(Internal height to highest graduation line)	-	14500	-
Cl-9.6, Table-2(Sub divisions)	-	14500	-
Cl-9.6, Table-2(capacity at lowest graduation line)	-	14500	-
Cl-10.1(Graduation)	-	14500	-
Cl-10.2(Figuring)	-	14500	-
Cl-11(Accuracy testing)	-	14500	-
Cl-13(Visibility of graduation lines, figures and marking)	-	14500	-
Table-1(capacity at lowest graduation line)	-	0	-
Cl-9.1(Wall thickness)	-	0	-
Cl-9.2(Stability)	-	0	-
Cl-9.3(Base)	-	0	-
Cl-9.4(Rim and spout)	-	0	-
Cl-9.5(Neck and stopper)	-	0	-
Cl-9.6, Table-2(Nominal capacity)	-	0	-
Cl-9.6, Table-2(Overall height)	-	0	-
Cl-9.6, Table-2(Distance from top of scale to top of cylinder)	-	0	-
Cl-9.6, Table-2(Internal height to highest graduation line)	-	0	-
Cl-9.6, Table-2(Sub divisions)	-	0	-
Cl-9.6, Table-2(capacity at lowest graduation line)	-	0	-
Cl-10.1(Graduation)	-	0	-
Cl-10.2(Figuring)	-	0	-
Cl-11(Accuracy testing)	-	0	-
Cl-13(Visibility of graduation lines, figures and marking)	-	0	-
Clause. 8.0(Material)	-	0	-
Table- 1(Max. Permissible Error (Class- a))	-	0	-
Table- 1(Max. Permissible Error (Class- b))	-	0	-
Table- 2(Max. Permissible Error (Type-2))	-	0	-

25 Feb, 2027

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IS 17790 (2022)

INSULATED FLASK FOR DOMESTIC USE SPECIFICATION

29900 View breakup
-

Clause No.	Exclusion	Remark
5.0(Manufacture and Workmanship)	-	-
5.3(Welding Defects)	-	-
7.1(Material)	-	-
7.1.2.1 & 7.1.2.2(Thickness)	-	-
7.1.3(Coating Thickness)	-	-
7.1.3(Material – coating cadmium)	-	-
7.1.2.2(Bisphenol A (BPA))	-	-
7.1.4.3(O-Ring / Washer- Defects)	-	-
7.2(Capacity)	-	-
7.3(Heat Retention Capability)	-	-
7.4(Cold Retention Capability)	-	-
7.5.1(Drop Impact Test)	-	-
7.5.2(Pendulum Impact Test)	-	-
7.6(Fixing Strength of the Handle)	-	-
7.7(Test for Strength of Shoulder Strap)	-	-
7.8(Test for strength of cord)	-	-
7.9(Leakage Test)	-	-
7.10(Joint Leak Test)	-	-
7.11(Staining Test)	-	-
7.13(Seepage test)	-	-
7.14(Test for Lever, device for operating Or regulating flow test)	-	-
7.15(Test for length of the shoulder cap)	-	-
7.16(Stability of Flask)	-	-
7.17(Pour Test)	-	-
9.1(Marking)	-	-
9.2(BIS certification marking)	-	-
10(Packaging)	-	-

25 Feb, 2027

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Bureau of Indian Standards

The National Standards Body of India

Atmy Analytical Labs Pvt. Ltd., Faridabad

I-30,DLF Industrial Area, Phase-1, Faridabad, Faridabad, Haryana, 121003

9910808996 info@atmylabs.com

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