BIS - LIMS (Laboratory Information Management System)

Search by IS Number

Reset

15360 Results

S.No.

Lab Name

Osl Code

Indian Standard No.

Product

Grade / Type / Size / Designation etc.

Testing Charges (Excl. Of Taxes)

Validity Date

Remark

2641

Bengaluru Smart Laboratory, Indian Oil Corporation Limited (IOCL)

6193214

IS 1604 (2022)

Aviation gasoline - Specification (fifth revision)

18180 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
4.1.2-Table 1-i(Appearance)	-	200	-
4.1.2-Table 1-iv(Copper strip corrosion for 2 h at 100°C)	-	1130	-
4.1.2-Table 1-v(Density at 15°C, kg/m3)	-	1130	-
4.1.2-Table 1-vi(Distillation)	-	2650	-
4.1.2-Table 1-viii(Existent gum, mg/100 ml, Max)	-	2070	-
4.1.2-Table 1-ix(Freezing point, °C, Max)	-	2270	-
4.1.2-Table 1-xii(Reid vapour pressure at 38°C, kPa)	-	1900	-
4.1.2-Table 1-xiv(Total sulphur percent m/m, Max)	-	4710	-
4.1.2-Table 1-xvi(Water reaction: Volume change, ml, Max)	-	780	-
4.1.2-Table 1-vii(Electrical conductivity, pS/m)	-	1340	-

10 Dec, 2028

-
Excluding: 4.1 (General) 4.2 (Composition) 4.2.2-Table 1-vii) (Knock rating: a) Lean mixture,motor method,octane number, Min b) Rich mixture, octane number, Min c) Rich mixture, performance number, Min) 4.2.2-Table 1-viii) (Oxidation stability, 16 h: a) Potential gum, mg/100 ml, Max b) Potential gum, mg/100 ml, Max) 4.2.2-Table 1-x) (Specific energy MJ/kg, Min or Product of API gravity and aniline point, Min) 4.2.2-Table 1-xii) (Tetraethyl lead, g Pb/l at 15°C, Max) 4.2.3 (Static Dissipater Additive (SDA)) 4.2.4 (Dyes) 4.2.5 (Colour) 4.3 (Materials) 4.4 (Requirements) 6.1 (Packing) 6.2 (Marking)

2642

CTL TESTING LABORATORY PRIVATE LIMITED, JAIPUR

8180306

IS 15450 (2022)

Polyethylene-aluminium-polyethylene composite pressure pipes for hot and cold water supplies Specifications first revision of IS 15450

DN 12 TO DN75

48000 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
5(MATERIALS)	-	5200	10% DISCOUNT FOR BIS
6(PRESSURE RATING)	-	0	10% DISCOUNT FOR BIS
7(NOMINAL DIAMETERS)	-	500	10% DISCOUNT FOR BIS
8(COLOUR)	-	200	10% DISCOUNT FOR BIS
9(DIMENSIONS OF PIPE)	-	500	10% DISCOUNT FOR BIS
10(VISUAL APPEARANCE)	-	200	10% DISCOUNT FOR BIS
11.1(Density (Method of test as per Table 3))	-	1000	10% DISCOUNT FOR BIS
11.2(Melt Flow Rate (Method of test as per Table 3))	-	500	10% DISCOUNT FOR BIS
11.3(Overall Migration)	-	2500	10% DISCOUNT FOR BIS
11.4(Thermal Stability to Oxidation (Method of test as per Table 3))	-	1500	10% DISCOUNT FOR BIS
11.5(Carbon Black Content and Dispersion (Method of test as per Table 3))	-	500	10% DISCOUNT FOR BIS
11.6(Pigment Dispersion (For Coloured Pipes) (Method of test as per Table 3))	-	1000	10% DISCOUNT FOR BIS
11.7(Resistance to Weathering)	-	15000	10% DISCOUNT FOR BIS
11.8(Adhesion Test)	-	2500	10% DISCOUNT FOR BIS
11.9(Apparent Tensile Strength of Pipe)	-	1500	10% DISCOUNT FOR BIS
11.10(Minimum Burst Pressure)	-	2500	10% DISCOUNT FOR BIS
11.11(Hydraulic Characteristics)	-	3500	10% DISCOUNT FOR BIS
Table 3(Anti-oxidant (as per IS 2530))	-	1500	10% DISCOUNT FOR BIS
14(MARKING)	-	0	10% DISCOUNT FOR BIS
5.1(MATERIALS)	-	2500	10% DISCOUNT FOR BIS
5.2.1(MATERIALS)	-	3500	10% DISCOUNT FOR BIS
5.2.1.1(The other constituents)	-	1200	10% DISCOUNT FOR BIS
5.3.1(UV Stabilizer)	-	1500	10% DISCOUNT FOR BIS
5.3.2(UV Stabilizer)	-	1500	10% DISCOUNT FOR BIS
5.4(Aluminium)	-	2000	10% DISCOUNT FOR BIS
5.5(REWORK Material)	-	0	10% DISCOUNT FOR BIS
6(PRESSURE RATING)	-	0	10% DISCOUNT FOR BIS
7(NOMINAL DIAMETERS)	-	200	10% DISCOUNT FOR BIS
8(COLOUR)	-	0	10% DISCOUNT FOR BIS
9.1(DIMENSIONS OF PIPE)	-	200	10% DISCOUNT FOR BIS
9.2.1(Method of Measurements)	-	0	10% DISCOUNT FOR BIS
9.3(Length of Straight Pipe)	-	400	10% DISCOUNT FOR BIS
9.4(Coiling)	-	400	10% DISCOUNT FOR BIS
10(VISUAL APPEARANCE)	-	0	10% DISCOUNT FOR BIS
11.1(Density)	-	1000	10% DISCOUNT FOR BIS
11.3(Melt Flow Rate)	-	1000	10% DISCOUNT FOR BIS
11.3(Overall Migration)	-	2500	10% DISCOUNT FOR BIS
11.4(Thermal Stability to Oxidation)	-	1500	10% DISCOUNT FOR BIS
11.5(Carbon Black Content and Dispersion)	-	1500	10% DISCOUNT FOR BIS
11.6(Pigment Dispersion (For Coloured Pipes))	-	1500	10% DISCOUNT FOR BIS
11.7(Resistance to Weathering)	-	11000	10% DISCOUNT FOR BIS
11.8(Adhesion Test)	-	2500	10% DISCOUNT FOR BIS
11.9(Apparent Tensile Strength of Pipe)	-	2500	10% DISCOUNT FOR BIS
11.1(Minimum Burst Pressure)	-	3500	10% DISCOUNT FOR BIS
11.11.1(Short Term Hydrostatic Tests)	-	3500	10% DISCOUNT FOR BIS
11.11.12(Long Term Hydrostatic Test)	-	3500	10% DISCOUNT FOR BIS
12.1(Type Test)	-	4500	10% DISCOUNT FOR BIS
5(MATERIALS)	-	0	10% DISCOUNT FOR BIS
6(PRESSURE RATING)	-	0	10% DISCOUNT FOR BIS
7(NOMINAL DIAMETERS)	-	0	10% DISCOUNT FOR BIS
8(COLOUR)	-	0	10% DISCOUNT FOR BIS
9(DIMENSIONS OF PIPE)	-	0	10% DISCOUNT FOR BIS
10(VISUAL APPEARANCE)	-	0	10% DISCOUNT FOR BIS
11.1(Density (Method of test as per Table 3))	-	500	10% DISCOUNT FOR BIS
11.2(Melt Flow Rate (Method of test as per Table 3))	-	500	10% DISCOUNT FOR BIS
11.3(Overall Migration)	-	1500	10% DISCOUNT FOR BIS
11.4(Thermal Stability to Oxidation (Method of test as per Table 3))	-	2500	10% DISCOUNT FOR BIS
11.5(Carbon Black Content and Dispersion (Method of test as per Table 3))	-	1500	10% DISCOUNT FOR BIS
11.6(Pigment Dispersion (For Coloured Pipes) (Method of test as per Table 3))	-	2500	10% DISCOUNT FOR BIS
11.7(Resistance to Weathering)	-	15000	10% DISCOUNT FOR BIS
11.8(Adhesion Test)	-	0	10% DISCOUNT FOR BIS
11.9(Apparent Tensile Strength of Pipe)	-	0	10% DISCOUNT FOR BIS
11.10(Minimum Burst Pressure)	-	0	10% DISCOUNT FOR BIS
11.11(Hydraulic Characteristics)	-	0	10% DISCOUNT FOR BIS
Table 3(Anti-oxidant (as per IS 2530))	-	0	10% DISCOUNT FOR BIS
14(MARKING)	-	0	10% DISCOUNT FOR BIS
5.1(MATERIALS)	-	0	10% DISCOUNT FOR BIS
5.2.1(MATERIALS)	-	0	10% DISCOUNT FOR BIS
5.2.1.1(The other constituents)	-	0	10% DISCOUNT FOR BIS
5.3.1(UV Stabilizer)	-	0	10% DISCOUNT FOR BIS
5.3.2(UV Stabilizer)	-	0	10% DISCOUNT FOR BIS
5.4(Aluminium)	-	0	-
5.5(REWORK Material)	-	0	-
6(PRESSURE RATING)	-	0	-
7(NOMINAL DIAMETERS)	-	0	-
8(COLOUR)	-	0	-
9.1(DIMENSIONS OF PIPE)	-	0	-
9.2.1(Method of Measurements)	-	0	-
9.3(Length of Straight Pipe)	-	0	-
9.4(Coiling)	-	0	-
10(VISUAL APPEARANCE)	-	0	-
11.1(Density)	-	0	-
11.3(Melt Flow Rate)	-	0	-
11.3(Overall Migration)	-	0	-
11.4(Thermal Stability to Oxidation)	-	0	-
11.5(Carbon Black Content and Dispersion)	-	0	-
11.6(Pigment Dispersion (For Coloured Pipes))	-	0	-
11.7(Resistance to Weathering)	-	0	-
11.8(Adhesion Test)	-	0	-
11.9(Apparent Tensile Strength of Pipe)	-	0	-
11.1(Minimum Burst Pressure)	-	0	-
11.11.1(Short Term Hydrostatic Tests)	-	0	-
11.11.12(Long Term Hydrostatic Test)	-	0	-
12.1(Type Test)	-	0	-
5(MATERIALS)	-	-	-
6(PRESSURE RATING)	-	-	-
7(NOMINAL DIAMETERS)	-	-	-
8(COLOUR)	-	-	-
9(DIMENSIONS OF PIPE)	-	-	-
10(VISUAL APPEARANCE)	-	-	-
11.1(Density (Method of test as per Table 3))	-	-	-
11.2(Melt Flow Rate (Method of test as per Table 3))	-	-	-
11.3(Overall Migration)	-	-	-
11.4(Thermal Stability to Oxidation (Method of test as per Table 3))	-	-	-
11.5(Carbon Black Content and Dispersion (Method of test as per Table 3))	-	-	-
11.6(Pigment Dispersion (For Coloured Pipes) (Method of test as per Table 3))	-	-	-
11.7(Resistance to Weathering)	-	-	-
11.8(Adhesion Test)	-	-	-
11.9(Apparent Tensile Strength of Pipe)	-	-	-
11.10(Minimum Burst Pressure)	-	-	-
11.11(Hydraulic Characteristics)	-	-	-
Table 3(Anti-oxidant (as per IS 2530))	-	-	-
14(MARKING)	-	-	-
5.1(MATERIALS)	-	-	-
5.2.1(MATERIALS)	-	-	-
5.2.1.1(The other constituents)	-	-	-
5.3.1(UV Stabilizer)	-	-	-
5.3.2(UV Stabilizer)	-	-	-
5.4(Aluminium)	-	-	-
5.5(REWORK Material)	-	-	-
6(PRESSURE RATING)	-	-	-
7(NOMINAL DIAMETERS)	-	-	-
8(COLOUR)	-	-	-
9.1(DIMENSIONS OF PIPE)	-	-	-
9.2.1(Method of Measurements)	-	-	-
9.3(Length of Straight Pipe)	-	-	-
9.4(Coiling)	-	-	-
10(VISUAL APPEARANCE)	-	-	-
11.1(Density)	-	-	-
11.3(Melt Flow Rate)	-	-	-
11.3(Overall Migration)	-	-	-
11.4(Thermal Stability to Oxidation)	-	-	-
11.5(Carbon Black Content and Dispersion)	-	-	-
11.6(Pigment Dispersion (For Coloured Pipes))	-	-	-
11.7(Resistance to Weathering)	-	-	-
11.8(Adhesion Test)	-	-	-
11.9(Apparent Tensile Strength of Pipe)	-	-	-
11.1(Minimum Burst Pressure)	-	-	-
11.11.1(Short Term Hydrostatic Tests)	-	-	-
11.11.12(Long Term Hydrostatic Test)	-	-	-
12.1(Type Test)	-	-	-

24 Sep, 2027

-
Included w.e.f. 29.10.2025

2643

Bengaluru Smart Laboratory, Indian Oil Corporation Limited (IOCL)

6193214

IS 17021 (2018)

E 20 fuel - Admixture of anhydrous ethanol and gasoline - As fuel for spark ignited engine powered vehicles - Specification

35540 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
4.2-Table 1-i)(Appearance)	-	200	-
4.2-Table 1-ii)(Colour)	-	200	-
4.2-Table 1-iii)(Density at 15°C, kg/m3)	-	1130	-
4.2-Table 1-iv)(Distillation a) percent evaporated at 70 °C (E70 °C), percent v/v b) percent evaporated at 100 °C (E100 °C), percent v/v c) percent evaporated at 150 °C (E150 °C ), percent v/v, Min d) Final Boiling Point, °C, Max e) Residue, percent by volume, Max)	-	2650	-
4.2-Table 1-v)(Research Octane Number (RON), Min)	-	18210	-
4.2-Table 1-vii)(Gum content (Solvent washed), g/m3 , Max)	-	2070	-
4.2-Table 1-viii)(Total Sulphur, mg/kg, Max)	-	4710	-
4.2-Table 1-x)(Reid Vapour pressure at 38°C, kPa, Max)	-	1900	-
4.2-Table 1-xiii)(Copper strip corrosion (3 h at 50 °C), Max)	-	1130	-
4.2-Table 1-xviii)(Aromatic content5), percent by volume, Max)	-	2650	-
4.2-Table 1-xx)(Ethanol content6), percent, v/v)	-	690	-
4.3(Ethanol Content)	-	690	-

10 Dec, 2028

-
Excluding: 4.1 (Description) 4.2-Table 1-vi) (Motor Octane Number (MON), Min) 4.2-Table 1-ix) (Lead Content (as Pb), g/l, Max) 4.2-Table 1-xi) (Vapour Lock Index (VLI), Max a) Summer) b) Other Months) 4.2-Table 1-xii) (Benzene content, percent by volume, Max) 4.2-Table 1-xiv) (Water tolerance of gasoline-alcohol blends, temperature for phase separation, °C, Max a) other months b) Winter)) 4.2-Table 1-xv) (Engine intake system cleanliness) 4.2-Table 1-xvi) (Olefin content, percent by volume, Max) 4.2-Table 1-xvii) (Oxidation stability, minutes, Min) 4.2-Table 1-xix) (Oxygen content, percent by mass, Max) 4.2-Table 1-xxi) (Oxygenates percent by volume, Max a) Ethers containing 5 or more “C” atoms per molecules such as MTBE, ETBE or TAME b) Any other oxygenates) 4.2-Table 1-xxii) (Motor Gasoline Content, percent, v/v) 4.4 (Organic Oxygenates) 4.5 (Phosphorous) 6.1 (Packing) 6.2 (Marking) 4.2-Table 1-xxiii (Amendment No.3) (Water content)

2644

Bengaluru Smart Laboratory, Indian Oil Corporation Limited (IOCL)

6193214

IS 15464 (2022)

ANHYDROUS ETHANOL FOR USE AS BLENDING COMPONENT IN MOTOR GASOLINE SPECIFICATION First Revision

18030 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
4.4-Table 1-x)(Aldehyde (as CH3 CHO) content, mg/l, Max)	-	1900	-
4.4-Table 1-i)(Appearance)	-	200	-
4.4-Table 1-ii)(Relative density at 15.6/15.6 °C, Max)	-	1130	-
4.4-Table 1-iii)(Ethanol, percent, v/v, Min1)). (excluding denaturant))	-	1340	-
4.4-Table 1-iv)(Ethanol, percent, v/v, Min1). (excluding denaturant))	-	1340	-
4.4-Table 1-vii)(Residue on evaporation, percent by mass, Max.)	-	2070	-
4.4-Table 1-ix)(Alkalinity, mg/kg, Max.)	-	400	-
4.4-Table 1-xv)(Sulfur content, mg/kg, Max.)	-	4710	-
4.4-Table 1-xvii)(Water content, percent v/v, Max.)	-	4160	-
4.4-Table 1-xix)(Miscibility with water)	-	380	-
4.4-Table 1-viii)(Acidity (as CH3 COOH), mg/kg, Max.)	-	400	-

10 Dec, 2028

-
Excluding: 4.1 (Description) 4.2 (Denaturant) 4.3 (Acidity) 4.4-Table 1-v) (Higher saturated alcohols (C3-C5), percent, v/v, Max) 4.4-Table 1-vi) (Boiling point, °C, Min.) 4.4-Table 1-xi) (Electrical conductivity, µS/m, Max) 4.4-Table 1-xii) (Copper, mg/kg, Max.) 4.4-Table 1-xiii) (pHe) 4.4-Table 1-xiv) (Inorganic chloride, mg/kg, Max.) 4.4-Table 1-xvi) (Sulphate content, mg/kg Max.) 4.4-Table 1-xviii) (Hydrocarbons, percent v/v) 5.1 (Packing) 5.2 (Marking) 7.1 (Tests shall be conducted) 4.4-Table 1 iv (Methanol)

2645

Bengaluru Smart Laboratory, Indian Oil Corporation Limited (IOCL)

6193214

IS 1459 (2018)

Kerosene - Specification (Fourth Revision)

10990 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
4.2-Table 1-i)(Appearance)	-	200	-
4.2-Table 1-iv)(Colour a)Saybolt (in cas of undyedKerosene)3), Min b)Visual (in case of dyed Kerosene))	-	200	-
4.2-Table 1-v)(Copper strip corrosion for 3 h at 50°C)	-	1130	-
4.2-Table 1-vi)(Density at 15°C, kg/m3)	-	1130	-
4.2-Table 1-vii)(Distillation a)Percent recovered below200°C, percent (v/v), Min b)Final boiling point, °C, Max )	-	2650	-
4.2-Table 1-viii)(Flash point ( Abel), °C, Min)	-	1900	-
4.2-Table 1-ix)(Smoke Point4), mm, Min)	-	1130	-
4.2-Table 1-x)(Total Sulphur Content, percent, m/m, Max)	-	2650	-

10 Dec, 2028

-
Scope is restricted to dyed kerosene. Excluding: 4.2-Table 1-ii) (Acidity, inorganic) 4.2-Table 1-iii) (Burning quality) a)Char Value, mg/kg of oil consumed, Max b)Bloom on glass Chimney) 5.1 (Packing) 5.2 (Marking)

2646

Bengaluru Smart Laboratory, Indian Oil Corporation Limited (IOCL)

6193214

IS 1460 (2025)

Automotive Diesel Fuel - Specification (seventh revision)

33860 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
Cl-3.1.4 , 3.2, Table-1 (i)(Appearance)	-	200	-
Cl-3.1.4 , 3.2, Table-1 (ii) C(Total Acid Number (TAN), mg of KOH/g, Max)	-	2270	-
Cl-3.1.4 , 3.2, Table-1 (iii)(Ash, percent by mass, Max)	-	2070	-
Cl-3.1.4 , 3.2, Table-1 (vi)(Cetane index, Min)	-	3770	-
Cl-3.1.4 , 3.2, Table-1 (vii) (a)(Pour point3, °C, Max: Winter)	-	1900	-
Cl-3.1.4 , 3.2, Table-1 (vii) (b)(Pour point3, °C, Max: Summer)	-	1900	-
Cl-3.1.4 , 3.2, Table-1 (viii)(Copper strip corrosion for 3 h at 50 °C, Max)	-	1130	-
Cl-3.1.4 , 3.2, Table-1 (ix)(Distillation, 95 percent v/v recovery, °C, Max)	-	2650	-
Cl-3.1.4 , 3.2, Table-1 (x)(Flash point, Abel4, °C, Min)	-	1900	-
Cl-3.1.4 , 3.2, Table-1 (xi)(Kinematic viscosity, mm2/s, at 40 °C)	-	2270	-
Cl-3.1.4 , 3.2, Table-1 (xiii)(Density at 15 °C, kg/m3)	-	1130	-
Cl-3.1.4 , 3.2, Table-1 (xiv)(Total sulphur, mg/kg, Max)	-	4710	-
Cl-3.1.4 , 3.2, Table-1 (xv)(Water content, mg/kg, Max)	-	4160	-
Cl-3.1.4 , 3.2, Table-1 (xvi) (a)(Cold Filter Plugging Point (CFPP)3, °C, Max: Winter)	-	1900	-
Cl-3.1.4 , 3.2, Table-1 (xvi) (b)(Cold Filter Plugging Point (CFPP)3, °C, Max: Summer)	-	1900	-

10 Dec, 2028

-
Excluding: Cl-3.1 (General- Requirements) Cl-3.2 (Composition) Cl-3.1.4 , 3.2, Table-1 (iv) (Carbon residue, on 10 percent residue, percent by mass, Max) Cl-3.1.4 , 3.2, Table-1 (xii) (Total contamination, mg/kg, Max) Cl-3.1.4 , 3.2, Table-1 (xvii) (Oxidation stability, g/m3, Max) Cl-3.1.4 , 3.2, Table-1 (xvii) (Oxidation stability6, minutes, Min) Cl-3.1.4 , 3.2, Table-1 (xviii) (Oxidation stability (for diesel fuel having FAME content of above 2 percent v/v), hours, Min) Cl-3.1.4 , 3.2, Table-1 (xix) (Polycyclic Aromatic Hydrocarbon (PAH), percent by mass, Max) Cl-3.1.4 , 3.2, Table-1 (xx) (Lubricity, wear scar diameter (WSD) at 60 ºC, μm, Max) Cl-3.1.4 , 3.2, Table-1 (xxi) (FAME content, percent v/v, Max) Cl-5.2 (Marking) Cl-3.1.4 , 3.2, Table-1 (v) (Cetane number, Min) Cl-3.1.4 , 3.2, Table-1 (xviii) (Oxidation stability (for diesel fuel having FAME content of above 2 percent v/v), minutes, Min)

2647

Bengaluru Smart Laboratory, Indian Oil Corporation Limited (IOCL)

6193214

IS 2796 (2017)

Motor gasoline - Specification (Sixth Revision)

69790 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
Cl-4.1.4, 4.2.2 & 4.4, Table-1 (i)(Appearance)	-	200	-
Cl-4.1.4, 4.2.2 & 4.4, Table-1 (ii), a)("Colour: MG 91")	-	200	-
Cl-4.1.4, 4.2.2 & 4.4, Table-1 (iii)(Density at 15°C, kg/m³)	-	1130	-
Cl-4.1.4, 4.2.2 & 4.4, Table-1 (iv) (a)(percent evaporated at 70°C (E 70°C), percent v/v: Motor gasoline)	-	2650	-
Cl-4.1.4, 4.2.2 & 4.4, Table-1 (iv) (b)(percent evaporated at 100°C (E 100 °C), percent v/v)	-	2650	-
Cl-4.1.4, 4.2.2 & 4.4, Table-1 (iv) (c)(percent evaporated at 150°C (E 150 °C), percent v/v, Min)	-	2650	-
Cl-4.1.4, 4.2.2 & 4.4, Table-1 (iv) (d)(Final boiling point, °C, Max)	-	2650	-
Cl-4.1.4, 4.2.2 & 4.4, Table-1 (iv) (e)(Residue, percent by volume, Max)	-	2650	-
Cl-4.1.4, 4.2.2 & 4.4, Table-1 (v) (a)(Research octane number (RON), Min: MG 91)	-	18210	-
Cl-4.1.4, 4.2.2 & 4.4, Table-1 (vii)(Gum content (Solvent washed), g/m3, Max)	-	2070	-
Cl-4.1.4, 4.2.2 & 4.4, Table-1 (viii)(Total sulphur, mg/kg, Max)	-	4710	-
Cl-4.1.4, 4.2.2 & 4.4, Table-1 (x) (a)(Reid vapour pressure (RVP) at 38°C, kPa , Max: MG(without ethanol))	-	1900	-
Cl-4.1.4, 4.2.2 & 4.4, Table-1 (xiii)(Copper strip corrosion, for 3 h at 50°C, Max)	-	1130	-
Cl-4.1.4, 4.2.2 & 4.4, Table-1 (xx)(Ethanol content, percent by volume: a) Motor gasoline)	-	690	-
Cl-4.1.4, 4.2.2 & 4.4, Table-1 (ii), b)("Colour: MG 95")	-	200	-
Cl-4.1.4, 4.2.2 & 4.4, Table-1 (iv) (a)(percent evaporated at 70°C (E 70°C), percent v/v: E10)	-	2650	-
Cl-4.1.4, 4.2.2 & 4.4, Table-1 (v) (b)(Research octane number (RON), Min: MG 95)	-	18210	-
Cl-4.1.4, 4.2.2 & 4.4, Table-1 (x) (b)(Reid vapour pressure (RVP) at 38°C, kPa , Max: Ethanol blended MG)	-	1900	-
Cl-4.1.4, 4.2.2 & 4.4, Table-1 (xx)(Ethanol content, percent by volume: a):- E10)	-	690	-
Cl-4.1.4, 4.2.2 & 4.4, Table-1 (xviii)(Aromatics content, percent by volume, Max)	-	2650	-

10 Dec, 2028

-
Excluding: Cl-4.1 (General- Requirements) Cl-4.1.2 (Antioxidants) Cl-4.1.3 (Metal Deactivators) Cl-4.1.5 (Motor gasoline multifunctional additives (MFA),) Cl-4.2.1 (Organic Oxygenates- Permitted Components) Cl-4.3 (Other Requirements) Cl-4.1.4, 4.2.2 & 4.4, Table-1 (vi) (a) (Motor octane number (MON),Min: MG 91) Cl-4.1.4, 4.2.2 & 4.4, Table-1 (vi) (b) (Motor octane number (MON),Min: MG 95) Cl-4.1.4, 4.2.2 & 4.4, Table-1 (ix) (Lead content (as Pb ), g/l, Max) Cl-4.1.4, 4.2.2 & 4.4, Table-1 (xi) (a) (Vapour lock index (VLI),Max :- MG (without ethanol)) Cl-4.1.4, 4.2.2 & 4.4, Table-1 (xi) (b) (Vapour lock index (VLI),Max :- MG (with 5 percent v/v ethanol)) Cl-4.1.4, 4.2.2 & 4.4, Table-1 (xi) (c) (Vapour lock index (VLI),Max :- E10) Cl-4.1.4, 4.2.2 & 4.4, Table-1 (xii) (Benzene content, percent by volume, Max) Cl-4.1.4, 4.2.2 & 4.4, Table-1 (xiv) (a) (Water tolerance of motor gasoline-alcohol blends, temperature for phase separation:- Winter, °C, Max) Cl-4.1.4, 4.2.2 & 4.4, Table-1 (xiv) (b) (Water tolerance of motor gasoline-alcohol blends, temperature for phase separation:- Other months, °C, Max) Cl-4.1.4, 4.2.2 & 4.4, Table-1 (xv) (Engine intake system cleanliness) Cl-4.1.4, 4.2.2 & 4.4, Table-1 (xvi) (a) (Olefin content, percent by volume, Max: MG 91) Cl-4.1.4, 4.2.2 & 4.4, Table-1 (xvi) (b) (Olefin content, percent by volume, Max :MG 95) Cl-4.1.4, 4.2.2 & 4.4, Table-1 (xvii) (Oxidation stability, minutes, Min) Cl-4.1.4, 4.2.2 & 4.4, Table-1 (ixi) (Oxygen content, percent by mass, Max) Cl-4.1.4, 4.2.2 & 4.4, Table-1 (XXI) (Oxygenates percent by volume, Max:- Ethers containing 5 or more ‘C’ atoms per molecules such as MTBE, ETBE or TAME) Cl-4.1.4, 4.2.2 & 4.4, Table-1 (XXI) (Oxygenates percent by volume, Max) Cl-5.2 (Marketing)

2648

Samridhi Test House Pvt. Ltd.

8184706

IS 2619 (2018)

Glass beakers - Specification (Third Revision)

All Grade / Type / Size / Designation

12800 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
Cl.8.5 Thermal shock resistance(Beakers shall have a thermal shock resistance of 160 °C when tested in accordance with ISO 718.)	-	2800	-
Cl.5 Capacity (b) Distance between the levels corresponding to the nominal and overflow capacities shall be at least 10 mm.)	-	1500	-
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.)	-	1000	-
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.)	-	1000	-
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.)	-	1000	-
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.)	-	1000	-
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)	-	1000	-
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.)	-	500	-
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.)	-	500	-
Cl.8.4 Scale(Beakers may be provided with a scale, which should approximately indicate the volume contained in the beaker.)	-	1000	-
Cl.8.5 Thermal shock resistance(Beakers shall have a thermal shock resistance of 160 °C when tested in accordance with ISO 718.)	-	2800	-
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.5 Capacity (a)overflow of capacity of a beaker shall exceed the nominal capacity by at least 5 %;)	-	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 (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.5 Capacity (a)overflow of capacity of a beaker shall exceed the nominal capacity by at least 5 %;)	-	0	-

-
Included w.e.f 26.11.2025 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.)

2649

CTL TESTING LABORATORY PRIVATE LIMITED, JAIPUR

8180306

IS 12818 (2010)

Unplasticized polyvinyl chloride (Pvc - U) screen and casing pipes for bore/tubewells - Specification (Second Revision)

RMS 35 TO 400, RDS DN100 TO 400, PMS DN200 TO DN400, PDS DN200 TO DN400, CS DN150 TO DN400, CM DN35 TO DN400 AND CD DN100 TO DN400

15000 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
9.6(Vicat Softening Temperature IS 12235 (Part 2).)	-	1000	10% DISCOUNT FOR BIS
9.5(Tensile Strength IS 12235(Part 13))	-	500	10% DISCOUNT FOR BIS
9.4 and Table 14(Resistance to External Blows at 0 ?C IS 12235 (Part 9))	-	1200	10% DISCOUNT FOR BIS
9.3(Density IS 12235 (Part 14))	-	500	10% DISCOUNT FOR BIS
9.2(Internal Diameter)	-	200	10% DISCOUNT FOR BIS
9.1( Visual Appearance)	-	0	10% DISCOUNT FOR BIS
9.1(Visual Appearance)	-	0	10% DISCOUNT FOR BIS
8.4.1 and Table 13 Fig 3B & 4B(Dimensions of sealing elements)	-	1000	10% DISCOUNT FOR BIS
8.4.1 and Table 13 Fig 3B & 4B(Dimensions of sealing elements)	-	1500	10% DISCOUNT FOR BIS
8.4.1 and Table 13 Fig 3B & 4B(Dimensions of sealing elements)	-	1000	10% DISCOUNT FOR BIS
8.4.1 and Table 13 Fig 3B & 4B(Dimensions of sealing elements)	-	1000	10% DISCOUNT FOR BIS
8.4.1 and Table 13 Fig 3B & 4B(Dimensions of sealing elements)	-	1000	10% DISCOUNT FOR BIS
8.4.1 and Table 13 Fig 3B & 4B(Dimensions of sealing elements)	-	1000	10% DISCOUNT FOR BIS
8.4.1 and Table 13 Fig 3B & 4B(Dimensions of sealing elements)	-	200	10% DISCOUNT FOR BIS
8.4(Sealing rings - Hardness)	-	500	10% DISCOUNT FOR BIS
8.1 to 8.3 and Table 11 &12 Fig 3A & 4A(THREADING OF SCREEN ANDCASING PIPES. IS 554.)	-	500	10% DISCOUNT FOR BIS
8.1 to 8.3 and Table 11 &12 Fig 3A & 4A(THREADING OF SCREEN ANDCASING PIPES. IS 554.)	-	1000	10% DISCOUNT FOR BIS
7.5 and Table 10 Fig 2A & 2B(Approximate Free Passage Area, in Percent (Mean Value) for Width of Slot (w))	-	500	10% DISCOUNT FOR BIS
7.5 and Table 10 Fig 2A & 2B(Minimum number of slots on the circumference of the cross-section.)	-	500	10% DISCOUNT FOR BIS
7.5 and Table 10 Fig 2A & 2B(Summation of slot lengths over internal circumference of the cross- section.)	-	500	10% DISCOUNT FOR BIS
7.4 Table 8 & 9 Fig 1(Segmental length for Spigot (average of 4.0))	-	500	10% DISCOUNT FOR BIS
7.4 Table 8 & 9 Fig 1(Segmental length,mm for socket (average of 4.0))	-	500	10% DISCOUNT FOR BIS
7.4 Table 8 & 9 Fig 1(Segmental length, l3)	-	500	10% DISCOUNT FOR BIS
7.4 Table 8 & 9 Fig 1(Effective length, l2)	-	500	10% DISCOUNT FOR BIS
7.3.2(Rib height)	-	500	10% DISCOUNT FOR BIS
7.3.1(No.of Ribs)	-	500	10% DISCOUNT FOR BIS
7.2 and Table 5, 6 & 7 Fig 1B(Wall thickness, Max)	-	500	10% DISCOUNT FOR BIS
7.2 and Table 5, 6 & 7 Fig 1B(Wall thickness, Min)	-	500	10% DISCOUNT FOR BIS
7.1, 7.2 and Table 5, 6 & 7 Fig 1B(Mean outside dia over connection,mm (Take 4 reading and maximum valu reported))	-	500	10% DISCOUNT FOR BIS
7.1, 7.2 and Table 5, 6 & 7 Fig 1B(Outer Diameter at any point, Max)	-	500	10% DISCOUNT FOR BIS
7.1, 7.2 and Table 5, 6 & 7 Fig 1B(Outer Diameter at any point , Min)	-	500	10% DISCOUNT FOR BIS
7.2 and Table 5, 6 & 7 Fig 1B(Mean Outer Diameter of Pipe , Max)	-	500	10% DISCOUNT FOR BIS
7.2 and Table 5, 6 & 7 Fig 1B(Mean Outer Diameter of Pipe, Min)	-	500	10% DISCOUNT FOR BIS
7.2 and Table 5, 6 & 7 Fig 1B(Nominal Diameter)	-	500	10% DISCOUNT FOR BIS
7.2 and Table 5, 6 & 7 Fig 1B(DIMENSIONS - Casing Pipes)	-	500	10% DISCOUNT FOR BIS
7.1 and Table 1, 2, 3, & 4 Fig 1A & 1B(Wall thickness)	-	500	10% DISCOUNT FOR BIS
7.1 and Table 1, 2, 3, & 4 Fig 1A & 1B(Mean Outer Diameter over Connection)	-	500	10% DISCOUNT FOR BIS
7.1 and Table 1, 2, 3, & 4 Fig 1A & 1B(Outer Diameter at any point )	-	500	10% DISCOUNT FOR BIS
7.1 and Table 1, 2, 3, & 4 Fig 1A & 1B(Mean Outer Diameter of Pipe)	-	500	10% DISCOUNT FOR BIS
7.1 and Table 1, 2, 3, & 4 Fig 1A & 1B(Nominal Diameter)	-	500	10% DISCOUNT FOR BIS
4.1.2 (Ref. Cl 11 of IS 4669)(Composition -Sulphated ash content )	-	500	10% DISCOUNT FOR BIS
4.1.2 (Ref. Cl 5.1. of IS 4669)(Composition - Loss on heating )	-	500	10% DISCOUNT FOR BIS
4.1.1 (Ref. 3.4.1. of IS 10151)(Composition - The monomer content (VCM content) in the resin - Annex A ofIS 10151)	-	500	10% DISCOUNT FOR BIS
5(COLOUR)	-	200	10% DISCOUNT FOR BIS
8.4(Sealing elements a. Elastomeric material b. Shore A hardness of sealing Elements )	-	500	10% DISCOUNT FOR BIS
8.4(Width b)	-	200	10% DISCOUNT FOR BIS
8.3.1 & 8.3.2 (Threading of casing pipe (from 100 to 200 DN Table – 11 & Fig. 3A) & (from 250 to 400 DN Table – 12 & Fig. 4A) Outside diameter d1(+0, -0.3) d2 d3 D1 (+0.3, -0) D2 D4 D5 (+0.3, -0) Z h3 (+0, -0.1) H4 (+0, -0.1) )	-	200	10% DISCOUNT FOR BIS
8.2(Threading of casing pipe As per IS 554 (from 40 to 80mm DN) Number of threads in 25.4mm Pitch (P) Height of thread (h) Major (Gauge Diameter) d Pitch(d2) Minor (d1) External Thread gauge length Nominal No. of turns of thread max min )	-	200	10% DISCOUNT FOR BIS
7.5.1 7.5.2 (Slot Dimension (Table 10) Fig 2A & 2B a. Minimum number of slot on the circumference b. Σa±5% c. Mean value of approximate free passage area (%) for width of slot (w) d. Tolerance on width of slot (w) e. Width of material between slot (b))	-	200	10% DISCOUNT FOR BIS
5.0(Colour of Pipes)	-	500	10% DISCOUNT FOR BIS
9.7(Effect on Water a) Lead (first extraction) b) Lead (Third extraction) c) Dialkyl Tin C4 & higher homologues measured as Tin (Third extraction) d) Cadmium (All three extracts) e) Mercury (All three extracts) f) Other Toxic Substances )	-	2500	10% DISCOUNT FOR BIS
4.1.2(K-Value as per IS-4669)	-	1500	10% DISCOUNT FOR BIS
4.1.1 (VCM Content as per IS 10151 (Annex A))	-	5000	10% DISCOUNT FOR BIS
7.1(Screen Pipes)	-	0	10% DISCOUNT FOR BIS
11(Marking)	-	0	10% DISCOUNT FOR BIS
5.1(Materials)	-	3500	10% DISCOUNT FOR BIS
8(Packing)	-	0	10% DISCOUNT FOR BIS
4.1.3(Cross Chain Length)	-	0	10% DISCOUNT FOR BIS
7.2(Link Twisted (Cross chain))	-	0	10% DISCOUNT FOR BIS
7.3(The Basic chains)	-	0	10% DISCOUNT FOR BIS
7.9(Case Depth)	-	0	10% DISCOUNT FOR BIS
8(Marking)	-	0	10% DISCOUNT FOR BIS
Cl 9.7(Effect on Water Lead (first extraction))	-	3500	10% DISCOUNT FOR BIS
Cl 9.7(Effect on Water Lead (third extraction))	-	3500	10% DISCOUNT FOR BIS
Cl 9.7(Effect on Water Dialkyl tin C4 and higher homologues(measuredas tin )(third extraction ))	-	3500	10% DISCOUNT FOR BIS
Cl 9.7(Effect on Water Cadmium (mean of first extraction, second extraction and third extraction))	-	3500	10% DISCOUNT FOR BIS
Cl 9.7(Effect on Water Mercury (mean of first extraction, second extraction and third extraction))	-	3500	10% DISCOUNT FOR BIS

24 Sep, 2027

-
Included w.e.f.08.10.2025

2650

Eastern Regional Laboratory (IOCL), Howrah Terminal

5192414

IS 1460 (2025)

Automotive Diesel Fuel - Specification (seventh revision)

19660 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
Cl-3.1.4 , 3.2, Table-1 (i)(Appearance)	-	200	-
Cl-3.1.4 , 3.2, Table-1 (vi)(Cetane index, Min)	-	3770	-
Cl-3.1.4 , 3.2, Table-1 (vii) (a)(Pour point3, °C, Max: Winter)	-	0	-
Cl-3.1.4 , 3.2, Table-1 (vii) (b)(Pour point3, °C, Max: Summer)	-	1900	-
Cl-3.1.4 , 3.2, Table-1 (viii)(Copper strip corrosion for 3 h at 50 °C, Max)	-	1130	-
Cl-3.1.4 , 3.2, Table-1 (ix)(Distillation, 95 percent v/v recovery, °C, Max)	-	2650	-
Cl-3.1.4 , 3.2, Table-1 (x)(Flash point, Abel4, °C, Min)	-	1900	-
Cl-3.1.4 , 3.2, Table-1 (xi)(Kinematic viscosity, mm2/s, at 40 °C)	-	2270	-
Cl-3.1.4 , 3.2, Table-1 (xiii)(Density at 15 °C, kg/m3)	-	1130	-
Cl-3.1.4 , 3.2, Table-1 (xiv)(Total sulphur, mg/kg, Max)	-	4710	-
Cl-3.1.4 , 3.2, Table-1 (xv)(Water content, mg/kg, Max)	-	4160	-

04 Dec, 2028

-
Cl-3.1 (General- Requirements) Cl-3.1.4 , 3.2, Table-1 (ii) C (Total Acid Number (TAN), mg of KOH/g, Max) Cl-3.1.4 , 3.2, Table-1 (iii) (Ash, percent by mass, Max) Cl-3.1.4 , 3.2, Table-1 (iv) (Carbon residue, on 10 percent residue1, percent by mass, Max) Cl-3.1.4 , 3.2, Table-1 (v) (Cetane number, Min) Cl-3.1.4 , 3.2, Table-1 (xii) (Total contamination, mg/kg, Max) Cl-3.1.4 , 3.2, Table-1 (xix) (Polycyclic Aromatic Hydrocarbon (PAH), percent by mass, Max) Cl-3.1.4 , 3.2, Table-1 (xvi) (a) (Cold Filter Plugging Point (CFPP)3, °C, Max: Winter) Cl-3.1.4 , 3.2, Table-1 (xvi) (b) (Cold Filter Plugging Point (CFPP)3, °C, Max: Summer) Cl-3.1.4 , 3.2, Table-1 (xvii) (Oxidation stability6, g/m3, Max) Cl-3.1.4 , 3.2, Table-1 (xvii) (Oxidation stability6, g/m3, Max) Cl-3.1.4 , 3.2, Table-1 (xvii) (Oxidation stability6, minutes, Min) Cl-3.1.4 , 3.2, Table-1 (xviii) (Oxidation stability (for diesel fuel having FAME content of above 2 percent v/v), hours, Min) Cl-3.1.4 , 3.2, Table-1 (xviii) (Oxidation stability (for diesel fuel having FAME content of above 2 percent v/v), minutes, Min) Cl-3.1.4 , 3.2, Table-1 (xx) (Lubricity, wear scar diameter (wsd) at 60 ºC, μm, Max) Cl-3.1.4 , 3.2, Table-1 (xxi) (FAME content7, percent v/v, Max) Cl-3.2 (Composition) Cl-5.2 (Marking)

2651

Perfect International Testing Lab

8187826

IS 302 : Part 2 : Sec 204 (1994)

Safety of household and similar electrical appliances: Part 2 particular requirements: Sec 204 electric water boilers

40000 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
3(GENERAL REQUIREMENT)	-	0	N/A
4(GENERAL NOTES ON TESTS)	-	0	N/A
5(RATING)	-	500	N/A
6(CLASSIFICATION)	-	500	N/A
7(MARKING)	-	1000	N/A
8(PROTECTION AGAINST ELECTRIC SHOCK)	-	1000	N/A
9(STARTING OF MOTOR-OPERATED APPLIANCES)	-	0	N/A
10(INPUT AND CURRENT)	-	2000	N/A
11(TEMPRATURE RISE)	-	2000	N/A
12(OPERATION TJNDER OVERLOAD CONDITIONS OF APPLIANCES WITH HEATING ELEMENTS)	-	0	N/A
13(ELECTRICAL INSULATION AND LEAKAGE CURRENT AT OPERATING TEMPERATURE)	-	2000	N/A
14(RADIO AND TELEVISION INTERFERENCE SUPPRESSION)	-	2000	N/A
15(MOISTURE RESISTANCE)	-	3000	N/A
16(INSULATION RESISTANCE AND ELECTRIC STRENGTH)	-	2000	N/A
17(OVERLOAD PROTECTION)	-	2000	N/A
18(ENDURANCE )	-	0	N/A
19(ABNORMAL OPERATION)	-	3000	N/A
20(STABILITY AND MECHANICAL HAZARDS)	-	2000	N/A
21(MECHANICAL STRENGTH)	-	2000	N/A
22(CONSTRUCTION)	-	3000	N/A
23(INTERNAL WIRING)	-	1000	N/A
24(COMPONENTS)	-	1000	N/A
25(SUPPLY CONNECTION AND EXTERNAL FLEXIBLE CABLES AND CORDS)	-	2000	N/A
26(TERMINALS FOR EXTERNAL CONDUCTORS)	-	1000	N/A
27(PROVISION FOR EARTHING)	-	1000	N/A
28(SCREWS AND CONNECTIONS)	-	1000	N/A
29(CREEPAGE DISTANCES, CLEARANCES AND DISTANCES THROUGH INSULATION)	-	1000	N/A
30(RESISTANCE TO HEAT, FIRE AND TACKING)	-	1000	N/A
31(RESISTANCE TO RUSTING)	-	1000	N/A
32(RADIATION HAZARDS)	-	0	N/A
101.1(Type Tests)	-	0	N/A
101.2(Acceptance Tests)	-	0	N/A
101.3(Routine Tests)	-	0	N/A
Cl-19.11.4.1(Electrostatic discharge)	-	1000	N/A
Cl-19.11.4.2(Radiated Fields)	-	0	N/A
Cl-19.11.4.3(Fast transient bursts)	-	0	N/A
Cl-19.11.4.4(Surge Immunity test)	-	1000	N/A
Cl-19.11.4.5(Immunity to conducted discharge)	-	0	N/A
Cl-19.11.4.6(Voltage dips and interruptions)	-	0	N/A
Cl-19.11.4.7(Harmonics)	-	0	N/A
3(GENERAL REQUIREMENT)	-	0	-
4(GENERAL NOTES ON TESTS)	-	0	-
5(RATING)	-	0	-
6(CLASSIFICATION)	-	0	-
7(MARKING)	-	0	-
8(PROTECTION AGAINST ELECTRIC SHOCK)	-	0	-
9(STARTING OF MOTOR-OPERATED APPLIANCES)	-	0	-
10(INPUT AND CURRENT)	-	0	-
11(TEMPRATURE RISE)	-	0	-
12(OPERATION TJNDER OVERLOAD CONDITIONS OF APPLIANCES WITH HEATING ELEMENTS)	-	0	-
13(ELECTRICAL INSULATION AND LEAKAGE CURRENT AT OPERATING TEMPERATURE)	-	0	-
14(RADIO AND TELEVISION INTERFERENCE SUPPRESSION)	-	0	-
15(MOISTURE RESISTANCE)	-	0	-
16(INSULATION RESISTANCE AND ELECTRIC STRENGTH)	-	0	-
17(OVERLOAD PROTECTION)	-	0	-
18(ENDURANCE )	-	0	-
19(ABNORMAL OPERATION)	-	0	-
20(STABILITY AND MECHANICAL HAZARDS)	-	0	-
21(MECHANICAL STRENGTH)	-	0	-
22(CONSTRUCTION)	-	0	-
23(INTERNAL WIRING)	-	0	-
24(COMPONENTS)	-	0	-
25(SUPPLY CONNECTION AND EXTERNAL FLEXIBLE CABLES AND CORDS)	-	0	-
26(TERMINALS FOR EXTERNAL CONDUCTORS)	-	0	-
27(PROVISION FOR EARTHING)	-	0	-
28(SCREWS AND CONNECTIONS)	-	0	-
29(CREEPAGE DISTANCES, CLEARANCES AND DISTANCES THROUGH INSULATION)	-	0	-
30(RESISTANCE TO HEAT, FIRE AND TACKING)	-	0	-
31(RESISTANCE TO RUSTING)	-	0	-
32(RADIATION HAZARDS)	-	0	-
101.1(Type Tests)	-	0	-
101.2(Acceptance Tests)	-	0	-
101.3(Routine Tests)	-	0	-
Cl-19.11.4.1(Electrostatic discharge)	-	0	-
Cl-19.11.4.2(Radiated Fields)	-	0	-
Cl-19.11.4.3(Fast transient bursts)	-	0	-
Cl-19.11.4.4(Surge Immunity test)	-	0	-
Cl-19.11.4.5(Immunity to conducted discharge)	-	0	-
Cl-19.11.4.6(Voltage dips and interruptions)	-	0	-
Cl-19.11.4.7(Harmonics)	-	0	-

02 Sep, 2028

-
Included w.e.f 13.11.2025 " 32 (RADIATION HAZARDS) Cl-19.11.4.2 (Radiated Fields) Cl-19.11.4.3 (Fast transient bursts) Cl-19.11.4.5 (Immunity to conducted discharge) Cl-19.11.4.6 (Voltage dips and interruptions) Cl-19.11.4.7 (Harmonics)"

2652

CTL TESTING LABORATORY PRIVATE LIMITED, JAIPUR

8180306

IS 15801 (2008)

Polypropylene - Random copolymer pipes for hot and cold water supplies - Specification

DN16 TO 200MM (SDR11, SDR7.4, SDR6 AND SDR5)

132000 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
Cl 4( Designation)	-	0	10% DISCOUNT FOR BIS
Cl 7(Dimensions Of Pipes)	-	1000	10% DISCOUNT FOR BIS
Cl 8(Visual Appearance)	-	500	10% DISCOUNT FOR BIS
Cl 9.1(Hydraulic Characteristics)	-	10000	10% DISCOUNT FOR BIS
Cl 9.2(Fusion Compatibility)	-	15000	10% DISCOUNT FOR BIS
Cl 9.3(Reversion Test )	-	500	10% DISCOUNT FOR BIS
Cl 9.4 & Annex B(Impact Strength)	-	1500	10% DISCOUNT FOR BIS
Cl 9.5(Density)	-	1500	10% DISCOUNT FOR BIS
Cl 9.6(Melt Flow Rate)	-	1000	10% DISCOUNT FOR BIS
Cl 9.7(Carbon Black Content & Dispersion)	-	1500	10% DISCOUNT FOR BIS
Cl 9.8(Thermal Stability By Hydrostatic Pressure Testing)	-	1200	10% DISCOUNT FOR BIS
Cl 9.9(Opacity)	-	500	10% DISCOUNT FOR BIS
5(Colour)	-	300	10% DISCOUNT FOR BIS
Cl 4( Designation)	-	100	10% DISCOUNT FOR BIS
Cl 7(Dimensions Of Pipes)	-	1000	10% DISCOUNT FOR BIS
Cl 8(Visual Appearance)	-	500	10% DISCOUNT FOR BIS
Cl 9.1(Hydraulic Characteristics)	-	25000	10% DISCOUNT FOR BIS
Cl 9.2(Fusion Compatibility)	-	31000	10% DISCOUNT FOR BIS
Cl 9.3(Reversion Test )	-	1200	10% DISCOUNT FOR BIS
Cl 9.4 & Annex B(Impact Strength)	-	1500	10% DISCOUNT FOR BIS
Cl 9.5(Density)	-	1500	10% DISCOUNT FOR BIS
Cl 9.6(Melt Flow Rate)	-	1000	10% DISCOUNT FOR BIS
Cl 9.7(Carbon Black Content & Dispersion)	-	1500	10% DISCOUNT FOR BIS
Cl 9.8(Thermal Stability By Hydrostatic Pressure Testing)	-	1200	10% DISCOUNT FOR BIS
Cl 9.9(Opacity)	-	1200	10% DISCOUNT FOR BIS
5(Colour)	-	200	10% DISCOUNT FOR BIS
Cl 4( Designation)	-	0	10% DISCOUNT FOR BIS
Cl 7(Dimensions Of Pipes)	-	0	10% DISCOUNT FOR BIS
Cl 8(Visual Appearance)	-	0	10% DISCOUNT FOR BIS
Cl 9.1(Hydraulic Characteristics)	-	0	10% DISCOUNT FOR BIS
Cl 9.2(Fusion Compatibility)	-	0	10% DISCOUNT FOR BIS
Cl 9.3(Reversion Test )	-	0	10% DISCOUNT FOR BIS
Cl 9.4 & Annex B(Impact Strength)	-	0	10% DISCOUNT FOR BIS
Cl 9.5(Density)	-	0	10% DISCOUNT FOR BIS
Cl 9.6(Melt Flow Rate)	-	0	10% DISCOUNT FOR BIS
Cl 9.7(Carbon Black Content & Dispersion)	-	0	10% DISCOUNT FOR BIS
Cl 9.8(Thermal Stability By Hydrostatic Pressure Testing)	-	0	10% DISCOUNT FOR BIS
Cl 9.9(Opacity)	-	0	10% DISCOUNT FOR BIS
5(Colour)	-	0	10% DISCOUNT FOR BIS
Cl 4( Designation)	-	0	10% DISCOUNT FOR BIS
Cl 7(Dimensions Of Pipes)	-	0	10% DISCOUNT FOR BIS
Cl 8(Visual Appearance)	-	0	10% DISCOUNT FOR BIS
Cl 9.1(Hydraulic Characteristics)	-	0	10% DISCOUNT FOR BIS
Cl 9.2(Fusion Compatibility)	-	0	10% DISCOUNT FOR BIS
Cl 9.3(Reversion Test )	-	0	10% DISCOUNT FOR BIS
Cl 9.4 & Annex B(Impact Strength)	-	0	10% DISCOUNT FOR BIS
Cl 9.5(Density)	-	0	10% DISCOUNT FOR BIS
Cl 9.6(Melt Flow Rate)	-	0	10% DISCOUNT FOR BIS
Cl 9.7(Carbon Black Content & Dispersion)	-	0	10% DISCOUNT FOR BIS
Cl 9.8(Thermal Stability By Hydrostatic Pressure Testing)	-	0	10% DISCOUNT FOR BIS
Cl 9.9(Opacity)	-	0	10% DISCOUNT FOR BIS
5(Colour)	-	0	10% DISCOUNT FOR BIS

24 Sep, 2027

-
Included w.e.f 12.11.2025

2653

Classic Testing & Research Centre (B17), Noida

8180826

IS 11951 (2024)

PUMPSET FOR DIRECT EVAPORATIVE AIR COOLER â SPECIFICATION (Second Revision)

45000 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
5.1.1(Non-Submersible Pumpset)	-	1000	-
5.1.2(Submersible Pumpset)	-	1000	-
6.1, 7.3, 9.1, 9.4.2, Table-1(Discharge Head, m)	-	3000	-
6.1, 7.3, 9.1, 9.4.2,Table-1(Minimum Discharge, l/min)	-	3000	-
6.1, 7.3, 9.1, 9.4.2, Table-1(Type 1 Motor Wattage)	-	3000	-
6.1, 7.3, 9.1, 9.4.2, Table-1(Type 2 Motor Wattage)	-	3000	-
6.1, 7.3, 9.1, 9.4.2, Table-2(Motor Wattage)	-	3000	-
6.1, 7.3, 9.1,9.4.2, Table-2(Minimum Discharge Head, Hd)	-	3000	-
6.1, 7.3, 9.1, 9.4.2,Table-2(Discharge Measurement Height, h)	-	3000	-
6.1, 7.3, 9.1, 9.4.2, Table-2(Minimum, Discharge*)	-	3000	-
Cl-8(GENERAL REQUIREMENTS)	-	1000	-
9.2(Tests on motor)	-	3000	-
9.3(Water Requirement)	-	3000	-
9.4.1(Reliability Tests)	-	10000	-
9.4.3(Ingress protection test)	-	3000	-
9.4.6(Dry Run Test)	-	5000	-
9.5(Routine Test)	-	3000	-
9.6(Type Test)	-	3000	-
9.7(Leakage current and electric strength at operating temperature)	-	3000	-
9.7(Moisture resistance)	-	3000	-
9.7(Leakage current and electric strength)	-	3000	-
5.1.1(Non-Submersible Pumpset)	-	3000	-
5.1.2(Submersible Pumpset)	-	3000	-
6.1, 7.3, 9.1, 9.4.2, Table-1(Discharge Head, m)	-	3000	-
6.1, 7.3, 9.1, 9.4.2,Table-1(Minimum Discharge, l/min)	-	3000	-
6.1, 7.3, 9.1, 9.4.2, Table-1(Type 1 Motor Wattage)	-	3000	-
6.1, 7.3, 9.1, 9.4.2, Table-1(Type 2 Motor Wattage)	-	3000	-
6.1, 7.3, 9.1, 9.4.2, Table-2(Motor Wattage)	-	3000	-
6.1, 7.3, 9.1,9.4.2, Table-2(Minimum Discharge Head, Hd)	-	3000	-
6.1, 7.3, 9.1, 9.4.2,Table-2(Discharge Measurement Height, h)	-	3000	-
6.1, 7.3, 9.1, 9.4.2, Table-2(Minimum, Discharge*)	-	3000	-
Cl-8(GENERAL REQUIREMENTS)	-	500	-
9.2(Tests on motor)	-	3000	-
9.3(Water Requirement)	-	3000	-
9.4.1(Reliability Tests)	-	3000	-
9.4.3(Ingress protection test)	-	5000	-
9.4.6(Dry Run Test)	-	3000	-
9.5(Routine Test)	-	3000	-
9.6(Type Test)	-	3000	-
9.7(Leakage current and electric strength at operating temperature)	-	3000	-
9.7(Moisture resistance)	-	3000	-
9.7(Leakage current and electric strength)	-	3000	-
5.1.1(Non-Submersible Pumpset)	-	3000	-
5.1.2(Submersible Pumpset)	-	3000	-
6.1, 7.3, 9.1, 9.4.2, Table-1(Discharge Head, m)	-	3000	-
6.1, 7.3, 9.1, 9.4.2,Table-1(Minimum Discharge, l/min)	-	3000	-
6.1, 7.3, 9.1, 9.4.2, Table-1(Type 1 Motor Wattage)	-	3000	-
6.1, 7.3, 9.1, 9.4.2, Table-1(Type 2 Motor Wattage)	-	3000	-
6.1, 7.3, 9.1, 9.4.2, Table-2(Motor Wattage)	-	3000	-
6.1, 7.3, 9.1,9.4.2, Table-2(Minimum Discharge Head, Hd)	-	3000	-
6.1, 7.3, 9.1, 9.4.2,Table-2(Discharge Measurement Height, h)	-	3000	-
6.1, 7.3, 9.1, 9.4.2, Table-2(Minimum, Discharge*)	-	3000	-
Cl-8(GENERAL REQUIREMENTS)	-	1000	-
9.2(Tests on motor)	-	3000	-
9.3(Water Requirement)	-	3000	-
9.4.1(Reliability Tests)	-	3000	-
9.4.3(Ingress protection test)	-	3000	-
9.4.6(Dry Run Test)	-	3000	-
9.5(Routine Test)	-	3000	-
9.6(Type Test)	-	3000	-
9.7(Leakage current and electric strength at operating temperature)	-	3000	-
9.7(Moisture resistance)	-	3000	-
9.7(Leakage current and electric strength)	-	3000	-

15 Oct, 2027

-
Included w.e.f 07.11.2025

2654

Korba Laboratory (IOCL)

5191414

IS 1460 (2025)

Automotive Diesel Fuel - Specification (seventh revision)

15880 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
Cl-3.1.4 , 3.2, Table-1 (i)(Appearance)	-	200	-
Cl-3.1.4 , 3.2, Table-1 (vi)(Cetane index, Min)	-	3770	-
Cl-3.1.4 , 3.2, Table-1 (vii) (a)(Pour point3, °C, Max: Winter)	-	1900	-
Cl-3.1.4 , 3.2, Table-1 (vii) (b)(Pour point3, °C, Max: Summer)	-	0	-
Cl-3.1.4 , 3.2, Table-1 (viii)(Copper strip corrosion for 3 h at 50 °C, Max)	-	1130	-
Cl-3.1.4 , 3.2, Table-1 (ix)(Distillation, 95 percent v/v recovery, °C, Max)	-	0	-
Cl-3.1.4 , 3.2, Table-1 (x)(Flash point, Abel4, °C, Min)	-	1900	-
Cl-3.1.4 , 3.2, Table-1 (xi)(Kinematic viscosity, mm2/s, at 40 °C)	-	2270	-
Cl-3.1.4 , 3.2, Table-1 (xiii)(Density at 15 °C, kg/m3)	-	0	-
Cl-3.1.4 , 3.2, Table-1 (xiv)(Total sulphur, mg/kg, Max)	-	4710	-

26 Nov, 2028

-
Exclusion: Cl-3.1 (General- Requirements) Cl-3.2 (Composition) Cl-3.1.4 , 3.2, Table-1 (ii) C (Total Acid Number (TAN), mg of KOH/g, Max) Cl-3.1.4 , 3.2, Table-1 (iii) (Ash, percent by mass, Max) Cl-3.1.4 , 3.2, Table-1 (iv) (Carbon residue, on 10 percent residue, percent by mass, Max) Cl-3.1.4 , 3.2, Table-1 (v) (Cetane number, Min) Cl-3.1.4 , 3.2, Table-1 (xii) (Total contamination, mg/kg, Max) Cl-3.1.4 , 3.2, Table-1 (xv) (Water content, mg/kg, Max) Cl-3.1.4 , 3.2, Table-1 (xvi) (a) (Cold Filter Plugging Point (CFPP), °C, Max: Winter) Cl-3.1.4 , 3.2, Table-1 (xvi) (b) (Cold Filter Plugging Point (CFPP), °C, Max: Summer) Cl-3.1.4 , 3.2, Table-1 (xvii) (Oxidation stability, g/m3, Max) Cl-3.1.4 , 3.2, Table-1 (xvii) (Oxidation stability, minutes, Min) Cl-3.1.4 , 3.2, Table-1 (xviii) (Oxidation stability (for diesel fuel having FAME content of above 2 percent v/v), hours, Min) Cl-3.1.4 , 3.2, Table-1 (xviii) (Oxidation stability (for diesel fuel having FAME content of above 2 percent v/v), minutes, Min) Cl-3.1.4 , 3.2, Table-1 (xix) (Polycyclic Aromatic Hydrocarbon (PAH), percent by mass, Max) Cl-3.1.4 , 3.2, Table-1 (xx) (Lubricity, wear scar diameter (WSD) at 60 ºC, μm, Max) Cl-3.1.4 , 3.2, Table-1 (xxi) (FAME content, percent v/v, Max) Cl-5.2 (Marking)

2655

Indian Oil Corporation Ltd. (IOCL), Salem Smart Laboratory, Salem

6193914

IS 1571 (2018)

Aviation turbine fuels, kerosine type, jet - A - 1 - Specification (Tenth Revision)

JET A1

32400 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
Cl-3.2.2, 3.2.6, Table-1 (a)(Visual appearance)	-	200	-
Cl-3.2.2, 3.2.6, Table-1, (ii) (b)("Aromatics, percent by volMumaex, or Total Aromatics, percent by volume, Max")	-	2650	-
Cl-3.2.2, 3.2.6, Table-1, (ii) (c)(Total sulphur percent by mass, Max)	-	4710	-
Cl-3.2.2, 3.2.6, Table-1, (iii) (a), 1)(Distillation:- Initial boiling point, °)	-	378.57	TEST CHARGE FOR DISTILLATION IS INR 2650.00; EQUALLY DIVIDED INTO INITIAL BOILING POINT, 10% RECOVERY, 50% RECOVERY, 90% RECOVERY, FINAL BOILING POINT, % RESIDUE & % LOSS.
Cl-3.2.2, 3.2.6, Table-1, (iii) (a), 3)(Distillation:- 50 percent recovery °C, v/v)	-	378.57	TEST CHARGE FOR DISTILLATION IS INR 2650.00; EQUALLY DIVIDED INTO INITIAL BOILING POINT, 10% RECOVERY, 50% RECOVERY, 90% RECOVERY, FINAL BOILING POINT, % RESIDUE & % LOSS.
Cl-3.2.2, 3.2.6, Table-1, (iii) (a), 4)(Distillation:- 90 percent recovery °C, v/v)	-	378.57	TEST CHARGE FOR DISTILLATION IS INR 2650.00; EQUALLY DIVIDED INTO INITIAL BOILING POINT, 10% RECOVERY, 50% RECOVERY, 90% RECOVERY, FINAL BOILING POINT, % RESIDUE & % LOSS.
Cl-3.2.2, 3.2.6, Table- 1, (iii) (a), 5)(Distillation:- Final boiling point,°C, Max)	-	378.57	TEST CHARGE FOR DISTILLATION IS INR 2650.00; EQUALLY DIVIDED INTO INITIAL BOILING POINT, 10% RECOVERY, 50% RECOVERY, 90% RECOVERY, FINAL BOILING POINT, % RESIDUE & % LOSS.
Cl-3.2.2, 3.2.6, Table-1, (iii) (a), 7)(Distillation:- Loss, percent v/v, Max)	-	378.57	TEST CHARGE FOR DISTILLATION IS INR 2650.00; EQUALLY DIVIDED INTO INITIAL BOILING POINT, 10% RECOVERY, 50% RECOVERY, 90% RECOVERY, FINAL BOILING POINT, % RESIDUE & % LOSS.
Cl-3.2.2, 3.2.6, Table-1, (iii) (b)(Flash point ( Abel ), °C, Min)	-	1900	-
Cl-3.2.2, 3.2.6, Table-1, (iii) (c)(Density at 15°C,kg/m3)	-	1130	-
Cl-3.2.2, 3.2.6, Table- 1, (iv) (a)(Fluidity:- Freezing point, °C, Max)	-	2270	-
Cl-3.2.2, 3.2.6, Table-1, (iv) (b)(Fluidity:- Kinematic viscosity at minus 20°C, mm2/s, Max)	-	2270	-
Cl-3.2.2, 3.2.6, Table-1, (v) (b)(Smoke point, mm, Min or)	-	1130	-
Cl-3.2.2, 3.2.6, Table-1, (v) (b) 2)(Naphthalenes, percent v/v, Max)	-	2650	-
Cl-3.2.2, 3.2.6, Table-1, (vi) (a)(Copper strip corrosion for 2 h at 100°C)	-	1130	-
Cl-3.2.2, 3.2.6, Table-1, (vi) (b)("Silver stripcorrosion12) classification, for 4 h at 50°C, Max")	-	1340	-
Cl-3.2.2, 3.2.6, Table-1, (viii)(Contaminants: Existent gum, mg/100 ml, Max)	-	2070	-
Cl-3.2.2, 3.2.6, Table-1, (x)(Conductivity: Electrical conductivity, pS/m19))	-	1340	-
Cl-3.2.2, 3.2.6, Table-1, (ii) (e)(Doctor Test)	-	400	-
Cl-3.2.2, 3.2.6, Table-1 (B)(Colour)	-	1130	-
Cl-3.2.2, 3.2.6, Table-1, (ii) (a)(Total acidi,t y mg KOHM/ga, x)	-	1530	-
Cl-3.2.2, 3.2.6, Table-1, (iii) (a), 3)(Distillation:- 50 percent recovery °C, v/v)	-	378.57	TEST CHARGE FOR DISTILLATION IS INR 2650.00; EQUALLY DIVIDED INTO INITIAL BOILING POINT, 10% RECOVERY, 50% RECOVERY, 90% RECOVERY, FINAL BOILING POINT, % RESIDUE & % LOSS.
Cl-3.2.2, 3.2.6, Table-1, (iii) (a), 6)(Distillation:- Residue, percent v/v, Max)	-	378.57	TEST CHARGE FOR DISTILLATION IS INR 2650.00; EQUALLY DIVIDED INTO INITIAL BOILING POINT, 10% RECOVERY, 50% RECOVERY, 90% RECOVERY, FINAL BOILING POINT, % RESIDUE & % LOSS.
Cl-3.2.2, 3.2.6, Table-1, (ii) (d)(Sulphur mercaptan, percent m/m. Max)	-	1900	-
Cl-3.2.2, 3.2.6, Table-1, (iii) (a), 2)(Distillation:- 10 percent recovery °Cv/,v , Max)	-	378.57	TEST CHARGE FOR DISTILLATION IS INR 2650.00; EQUALLY DIVIDED INTO INITIAL BOILING POINT, 10% RECOVERY, 50% RECOVERY, 90% RECOVERY, FINAL BOILING POINT, % RESIDUE & % LOSS.
Cl-3.2.2, 3.2.6, Table-1, (ix) a)(Water reaction: Interface rating16), Max)	-	378.57	-
Cl-3.2.2, 3.2.6, Table-1, (ii) (b)(Aromatics, percent by vol (Defense requirements))	-	2650	-
Cl-3.2.2, 3.2.6, Table-1, (ii) (c)(Total sulphur percent by mass, Max (Defense requirements))	-	4710	-
Cl-3.2.2, 3.2.6, Table-1, (ii) (d)(Sulphur mercaptan, percent m/m. (Defense requirements))	-	1900	-
Cl-3.2.2, 3.2.6, Table-1, (vi) (b)(Silver stripcorrosion12) classification, for 4 h at 50°C, (Defense requirements))	-	1340	-

16 Dec, 2028

-
Excluding: Cl-3.1 (General-Material) Cl-3.2 (Composition) Cl-3.2.1 (Antioxidants) Cl-3.2.2 (Metal Deactivator Additive (MDA)) Cl-3.2.3 (Static Dissipater Additive (SDA)) Cl-3.2.4 (Lubricity Improver Additive (LIA)) Cl-3.2.5 (Fuel System Icing Inhibitor (FSII)) Cl-3.2.7 (Leak Detection Additive) Cl-5.2 (Marking) Cl-3.2.2, 3.2.6, Table-1 (c) (Particulate contamination, at point of 1.02) manufacture, mg/l, Max) Cl-3.2.2, 3.2.6, Table-1 (d) 1) (Particulate, at point of manufacture, cumulative channel particle counts:- ≥ 4 μm©) Cl-3.2.2, 3.2.6, Table-1 (d) 2) (Particulate, at point of manufacture, cumulative channel particle counts:- ≥6 μm(c) Cl-3.2.2, 3.2.6, Table-1 (d) 3) (Particulate, at point of manufacture, cumulative channel particle counts:- ≥14 μm©) Cl-3.2.2, 3.2.6, Table-1 (d) 4) (Particulate, at point of manufacture, cumulative channel particle counts:- ≥21 μm©) Cl-3.2.2, 3.2.6, Table-1 (d) 5) (Particulate, at point of manufacture, cumulative channel particle counts:-≥25 μm©) Cl-3.2.2, 3.2.6, Table-1 (d) 6) (Particulate, at point of manufacture, cumulative channel particle counts:- ≥30 μm©) Cl-3.2.2, 3.2.6, Table-1, (ii) (f), 1) ("Refining components, at the point of manufacture8) :- Non Hydro processed Components, percent v/v") Cl-3.2.2, 3.2.6, Table-1, (ii) (f), 2) ("Refining components, at the point of manufacture8) :- Mildly Hydro processed Components, percent v/v") Cl-3.2.2, 3.2.6, Table-1, (ii) (f), 3) ("Refining components, at the point of manufacture8) :- Severely Hydro processed Components, percent v/v") Cl-3.2.2, 3.2.6, Table-1, (ii) (f), 4) ("Refining components, at the point of manufacture8) :- Synthetic Components, percenvt/ v") Cl-3.2.2, 3.2.6, Table-1, (vii) (a) (Filter pressure differential, mm Hg, Max) Cl-3.2.2, 3.2.6, Table-1, (vii) (b) 1) (Tube rating, visual (VTR)) Cl-3.2.2, 3.2.6, Table-1, (vii) (b) 2) (ITR or ETR, average over area of 2.5 mm2 in nm) Cl-3.2.2, 3.2.6, Table-1, (ix) b), 1) ("Micro-separometer rating18) at the point of manufacture: - MSEP without SDA, Min") Cl-3.2.2, 3.2.6, Table-1, (ix) b), 1) ("Micro-separometer rating18) at the point of manufacture: - MSEP without SDA, Min") Cl-3.2.2, 3.2.6, Table-1, (ix) b), 2) ("Micro-separometer rating18) at the point of manufacture: MSEP with SDA, Min") Cl-3.2.2, 3.2.6, Table- 1, (xi) (Lubricity: Wear scar diameter, mm, Max) Cl-3.2.2, 3.2.6, Table-1, (xii) (Identified Incidental Materials :- Fatty Acid Methyl Ester, mg/kg, Max) Cl-3.2.2, 3.2.6, Table-1, (v) (a) (Specific energy10) MJ/kg, Min) Amendment No.5 Table 3 Clause G-2.5 i (Thermal stability) Amendment No.5 Table 3 Clause G-2.5 i (Test temperature for 2.5 h) Amendment No.5 Table 3 Clause G-2.5 i (Tube Rating) Amendment No.5 Table 3 Clause G-2.5 i (Annex B VTR) Amendment No.5 Table 3 Clause G-2.5 i (Annex C ITR or Annex D ETR, average over an area of 2.5 mm2) Amendment No.5 Table 3 Clause G-2.5 i (Pressure differential) Amendment No.5 Table 3 Clause G-2.5 ii (Fluidity-Freezing point) Amendment No.5 Table 3 Clause G-2.5 ii (Fluidity-Viscosity at - 40 ℃) Amendment No.5 Table 3 Clause G-2.5 iii (Aromatics) Amendment No.5 Table 3 Clause G-2.5 iv (Volatility- Distillation-T50 to T10, ℃) Amendment No.5 Table 3 Clause G-2.5 iv (Volatility- Distillation-T90 to T10, ℃) Amendment No.5 Table 3 Clause G-2.5 v (Lubricity) Amendment No.5 Table 3 Clause G-2.5 vi (Unconverted fatty acid esters and fatty acids) Cl-5.2 (Marking) Cl-3.2.2, 3.2.6, Table- 1, (xi) (Lubricity: Wear scar diameter, mm, Max) Cl-3.2.2, 3.2.6, Table- 1, (xi) (Lubricity: Wear scar diameter, mm (defense requirements))

2656

INDIAN OIL CORPORATION LIMITED (IOCL), ASANUR SMART LABORATORY

6192214

IS 15464 (2022)

ANHYDROUS ETHANOL FOR USE AS BLENDING COMPONENT IN MOTOR GASOLINE SPECIFICATION First Revision

Anhydrous Ethanol

10350 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
4.4-Table 1-i)(Appearance)	-	200	-
4.4-Table 1-ii)(Relative density at 15.6/15.6 °C, Max)	-	1130	-
4.4-Table 1-iii)(Ethanol, percent, v/v, Min1)). (excluding denaturant))	-	1340	-
4.4-Table 1-viii)(Acidity (as CH3 COOH), mg/kg, Max.)	-	400	-
4.4-Table 1-ix)(Alkalinity, mg/kg, Max.)	-	400	-
4.4-Table 1-x)(Aldehyde (as CH3 CHO) content, mg/l, Max)	-	1900	-
4.4-Table 1-xv)(Sulfur content, mg/kg, Max.)	-	4710	-
4.4-Table 1-xix)(Miscibility with water)	-	380	-

03 Dec, 2028

-
4.1 (Description) 4.2 (Denaturant) 4.3 (Acidity) 4.4-Table 1 iv (Methanol) 4.4-Table 1-iv) (Ethanol, percent, v/v, Min1). (excluding denaturant)) 4.4-Table 1-v) (Higher saturated alcohols (C3-C5), percent, v/v, Max) 4.4-Table 1-vi) (Boiling point, °C, Min.) 4.4-Table 1-vii) (Residue on evaporation, percent by mass, Max.) 4.4-Table 1-xi) (Electrical conductivity, µS/m, Max) 4.4-Table 1-xii) (Copper, mg/kg, Max.) 4.4-Table 1-xiii) (pHe) 4.4-Table 1-xiv) (Inorganic chloride, mg/kg, Max.) 4.4-Table 1-xvi) (Sulphate content, mg/kg Max.) 4.4-Table 1-xvii) (Water content, percent v/v, Max.) 4.4-Table 1-xvii) (Water content, percent v/v, Max.) 4.4-Table 1-xviii) (Hydrocarbons, percent v/v) 5.1 (Packing) 5.2 (Marking) 7.1 (Tests shall be conducted)

2657

INDIAN TEST HOUSE PRIVATE LIMITED, MURADNAGAR

8183336

IS 848 (2025)

Synthetic Resin Adhesives for Plywood (Phenolic, Aminoplastic and Bio-Materials Based) - Specification ( Third Revision )

BWP, BWR, MR

5500 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
As per Clause 4 Table 1(TYPES)	-	500	-
As per Clause 6.6(SETTING TIMES AND CONDITIONS)	-	500	-
As per Clause 7.3.2 Table 1(i)(Cyclic Test For BWP Type)	-	4000	-
As per Clause 7.3.2 Table 1(ii)(Cyclic Test For BWR Type)	-	4000	-
As per Clause 7.3.2 Table 1(iii)(Cyclic Test For MR Type)	-	4000	-
As per Clause 7.4(Acidity And Alkalinity (pH))	-	500	-
As per Clause 9(Marking)	-	0	-

30 Dec, 2027

-
Included w.e.f 14.10.2025

2658

BIS, Western Regional Laboratory (WRL)

None

IS 14650 (2023)

UNALLOYED AND ALLOYED STEEL INGOT AND SEMI-FINISHED PRODUCTS FOR RE-ROLLING PURPOSES - SPECIFICATION (First Revision)

- View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Effective Date	Remark
As per Clause 10 (Dimension)	-
Clause - 7.1 (CARBON)	-

-
-

2659

BIS, Western Regional Laboratory (WRL)

None

IS 1970 (2024)

Crop Protection Equipment - Hand-Operated Compression - Knapsack Sprayer - Specification (Sixth Revision)

- View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Effective Date	Remark
Cl-6.14 (Cut-off Device and Lance)	-

-
-

2660

Akshat Test Lab & Calibration Services, Ghaziabad

8186526

IS 302 : Part 2 : Sec 8 (2024)

Household and Similar Electrical Appliances âSafety Part 2 Particular Requirements Section 8 Shavers, Hair Clippers and Similar Appliances (First Revision)

48500 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
7(Marking and instructions)	-	1500	-
8(Protection against access to live parts)	-	2000	-
10(Power input and current)	-	1500	-
11(Heating)	-	2000	-
12(Charging of metal-ion batteries)	-	1500	-
13.1 &13.2(Leakage current test)	-	1000	-
13.1 &13.3(Electric strength test)	-	2000	-
14(Transient overvoltages)	-	1500	-
15(Moisture resistance)	-	1500	-
15.3(Moisture resistance)	-	1500	-
16.1 &16.2(Leakage current test)	-	1500	-
16.1 & 16.3(Electric strength test)	-	1500	-
17(Overload protection of transformers and associated circuits)	-	500	-
19.1 to 19.13, Table No. - 9(Abnormal operation)	-	2000	-
19.101(Abnormal operation)	-	500	-
20.1(Stability and mechanical hazards)	-	1000	-
20.2(Stability and mechanical hazards)	-	1000	-
21(Mechanical strength)	-	1000	-
21.101(Mechanical strength)	-	500	-
21.102(Mechanical strength)	-	500	-
21.103(Mechanical strength)	-	500	-
22(Construction)	-	2000	-
22.101(Construction)	-	500	-
22.102(Construction)	-	500	-
22.103(Construction)	-	500	-
23(Internal wiring)	-	2000	-
24(Components)	-	2000	-
25("Supply connection and external flexible cords")	-	2500	-
26("Terminals for external conductors")	-	1500	-
27(Provision for earthing)	-	2000	-
28(Screws and connections)	-	1500	-
29("Clearances, creepage distances and solid insulation")	-	2000	-
30(Resistance to heat and fire)	-	2500	-
31(Resistance to rusting)	-	1000	-
32("Radiation, toxicity and similar hazards")	-	1000	For Routine test and applicable Annexure - 20000 For Acceptance test - 25000 For all test 48500

-
Included w.e.f. 09.10.2025 Exclusion: "19.11.4.1 (Electrostatic discharges) 19.11.4.2 (Radiated fields) 19.11.4.3 (Fast transient bursts) 19.11.4.4 (Surge immunity test) 19.11.4.5 (Immunity to conducted discharges) 19.11.4.6 (Class 3 Voltage dips and interruptions) 19.11.4.7 (Harmonics) "

2661

INDIAN OIL CORPORATION LIMITED (IOCL), ASANUR SMART LABORATORY

6192214

IS 15607 (2022)

Biodiesel B-100 - Fatty Acid Methyl Esters FAME Specification Second Revision

Biodiesel B-100

19870 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
4.4-Table 1-i)(Appearance, visual)	-	200	-
4.4-Table 1-ii)(Colour, visual)	-	200	-
4.4-Table 1-iii)(Density at 15 °C, kg/m3)	-	1130	-
4.4-Table 1-iv)(Kinematic viscosity at 40 °C, cSt)	-	2270	-
4.4-Table 1-v)(Flash point (PMCC)1) °C, Min)	-	1900	-
4.4-Table 1-vi)(Total Sulphur, mg/kg, Max)	-	4710	-
4.4-Table 1-ix)(Water content mg/kg, Max)	-	4160	-
4.4-Table 1-xi)(Copper strip corrosion, 3 h at 50 °C, Max)	-	1130	-
4.4-Table 1-xiii)(Acid value, mg KOH/g, Max)	-	2270	-
4.4-Table 1-xxvi)(Cold filter plugging point (CFPP), °C Max a) summer 18 – Part 110 b) winter3))	-	1900	-

03 Dec, 2028

-
4.1 (General) 4.2 (Additives) 4.3 (The materials shall be free from grit) 4.4-Table 1-vii) (Carbon residue (MCR) 2) percent by mass, Max) 4.4-Table 1-viii) (Sulfated ash, percent by mass, Max) 4.4-Table 1-x) (Total contamination, mg/kg, Max) 4.4-Table 1-xii) (Cetane No., Min) 4.4-Table 1-xiv) (Methanol, percent by mass, Max) 4.4-Table 1-xix) (Free Glycerol percent by mass, Max) 4.4-Table 1-xv) (Ester content, percent by mass, Min) 4.4-Table 1-xvi) (Monoglycerides content, percent by mass, Max) 4.4-Table 1-xvii) (Diglyceride content, percent by mass, Max) 4.4-Table 1-xviii) (Triglyceride content, percent by mass, Max) 4.4-Table 1-xx) (Total Glycerol percent by mass, Max) 4.4-Table 1-xxi) (Phosphorous mg/kg, Max) 4.4-Table 1-xxii) (Sodium + Potassium mg/kg, Max) 4.4-Table 1-xxiii) (Calcium + Magnesium mg/kg, Max) 4.4-Table 1-xxiv) (Iodine value, gm iodine/100 gm, Max) 4.4-Table 1-xxv) (Oxidation stability, at 110 °C, Min hrs. Accelerated) 4.4-Table 1-xxvii) (Linolenic acid methyl ester, percent m/m, Max) 4.4-Table 1-xxviii) (Polyunsaturated (>_ 4 double bonds) methyl ester percent m/m, Max) 5.1 (Packing) 5.2 (Marking)

2662

INDIAN OIL CORPORATION LIMITED (IOCL), ASANUR SMART LABORATORY

6192214

IS 17021 (2018)

E 20 fuel - Admixture of anhydrous ethanol and gasoline - As fuel for spark ignited engine powered vehicles - Specification

E20 EBMS

12180 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
4.2-Table 1-i)(Appearance)	-	200	-
4.2-Table 1-ii)(Colour)	-	200	-
4.2-Table 1-iii)(Density at 15°C, kg/m3)	-	1130	-
4.2-Table 1-iv)(Distillation a) percent evaporated at 70 °C (E70 °C), percent v/v b) percent evaporated at 100 °C (E100 °C), percent v/v c) percent evaporated at 150 °C (E150 °C ), percent v/v, Min d) Final Boiling Point, °C, Max e) Residue, percent by volume, Max)	-	2650	-
4.2-Table 1-vii)(Gum content (Solvent washed), g/m3 , Max)	-	2070	-
4.2-Table 1-viii)(Total Sulphur, mg/kg, Max)	-	4710	-
4.2-Table 1-xiii)(Copper strip corrosion (3 h at 50 °C), Max)	-	1130	-
4.2-Table 1-xx)(Ethanol content6), percent, v/v)	-	690	-

03 Dec, 2028

-
4.1 (Description) 4.2-Table 1-ix) (Lead Content (as Pb), g/l, Max) 4.2-Table 1-v) (Research Octane Number (RON), Min) 4.2-Table 1-vi) (Motor Octane Number (MON), Min) 4.2-Table 1-x) (Reid Vapour pressure at 38°C, kPa, Max) 4.2-Table 1-xi) (Vapour Lock Index (VLI), Max a) Summer2) b) Other Months) 4.2-Table 1-xii) (Benzene content, percent by volume, Max) 4.2-Table 1-xiv) (Water tolerance of gasoline-alcohol blends, temperature for phase separation, °C, Max a) other months b) Winter3)) 4.2-Table 1-xix) (Oxygen content, percent by mass, Max) 4.2-Table 1-xv) (Engine intake system cleanliness) 4.2-Table 1-xvi) (Olefin content, percent by volume, Max) 4.2-Table 1-xvii) (Oxidation stability, minutes, Min) 4.2-Table 1-xviii) (Aromatic content5), percent by volume, Max) 4.2-Table 1-xxi) (Oxygenates percent by volume, Max a) Ethers containing 5 or more “C” atoms per molecules such as MTBE, ETBE or TAME b) Any other oxygenates) 4.2-Table 1-xxii) (Motor Gasoline Content, percent, v/v) 4.2-Table 1-xxiii (Amendment No.3) (Water content) 4.3 (Ethanol Content) 4.4 (Organic Oxygenates) 4.5 (Phosphorous) 6.1 (Packing) 6.2 (Marking)

2663

Indian Oil Corporation Ltd (IOCL), Jasidih Smart Laboratory

5195214

IS 15607 (2022)

Biodiesel B-100 - Fatty Acid Methyl Esters FAME Specification Second Revision

19870 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
4.4-Table 1-i)(Appearance, visual)	-	200	Valid for 2025-26. Annual enhancement: 5%. GST applicable: 18%
4.4-Table 1-ii)(Colour, visual)	-	200	Valid for 2025-26. Annual enhancement: 5%. GST applicable: 18%
4.4-Table 1-iii)(Density at 15 °C, kg/m3)	-	1130	Valid for 2025-26. Annual enhancement: 5%. GST applicable: 18%
4.4-Table 1-iv)(Kinematic viscosity at 40 °C, cSt)	-	2270	Valid for 2025-26. Annual enhancement: 5%. GST applicable: 18%
4.4-Table 1-v)(Flash point (PMCC)1) °C, Min)	-	1900	Valid for 2025-26. Annual enhancement: 5%. GST applicable: 18%
4.4-Table 1-vi)(Total Sulphur, mg/kg, Max)	-	4710	Valid for 2025-26. Annual enhancement: 5%. GST applicable: 18%
4.4-Table 1-ix)(Water content mg/kg, Max)	-	4160	Valid for 2025-26. Annual enhancement: 5%. GST applicable: 18%
4.4-Table 1-xi)(Copper strip corrosion, 3 h at 50 °C, Max)	-	1130	Valid for 2025-26. Annual enhancement: 5%. GST applicable: 18%
4.4-Table 1-xiii)(Acid value, mg KOH/g, Max)	-	2270	Valid for 2025-26. Annual enhancement: 5%. GST applicable: 18%
4.4-Table 1-xxvi)(Cold filter plugging point (CFPP), °C Max a) summer 18 – Part 110 b) winter3))	-	1900	Valid for 2025-26. Annual enhancement: 5%. GST applicable: 18%

29 Dec, 2028

-
Excluding: 4.1 (General) 4.2 (Additives) 4.3 (The materials shall be free from grit) 4.4-Table 1-vii) (Carbon residue (MCR) 2) percent by mass, Max) 4.4-Table 1-viii) (Sulfated ash, percent by mass, Max) 4.4-Table 1-x) (Total contamination, mg/kg, Max) 4.4-Table 1-xii) (Cetane No., Min) 4.4-Table 1-xiv) (Methanol, percent by mass, Max) 4.4-Table 1-xv) (Ester content, percent by mass, Min) 4.4-Table 1-xvi) (Monoglycerides content, percent by mass, Max) 4.4-Table 1-xvii) (Diglyceride content, percent by mass, Max) 4.4-Table 1-xviii) (Triglyceride content, percent by mass, Max) 4.4-Table 1-xix) (Free Glycerol percent by mass, Max) 4.4-Table 1-xx) (Total Glycerol percent by mass, Max) 4.4-Table 1-xxi) (Phosphorous mg/kg, Max) 4.4-Table 1-xxii) (Sodium + Potassium mg/kg, Max) 4.4-Table 1-xxiii) (Calcium + Magnesium mg/kg, Max) 4.4-Table 1-xxiv) (Iodine value, gm iodine/100 gm, Max) 4.4-Table 1-xxv) (Oxidation stability, at 110 °C, Min hrs. Accelerated) 4.4-Table 1-xxvii) (Linolenic acid methyl ester, percent m/m, Max) 4.4-Table 1-xxviii) (Polyunsaturated (>_ 4 double bonds) methyl ester percent m/m, Max) 5.1 (Packing) 5.2 (Marking)

2664

Indian Oil Corporation Ltd (IOCL), Jasidih Smart Laboratory

5195214

IS 15464 (2022)

ANHYDROUS ETHANOL FOR USE AS BLENDING COMPONENT IN MOTOR GASOLINE SPECIFICATION First Revision

13870 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
4.4-Table 1-i)(Appearance)	-	200	Applicable for FY2025-26. Annual increment of charge:5% GST applicable:18%
4.4-Table 1-ii)(Relative density at 15.6/15.6 °C, Max)	-	1130	Applicable for FY2025-26. Annual increment of charge:5% GST applicable:18%
4.4-Table 1-iii)(Ethanol, percent, v/v, Min1)). (excluding denaturant))	-	1340	Applicable for FY2025-26. Annual increment of charge:5% GST applicable:18%
4.4-Table 1-vii)(Residue on evaporation, percent by mass, Max.)	-	2070	Applicable for FY2025-26. Annual increment of charge:5% GST applicable:18%
4.4-Table 1-viii)(Acidity (as CH3 COOH), mg/kg, Max.)	-	400	Applicable for FY2025-26. Annual increment of charge:5% GST applicable:18%
4.4-Table 1-iv)(Ethanol, percent, v/v, Min1). (excluding denaturant))	-	1340	Applicable for FY2025-26. Annual increment of charge:5% GST applicable:18%
4.4-Table 1-xv)(Sulfur content, mg/kg, Max.)	-	4710	Applicable for FY2025-26. Annual increment of charge:5% GST applicable:18%
4.4-Table 1-ix)(Alkalinity, mg/kg, Max.)	-	400	Applicable for FY2025-26. Annual increment of charge:5% GST applicable:18%
4.4-Table 1-x)(Aldehyde (as CH3 CHO) content, mg/l, Max)	-	1900	Applicable for FY2025-26. Annual increment of charge:5% GST applicable:18%
4.4-Table 1-xix)(Miscibility with water)	-	380	Applicable for FY2025-26. Annual increment of charge:5% GST applicable:18%
4.3(Acidity)	-	400	Applicable for FY2025-26. Annual increment of charge:5% GST applicable:18%

29 Dec, 2028

-
Excluding: 4.1 (Description) 4.2 (Denaturant) 4.4-Table 1-v) (Higher saturated alcohols (C3-C5), percent, v/v, Max) 4.4-Table 1-vi) (Boiling point, °C, Min.) 4.4-Table 1-xi) (Electrical conductivity, µS/m, Max) 4.4-Table 1-xii) (Copper, mg/kg, Max.) 4.4-Table 1-xiii) (pHe) 4.4-Table 1-xiv) (Inorganic chloride, mg/kg, Max.) 4.4-Table 1-xvi) (Sulphate content, mg/kg Max.) 4.4-Table 1-xvii) (Water content, percent v/v, Max.) 4.4-Table 1-xviii) (Hydrocarbons, percent v/v) 5.1 (Packing) 5.2 (Marking) 4.4-Table 1 iv (Methanol)

2665

Indian Oil Corporation Ltd (IOCL), Jasidih Smart Laboratory

5195214

IS 1459 (2018)

Kerosene - Specification (Fourth Revision)

10990 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
4.2-Table 1-i)(Appearance)	-	200	Applicable for FY2025-26. Annual increment: 5% Applicable GST: 18%
4.2-Table 1-iv)(Colour a)Saybolt (in cas of undyedKerosene)3), Min b)Visual (in case of dyed Kerosene))	-	200	Applicable for FY2025-26. Annual increment: 5% Applicable GST: 18%
4.2-Table 1-v)(Copper strip corrosion for 3 h at 50°C)	-	1130	Applicable for FY2025-26. Annual increment: 5% Applicable GST: 18%
4.2-Table 1-vi)(Density at 15°C, kg/m3)	-	1130	Applicable for FY2025-26. Annual increment: 5% Applicable GST: 18%
4.2-Table 1-vii)(Distillation a)Percent recovered below200°C, percent (v/v), Min b)Final boiling point, °C, Max )	-	2650	Applicable for FY2025-26. Annual increment: 5% Applicable GST: 18%
4.2-Table 1-viii)(Flash point ( Abel), °C, Min)	-	1900	Applicable for FY2025-26. Annual increment: 5% Applicable GST: 18%
4.2-Table 1-ix)(Smoke Point4), mm, Min)	-	1130	Applicable for FY2025-26. Annual increment: 5% Applicable GST: 18%
4.2-Table 1-x)(Total Sulphur Content, percent, m/m, Max)	-	2650	Applicable for FY2025-26. Annual increment: 5% Applicable GST: 18%

29 Dec, 2028

-
Scope restricted to dyed kerosene. Excluding: 4.2-Table 1-ii) (Acidity, inorganic) 4.2-Table 1-iii) (Burning quality) a)Char Value, mg/kg of oil consumed, Max b)Bloom on glass Chimney) 5.1 (Packing) 5.2 (Marking)

2666

BIS, Western Regional Laboratory (WRL)

None

IS 269 (2015)

Ordinary portland cement - Specification (Sixth Revision)

- View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Effective Date	Remark
7 Table-3 iii a (Setting Time Initial)	-
7 Table-3 iii b (Setting Time Final)	-
7 Table-3 ii a (Expansion after aeration)	-
7 Table-3 ii a (Expansion by Le Chatelier)	-
7 Table-3 iv a (Compressive Strength At 72 hrs ± 1 hr - IS 4031 Part 6)	-
7 Table-3 iv b (Compressive Strength At 168 hrs ± 2 hr - IS 4031 Part 6)	-
7 Table-3 iv c (Compressive Strength At 672 hrs ± 4 hr - IS 4031 Part 6)	-
7 Table-3 i. (Fineness)	-
7 Table-3 ii b (Expansion by Autoclave)	-
6.1 Table-2 viii (Alkali content)	-
6.1 Table-2 vii (Chloride content)	-
6.1 Table-2 vi (Loss on ignition)	-
6.1 Table-2 v (Total Sulphur Content calculated as Sulphuric Anhydride)	-
6.1 Table-2 iv (Magnesia)	-
6.1 Table-2 iii. (Insoluble residue)	-
6.1 Table-2 ii. (Ratio of percentage of alumina to that of iron oxide)	-
6.1 Table-2 i. (Ratio of percentage of lime to percentage of silica, alumina and iron oxide)	-

-
Except Compressive Strength Test

2667

Indian Oil Corporation Ltd (IOCL), Jasidih Smart Laboratory

5195214

IS 1460 (2025)

Automotive Diesel Fuel - Specification (seventh revision)

27990 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
Cl-3.1.4 , 3.2, Table-1 (i)(Appearance)	-	200	Applicable for FY: 2025-26 Annual Rate increment: 5% GST applicable: 18%
Cl-3.1.4 , 3.2, Table-1 (ii) C(Total Acid Number (TAN), mg of KOH/g, Max)	-	2270	Applicable for FY: 2025-26 Annual Rate increment: 5% GST applicable: 18%
Cl-3.1.4 , 3.2, Table-1 (vi)(Cetane index, Min)	-	3770	Applicable for FY: 2025-26 Annual Rate increment: 5% GST applicable: 18%
Cl-3.1.4 , 3.2, Table-1 (vii) (a)(Pour point3, °C, Max: Winter)	-	1900	Applicable for FY: 2025-26 Annual Rate increment: 5% GST applicable: 18%
Cl-3.1.4 , 3.2, Table-1 (vii) (b)(Pour point3, °C, Max: Summer)	-	1900	Applicable for FY: 2025-26 Annual Rate increment: 5% GST applicable: 18%
Cl-3.1.4 , 3.2, Table-1 (viii)(Copper strip corrosion for 3 h at 50 °C, Max)	-	1130	Applicable for FY: 2025-26 Annual Rate increment: 5% GST applicable: 18%
Cl-3.1.4 , 3.2, Table-1 (ix)(Distillation, 95 percent v/v recovery, °C, Max)	-	2650	Applicable for FY: 2025-26 Annual Rate increment: 5% GST applicable: 18%
Cl-3.1.4 , 3.2, Table-1 (x)(Flash point, Abel4, °C, Min)	-	1900	Applicable for FY: 2025-26 Annual Rate increment: 5% GST applicable: 18%
Cl-3.1.4 , 3.2, Table-1 (xi)(Kinematic viscosity, mm2/s, at 40 °C)	-	2270	Applicable for FY: 2025-26 Annual Rate increment: 5% GST applicable: 18%
Cl-3.1.4 , 3.2, Table-1 (xiii)(Density at 15 °C, kg/m3)	-	1130	Applicable for FY: 2025-26 Annual Rate increment: 5% GST applicable: 18%
Cl-3.1.4 , 3.2, Table-1 (xiv)(Total sulphur, mg/kg, Max)	-	4710	Applicable for FY: 2025-26 Annual Rate increment: 5% GST applicable: 18%
Cl-3.1.4 , 3.2, Table-1 (xv)(Water content, mg/kg, Max)	-	4160	Applicable for FY: 2025-26 Annual Rate increment: 5% GST applicable: 18%
Cl-3.1.4 , 3.2, Table-1 (xvi) (a)(Cold Filter Plugging Point (CFPP)3, °C, Max: Winter)	-	1900	Applicable for FY: 2025-26 Annual Rate increment: 5% GST applicable: 18%
Cl-3.1.4 , 3.2, Table-1 (xvi) (b)(Cold Filter Plugging Point (CFPP)3, °C, Max: Summer)	-	1900	Applicable for FY: 2025-26 Annual Rate increment: 5% GST applicable: 18%

29 Dec, 2028

-
Excluding: Cl-3.1 (General- Requirements) Cl-3.2 (Composition) Cl-3.1.4 , 3.2, Table-1 (iii) (Ash, percent by mass, Max) Cl-3.1.4 , 3.2, Table-1 (iv) (Carbon residue, on 10 percent residue1, percent by mass, Max) Cl-3.1.4 , 3.2, Table-1 (v) (Cetane number, Min) Cl-3.1.4 , 3.2, Table-1 (xii) (Total contamination, mg/kg, Max) Cl-3.1.4 , 3.2, Table-1 (xvii) (Oxidation stability6, g/m3, Max) Cl-3.1.4 , 3.2, Table-1 (xvii) (Oxidation stability6, minutes, Min) Cl-3.1.4 , 3.2, Table-1 (xvii) (Oxidation stability6, minutes, Min) Cl-3.1.4 , 3.2, Table-1 (xviii) (Oxidation stability (for diesel fuel having FAME content of above 2 percent v/v), hours, Min) Cl-3.1.4 , 3.2, Table-1 (xviii) (Oxidation stability (for diesel fuel having FAME content of above 2 percent v/v), minutes, Min) Cl-3.1.4 , 3.2, Table-1 (xix) (Polycyclic Aromatic Hydrocarbon (PAH), percent by mass, Max) Cl-3.1.4 , 3.2, Table-1 (xx) (Lubricity, wear scar diameter (wsd) at 60 ºC, μm, Max) Cl-3.1.4 , 3.2, Table-1 (xxi) (FAME content7, percent v/v, Max) Cl-5.2 (Marking)

2668

Ahmedabad Lab (IOCL)

7190414

IS 1604 (2022)

Aviation gasoline - Specification (fifth revision)

12540 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
4.1.2-Table 1-i(Appearance)	-	200	-
4.1.2-Table 1-iv(Copper strip corrosion for 2 h at 100°C)	-	1130	-
4.1.2-Table 1-v(Density at 15°C, kg/m3)	-	1130	-
4.1.2-Table 1-vi(Distillation)	-	2650	-
4.1.2-Table 1-viii(Existent gum, mg/100 ml, Max)	-	2070	-
4.1.2-Table 1-ix(Freezing point, °C, Max)	-	2270	-
4.1.2-Table 1-xiii(Specific energy MJ/kg, Min)	-	2480	-
4.1.2-Table 1-xiv(Total sulphur percent m/m, Max)	-	4710	-
4.1.2-Table 1-xvi(Water reaction: Volume change, ml, Max)	-	780	-
4.1.2-Table 1-vii(Electrical conductivity, pS/m)	-	1340	-
4.1.2-Table 1-ii(Colour, visual)	-	200	-
4.1.2-Table 1-xii(Reid vapour pressure at 38°C, kPa)	-	1900	-

11 Nov, 2028

-
Exclusion: 4.1 (General) 4.2 (Composition) 4.2.2-Table 1-ix) (Reid vapour pressure at 38°C, kPa) 4.2.2-Table 1-vii) (Knock rating: a) Lean mixture,motor method,octane number, Min b) Rich mixture, octane number, Min c) Rich mixture, performance number, Min) 4.2.2-Table 1-viii) (Oxidation stability, 16 h: a) Potential gum, mg/100 ml, Max b) Potential gum, mg/100 ml, Max) 4.2.2-Table 1-xii) (Tetraethyl lead, g Pb/l at 15°C, Max) 4.2.3 (Static Dissipater Additive (SDA)) 4.2.4 (Dyes) 4.3 (Materials) 4.4 (Requirements) 6.1 (Packing) 6.2 (Marking) 4.2.5 (Colour by lovibond)

2669

Ahmedabad Lab (IOCL)

7190414

IS 1459 (2018)

Kerosene - Specification (Fourth Revision)

10860 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
4.2-Table 1-i)(Appearance)	-	200	-
4.2-Table 1-iv)(Colour a)Saybolt (in cas of undyedKerosene)3), Min b)Visual (in case of dyed Kerosene))	-	1130	-
4.2-Table 1-v)(Copper strip corrosion for 3 h at 50°C)	-	1130	-
4.2-Table 1-vi)(Density at 15°C, kg/m3)	-	1130	-
4.2-Table 1-vii)(Distillation a)Percent recovered below200°C, percent (v/v), Min b)Final boiling point, °C, Max )	-	2650	-
4.2-Table 1-viii)(Flash point ( Abel), °C, Min)	-	1900	-
4.2-Table 1-ix)(Smoke Point4), mm, Min)	-	1130	-
4.2-Table 1-x)(Total Sulphur Content, percent, m/m, Max)	-	2520	-

11 Nov, 2028

-
Exclusion: 4.2-Table 1-ii) (Acidity, inorganic) 4.2-Table 1-iii) (Burning quality2) a)Char Value, mg/kg of oil consumed, Max b)Bloom on glass Chimney) 5.1 (Packing) 5.2 (Marking)

2670

Ahmedabad Lab (IOCL)

7190414

IS 15607 (2022)

Biodiesel B-100 - Fatty Acid Methyl Esters FAME Specification Second Revision

18360 View breakup
-

Clause No.	Exclusion	Testing Charges (Excl. Of Taxes)	Remark
5.4(CFPP - ASTM D6371 / EN 16329 / IS 1448 P:110 b) Winter)	-	1900	-
4.4(CFPP - ASTM D6371 / EN 16329 / IS 1448 P:110 a) Summer)	-	1900	-
4.4(Acid value - IS 1448 P:17)	-	960	-
4.4(Copper corrosion - IS 1448 P:15 / ISO 2160)	-	1130	-
4.4(Water content - IS 1448 P:40 / ISO 3733/ ISO 12937)	-	4160	-
4.4(Sulphur - ISO 20846 / ASTM D5453)	-	4170	-
4.4(Flash point (PMCC) - IS 1448 P:21 )	-	1900	-
4.4(Kinematic viscosity at 40°C - IS 1448 P:25/ ISO3104)	-	2270	-
4.4(Density at 15 oC - IS 1448 P:16/ ISO 3675/ ISO 12185/ ASTM D4052)	-	1130	-
4.4-Table 1-i)(Appearance, visual)	-	200	-
4.4-Table 1-xxvi)(Cold filter plugging point (CFPP), °C Max a) summer 18 – Part 110 b) winter3))	-	1900	-
4.4-Table 1-xiii)(Acid value, mg KOH/g, Max)	-	960	-
4.4-Table 1-xi)(Copper strip corrosion, 3 h at 50 °C, Max)	-	1130	-
4.4-Table 1-ix)(Water content mg/kg, Max)	-	4160	-
4.4-Table 1-vi)(Total Sulphur, mg/kg, Max)	-	4710	-
4.4-Table 1-v)(Flash point (PMCC)1) °C, Min)	-	1900	-
4.4-Table 1-iv)(Kinematic viscosity at 40 °C, cSt)	-	2270	-
4.4-Table 1-iii)(Density at 15 °C, kg/m3)	-	1130	-
4.4-Table 1-ii)(Colour, visual)	-	200	-

11 Nov, 2028

-
Exclusion: 4.1 (General) 4.2 (Additives) 4.3 (The materials shall be free from grit) 4.4-Table 1-vii) (Carbon residue (MCR) 2) percent by mass, Max) 4.4-Table 1-viii) (Sulfated ash, percent by mass, Max) 4.4-Table 1-x) (Total contamination, mg/kg, Max) 4.4-Table 1-xii) (Cetane No., Min) 4.4-Table 1-xiv) (Methanol, percent by mass, Max) 4.4-Table 1-xix) (Free Glycerol percent by mass, Max) 4.4-Table 1-xv) (Ester content, percent by mass, Min) 4.4-Table 1-xvi) (Monoglycerides content, percent by mass, Max) 4.4-Table 1-xvii) (Diglyceride content, percent by mass, Max) 4.4-Table 1-xviii) (Triglyceride content, percent by mass, Max) 4.4-Table 1-xx) (Total Glycerol percent by mass, Max) 4.4-Table 1-xxi) (Phosphorous mg/kg, Max) 4.4-Table 1-xxii) (Sodium + Potassium mg/kg, Max) 4.4-Table 1-xxiii) (Calcium + Magnesium mg/kg, Max) 4.4-Table 1-xxiv) (Iodine value, gm iodine/100 gm, Max) 4.4-Table 1-xxv) (Oxidation stability, at 110 °C, Min hrs. Accelerated) 4.4-Table 1-xxvii) (Linolenic acid methyl ester, percent m/m, Max) 4.4-Table 1-xxviii) (Polyunsaturated (>_ 4 double bonds) methyl ester percent m/m, Max) 5.1 (Packing) 5.2 (Marking)

Bureau of Indian Standards

The National Standards Body of India

Search by IS Number