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GB 29743.2-2025: Motor vehicle coolant - Part 2: Electric vehicle coolant---This is an excerpt. Full copy of true-PDF in English version (including equations, symbols, images, flow-chart, tables, and figures etc.), auto-downloaded/delivered in 9 seconds, can be purchased online: https://www.ChineseStandard.net/PDF.aspx/GB29743.2-2025
GB
NATIONAL STANDARD OF THE
PEOPLE’S REPUBLIC OF CHINA
ICS 03.220.20
CCS R 16
Motor Vehicle Coolant - Part 2.Electric Vehicle Coolant
Issued on: MARCH 28, 2025
Implemented on: OCTOBER 1, 2025
Issued by. State Administration for Market Regulation;
Standardization Administration of the People’s Republic of China.
Table of Contents
Foreword... 3
Introduction... 4
1 Scope... 5
2 Normative References... 5
3 Terms and Definitions... 6
4 Product Classification... 7
5 Technical Requirements and Test Methods... 7
6 Inspection Rules... 10
7 Marking, Packaging, Transportation and Storage... 11
Appendix A (normative) Test Method for the Conductivity of Vehicle Coolants... 13
Appendix B (normative) Test Method for the Static Corrosion of Vehicle Coolants.. 14
Appendix C (normative) Test Method for the Cyclic Bench Corrosion of Vehicle
Coolants... 20
Appendix D (normative) Test Method for the Compatibility between Vehicle Coolants
and Rubber Materials... 27
Appendix E (informative) Specifications of Water for Diluting the Vehicle Coolant
Concentrate... 31
Motor Vehicle Coolant - Part 2.Electric Vehicle Coolant
1 Scope
This document specifies the product classification, technical requirements and test methods,
inspection rules, as well as marking, packaging, transportation and storage of electric vehicle
coolants.
This document is applicable to the production, inspection and use of electric vehicle coolants
prepared with ethylene glycol as the antifreeze raw material in the power battery thermal
management system of pure electric vehicles, fuel cell electric vehicles and hybrid electric
vehicles with independent thermal management circuits and Class B voltage circuits.
2 Normative References
The contents of the following documents constitute indispensable clauses of this document
through the normative references in the text. In terms of references with a specified date, only
versions with a specified date are applicable to this document. In terms of references without a
specified date, the latest version (including all the modifications) is applicable to this document.
GB/T 528-2009 Rubber, Vulcanized or Thermoplastic - Determination of Tensile Stress-strain
Properties
GB/T 711 Hot-rolled Quality Carbon Structural Steel Plates, Sheets and Wide Strips
GB/T 1173-2013 Casting Aluminum Alloy
GB/T 1690 Rubber, Vulcanized or Thermoplastic - Determination of the Effect of Liquids
GB/T 3190 Chemical Composition of Wrought Aluminum and Aluminum Alloys
GB/T 5231 Designation and Chemical Composition of Wrought Copper and Copper Alloys
GB/T 6031-2017 Rubber, Vulcanized or Thermoplastic - Determination of Hardness (hardness
between 10 IRHD and 100 IRHD)
GB/T 6682-2008 Water for Analytical Laboratory Use - Specification and Test Methods
GB/T 14832-2008 Test Methods for Compatibility between Hydraulic Fluids and Standard
Elastomeric Materials
GB/T 19596 Terminology of Electric Vehicles
GB 29743.1-2022 Motor Vehicle Coolant - Part 1.Fuel Vehicle Engine Coolant
GB/T 33402-2016 Silicone Rubber Compound - General Purpose
JT/T 1230 Standard Test Method for Determination of Inorganic Anions in Motor Vehicle
Engine Coolant - Ion Chromatography
NB/SH/T 0164 Petroleum and Related Products Packaging, Storage, Transportation and
Acceptance of Delivery Rules
NB/SH/T 0828 Standard Test Method for Determination of Silicon and Other Elements in
Engine Coolant by Inductively Coupled Plasma-atomic Emission Spectroscopy
SH/T 0065 Sampling of Engine Coolant or Antirust Agent Test Samples and Preparation of
Aqueous Solutions
SH/T 0066 Standard Test Method for Foaming Tendencies of Engine Coolants in Glassware
SH/T 0067 Determination Method for Ash Content in Engine Coolant and Antirust Agent
SH/T 0068 Standard Test Method for Density or Relative Density of Coolant Concentrates and
Engine Coolants by the Hydrometer
SH/T 0069 Determination Method for pH Value of Engine Antifreezing Agent, Antirust Agent
and Coolant Liquid
SH/T 0084 Standard Test Method for Effect of Cooling System Chemical Solutions on Organic
Finishes for Automotive Vehicles
SH/T 0086 Determination of Water Content in Concentrated Solution of Engine Refrigerant
(Karl Fischer method)
SH/T 0089 Ebullioscopy for Engine Refrigerant
SH/T 0090 Standard Test Method for Freezing Point for Engine Coolants
SH/T 0091 Determination Method for Reserve Alkalinity of Engine Coolant Liquid and
Antirust Agent
SH/T 0604 Crude Petroleum and Petroleum Products - Determination of Density-oscillating U-
tube Method
SH/T 0620 Standard Test Method for Cast Aluminum Alloy Corrosion of Engine Coolant in the
Condition of Heat Transfer
SH/T 0621 Determination Method for Chlorine Content of Engine Coolant
3 Terms and Definitions
The terms and definitions defined in GB/T 19596, and the following are applicable to this
document.
6.2.2 The exit-factory batch inspection items include appearance, color, odor, density, boiling
point, freezing point, pH, conductivity, reserve alkalinity and foam tendency.
6.2.3 The exit-factory periodic inspection items include the items in 6.2.2, as well as ash content,
chlorine content, sulfate content, effect on vehicle organic finishes, water content, static
corrosion and high-temperature stability.
6.3 Batch
Under the condition that raw materials and processes remain unchanged, each produced pot or
multiple continuously produced pots of products evenly mixed are considered an inspection
batch.
6.4 Sampling
Sampling shall be carried out in accordance with the provisions of SH/T 0065.The sampling
size of each batch of products shall meet the requirements of inspection and sample retention,
or samples can be randomly selected from the packaged products for inspection and retention.
6.5 Determination Rules
When the exit-factory inspection results comply with the requirements of Chapter 5, the batch
of products is determined as qualified. When the type inspection results comply with the
requirements of Chapter 5, the batch of products is determined as qualified in the type
inspection.
6.6 Re-inspection Rules
If the results of exit-factory inspection and type inspection do not meet the requirements of
Chapter 5, a double size of samples shall be re-taken from the same batch of products, and the
disqualified items shall be re-inspected. If the re-inspection results meet the requirements, then,
determine in accordance with 6.5; if the re-inspection results still do not meet the requirements,
then, determine it as disqualified.
7 Marking, Packaging, Transportation and Storage
7.1 The vehicle coolants shall be marked and packaged in accordance with the provisions of
NB/SH/T 0164.The marking content shall include.
a) Product name;
b) Antifreeze type;
c) Product classification and freezing point;
d) How to use the concentrate product (see Appendix E for the specifications of dilution
water);
Appendix A
(normative)
Test Method for the Conductivity of Vehicle Coolants
A.1 Principle
Measure-take 100 mL of the vehicle coolant specimen and use a conductivity meter to measure
its conductivity.
A.2 Instruments and Materials
A.2.1 Conductivity meter. with an accuracy class of 0.5 and automatic temperature
compensation function. In accordance with the conductivity range of the vehicle coolant, select
the appropriate conductivity electrode.
A.2.2 Measuring cylinder. with a capacity of 100 mL.
A.2.3 Conical flask. with a capacity of 100 mL and a stopper.
A.2.4 Constant temperature water bath. capable of controlling the temperature at 25 C 0.2
C.
A.3 Test Steps
A.3.1 In accordance with the requirements in the instructions for use of the conductivity meter,
select the conductivity calibration solution with a suitable measurement interval to calibrate the
conductivity meter and electrode.
A.3.2 Use a measuring cylinder to measure-take 100 mL of the vehicle coolant specimen and
pour it into a conical flask. Place it in a water bath that has been kept at a constant temperature
of 25 C 0.2 °C for 20 minutes.
A.3.3 Immerse the electrode in the specimen to determine the conductivity. Repeat the
determination twice, and meanwhile, record the specimen temperature.
A.3.4 When measuring specimens with a conductivity less than 3 S/cm, it is advisable to use
a conductivity meter equipped with a sealed flow cell and measure in a flowing state.
A.4 Result Report
Report the arithmetic mean of the two repeated determinations as the test result, accurate to 0.1
S/cm.
Appendix B
(normative)
Test Method for the Static Corrosion of Vehicle Coolants
B.1 Principle
Prepare the typical metals used for the vehicle cooling system into test pieces, which are then
grinded, cleaned and weighed, and assembled into a test piece bundle in a specified sequence.
Place it in a test cup, pour in 750 mL of the vehicle coolant specimen, transfer it to the heating
equipment, and under the conditions of test temperature 80 C 2 C and air flow rate 100
mL/min 10 mL/min, maintain it for 336 h 2 h. After the test, as required, respectively inspect
the changes in the mass of the metal test pieces and the performance of the vehicle coolant.
B.2 Instruments and Materials
B.2.1 Instruments
B.2.1.1 Test cup. 1,000 mL, tall, without spout, made of heat-resistant glass. Equipped with a
rubber plug, with through holes for installing condenser, gas diffusion tube and thermometer.
The assembly of the test components is shown in Figure B.1.
B.2.1.2 Condenser. the condenser jacket is 400 mm long and is a straight-type reflux
condensing tube.
B.2.1.3 Gas diffusion tube. made of heat-resistant glass, with a tube length of 220 mm and an
outer diameter of 8 mm, and a sand core glass diffusion head with a length of 30 mm and an
outer diameter of 15 mm at the end.
B.2.1.4 Thermometer. 20 C ~ 150 C, with a division value of 1 C, or an instrument with
the same accuracy.
B.2.1.5 Heating equipment. liquid bath heating, capable of controlling the temperature at 80 °C
2 °C, or an instrument with the same accuracy.
B.2.1.6 Air flow meter. capable of controlling the air flow rate at 100 mL/min 10 mL/min.
B.2.1.7 Balance. with a division value of 0.1 mg, and a maximum weighing not less than 200
g.
B.2.2 Materials
B.2.2.1 Metal test pieces. shall comply with the provisions of Table B.1.
2---insulating washer; 8---4043 aluminum test piece;
3---T2 red copper test piece; 9---6063 aluminum test piece;
4---H70 brass test piece; 10---brass bolt;
5---20 steel test piece; 11---steel washer;
6---ZL101A cast aluminum test piece; 12---brass washer.
Figure B.2 -- Assembly of Test Piece Bundle
B.4.2 Sample preparation
The vehicle coolant specimen is prepared with water into a test solution with an antifreeze
concentration (volume fraction) of 33%. 99 mg of sodium sulfate, 110 mg of sodium chloride
and 92 mg of sodium bicarbonate are added to each liter of the test solution.
B.5 Test Steps
B.5.1 Clean and dry the test cup, rubber stopper, thermometer, gas diffusion tube and condenser
used in the test.
B.5.2 Respectively place the three assembled metal test piece bundles into three test cups, then,
respectively pour 750 mL of vehicle coolant test solution into each test cup. As shown in Figure
B.1, assemble the rubber stopper, thermometer, gas diffusion tube and condenser. The end of
the condenser tube shall just come out of the rubber stopper. The diffusion head of the gas
diffusion tube shall be at least 12.7 mm away from the test piece bundle, and the two shall not
be in direct contact.
B.5.3 Place the test cup on the heating equipment and properly connect the condensation water
and gas circuits. The vehicle coolant is continuously tested at 80 C 2 C and an air flow rate
of 100 mL/min 10 mL/min for 336 h 2 h. During the test, the test conditions shall be checked
every day to ensure that the test temperature, air flow rate and liquid level meet the requirements,
and the specimen shall be replenished with water in time due to evaporation loss.
B.5.4 After the test is completed, remove the test cups and cool them to room temperature. Take
out the metal test piece bundles and disassemble them. Use a soft bristle brush to gently scrub
each test piece under tap water, so as to remove loose corrosion products attached to the surface.
Each test piece shall also undergo the following cleaning treatment.
a) Red copper and brass test pieces. in a fume hood, immerse the test pieces in 100 mL
of hydrochloric acid aqueous solution prepared at a volume ratio of hydrochloric acid
to water of 1.1 for 15 seconds to remove the surface film, then, use a soft bristle brush
to scrub them under tap water;
b) Steel test piece. use a brass scraper or brass wire brush to remove the adhering
deposits, then, use a soft bristle brush to scrub it;
L/min.
C.2.1.5 Battery water cooling plate. made of aluminum, water cooling plate for power batteries,
the cold plate area is 1.0 m2 ~ 1.5 m2, and the water channel area is (50 5)% of the cold plate
area.
C.2.1.6 Motor housing. aluminum, with built-in cooling water circuit.
C.2.1.7 Electrically controlled cooling module. made of aluminum, with built-in cooling water
circuit.
C.2.1.8 Rubber tube. EPDM rubber tube, with an inner diameter of 20 mm.
C.2.1.9 Water cooling plate connecting tube. nylon tubing or EPDM rubber tube.
C.2.1.10 Other pipe fittings and joints. made of nylon or 304 stainless steel.
C.2.1.11 Electric heater. wrapped around the outside of the liquid storage tank, with a power of
2 kW and surrounded by a heat-insulating and scalding-proof layer.
C.2.1.12 Temperature sensor. the measuring range shall not be less than 150 C.
C.2.1.13 Flow meter. DN20 diameter turbine flow meter.
C.2.1.14 Pressure sensor. the measuring range shall not be less than 200 kPa.
C.2.2 Balance
The division value is 0.1 mg and the maximum weighing is not less than 200 g.
C.3 Reagents and Materials
C.3.1 Water. shall comply with the requirements of Grade 3 water in GB/T 6682-2008.
C.3.2 Metal test pieces. shall comply with the requirements of Table B.1.
C.3.3 Brass bolts. with a nominal diameter of 4.0 mm and a bolt length of 75.0 mm, with nuts
and washers of corresponding specifications.
C.3.4 Insulating sleeve. made of polytetrafluoroethylene, with an outer diameter of 6.5 mm, a
wall thickness of 1.0 mm and a tube length of 55.0 mm.
C.3.5 Insulating washer. made of polytetrafluoroethylene, with an outer diameter of 12.0 mm,
an inner diameter of 7.0 mm and a thickness of 4.5 mm.
C.3.6 Brass washer. with an outer diameter of 12.0 mm, an inner diameter of 7.0 mm and a
thickness of 4.5 mm.
C.3.7 Steel washer. with an outer diameter of 12.0 mm, an inner diameter of 7.0 mm and a
C.4.3.2 The vehicle coolant predilute shall be directly tested with the stock solution.
C.4.4 Test conditions
C.4.4.1 The vehicle coolant flow rate is maintained at 15 L/min.
C.4.4.2 Test temperature. except during shutdown, the test temperature is maintained at 80 C
2 C.
C.4.4.3 Test time. after every 76 hours of continuous operation, the cyclic bench is shut down
for 8 hours, for a total of 14 cycles, with a total test time of 1,064 hours.
C.5 Test Steps
C.5.1 Sample filling. inject the vehicle coolant sample into the system from the radiator filling
port. Turn on the water pump and check the system circulation. Keep operating at room
temperature, observe the liquid flow at the filling port and observation tube, and when necessary,
add samples, and stop the water pump until the air mixed in the system is completely eliminated.
C.5.2 Pre-immersion of test pieces. put the radiator cover back on and immerse the metal test
pieces in the vehicle coolant. Without turning on the water pump or heating, leave it for 24
hours.
C.5.3 System startup. start the water pump and heat it to raise the system temperature to the
test temperature, check whether there are any abnormal conditions, for example, leakage, in the
system components, and monitor the changes in system pressure.
C.5.4 Test operation. after every 76 hours of continuous operation, the system is shut down for
8 hours. Continue in this mode, operate 152 hours per week for 7 consecutive weeks, until 1,064
hours are completed. During the shutdown, check the fluid level in the liquid replenishment
kettle. If the liquid level is below the low water mark, then, supplement with the original vehicle
coolant specimen.
C.5.5 End of test. when the system has been operating for a total of 1,064 hours, terminate the
test, release the specimen, immediately disassemble the metal test piece bundle, and in
accordance with steps B.5.4 and B.5.5, clean and weigh it.
C.5.6 Sampling and analysis. take out 200 mL of the vehicle coolant specimen after the test.
Determine the pH, conductivity and fluoride ion content of the vehicle coolant after the test. If
necessary, samples may be taken and analyzed during the test.
C.6 Result Calculation
The mass change of the test pieces is calculated in accordance with Formula (B.1).
C.7 Result Report
C.7.1 Take the arithmetic mean of the three groups of test pieces as the test result of the mass
Appendix D
(normative)
Test Method for the Compatibility between Vehicle Coolants and Rubber Materials
D.1 Principle
Immerse the rubber sheet in the vehicle coolant and keep it at 80 C 2 C for 168 h 2 h.
Inspect the volume change, hardness change, and tensile property change of the rubber sheet.
D.2 Instruments, Materials and Reagents
D.2.1 Test cup. made of heat-resistant glass, with an inner diameter of 70 mm 2 mm, a height
of 90 mm 2 mm, and a volume of 350 mL 10 mL, equipped with a tinplate cover.
D.2.2 Oven. capable of controlling the temperature at 80 C 2 C.
D.2.3 Thermometer. 20 C ~ 150 C, with a division value of 1 C.
D.2.4 Rubber hardness tester. shall comply with the requirements of Method M specified in
GB/T 6031-2017.
D.2.5 Balance. with a division value of 0.1 mg and a maximum weighing not less than 200 g.
D.2.6 Tensile testing machine. with an accuracy class of 0.5 and a maximum tensile force not
less than 500 N.
D.2.7 EPDM rubber test pieces. the material shall comply with the requirements for EPDM
rubber specified in GB/T 14832-2008, and the thickness of the test pieces shall be 2.0 mm
0.2 mm. The rubber sheet used for mass, volume and hardness tests is a square test piece of 25
mm 25 mm. The rubber sheet used for the tensile properties test is a Type 2 dumbbell-shaped
test piece that complies with the provisions of GB/T 528-2009.
D.2.8 Silicone rubber test pieces. the material shall comply with the VMQ 50-G category
requirements specified in GB/T 33402-2016, and the test piece thickness shall be 2.0 mm 0.2
mm. The rubber sheet used for mass, volume and hardness tests is a square test piece of 25 mm
25 mm. The rubber sheet used for the tensile properties test is a Type 2 dumbbell-shaped test
piece that complies with the provisions of GB/T 528-2009.
D.2.9 Anhydrous ethanol. analytically pure.
D.3 Test Steps
D.3.1 Raise the oven temperature and control it at 80 C 2 C. At the same time, select 4 test
cups, clean and dry them.
D.3.2 For each type of rubber, respectively select 3 square test pieces and 6 dumbbell-shaped
test pieces, mark them, use ethanol to clean them, use filter paper to dry them, use silk cloth to
wipe them and blow them dry.
D.3.3 The square test pieces are respectively measured as follows in accordance with the
method of GB/T 1690.
a) Mass measurement. weigh the mass m1 of the test pieces before the test, then, weigh
the mass m2 in water, accurate to 0.1 mg;
b) Hardness measurement. at 3 different points on the test pieces, measure the hardness
values. The measurement points shall be dispersed and the distance between two
points shall be at least 6 mm.
D.3.4 Select 3 dumbbell-shaped test pieces, and in accordance with the method in GB/T 528
use a tensile testing machine to respectively measure the tensile strength and elongation at break
as the pre-test data.
D.3.5 Respectively place 3 square test pieces of each type of rubber and another 3 dumbbell-
shaped test pieces in 2 test cups. Respectively pour 300 mL of the vehicle coolant into each cup.
The test pieces shall be dispersed in the test cups without overlapping. Cover the cups with lids
and place them in an oven at a constant temperature of 80 C 2 C for 168 h 2 h.
D.3.6 After the test, take out the test cups and cool them to room temperature. Then, take out
the rubber test pieces, use ethanol to clean them, use filter paper to dry them, use silk cloth to
wipe them and blow them dry.
D.3.7 Respectively measure the mass m3 of the square test pieces after the test, then, weigh the
mass m4 in water to an accuracy of 0.1 mg, and measure the hardness after the test.
D.3.8 The tensile strength and elongation at break of the dumbbell-shaped test pieces are
respectively measured using a tensile testing machine.
D.4 Result Calculation
D.4.1 The volume change rate of the rubber test pieces is calculated in accordance with Formula
(D.1).
Where,
V---the volume change rate of rubber test pieces;
m1---the mass of the rubber test pieces before the test, expressed in (g);
m2---the mass of the rubber test pieces in water before the test, expressed in (g);
......
Source: Above contents are excerpted from the full-copy PDF -- translated/reviewed by: www.ChineseStandard.net / Wayne Zheng et al.
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