KA 26-2025 Safety specification for lithium-ion traction batteries applied in underground mines
1 Scope
This document specifies the technical requirements, inspection rules, transportation and storage for lithium-ion traction batteries applied in underground mines, and describes the corresponding test methods.
This document is applicable to lithium-ion traction batteries applied in underground mines.
2 Normative references
The following documents contain provisions which, through reference in this text, constitute provisions of this document. For dated references, only the edition cited applies. For undated references, the latest edition of the referenced document (including any amendments) applies.
GB 38031-2025 Electric vehicles traction battery safety requirements
3 Terms and definitions
For the purposes of this document, the following terms and definitions apply.
3.1
lithium-ion traction batteries applied in underground mines
lithium-ion batteries (hereinafter referred to as "batteries") providing power for underground mine equipment, with a rated capacity of each battery cell greater than 10Ah
3.2
battery cell
basic unit device that converts chemical energy and electric energy to each other
Note: It generally consists of the positive electrode, negative electrode, diaphragm, electrolyte, housing, terminal and pressure relief structure, and is designed to be rechargeable.
[Source: GB 38031-2025, 3.1, modified]
3.3
battery module
assembly consisting of at least 5 battery cells connected in series
Note: There may be thermal insulation material layers between the battery cells constituting the battery module.
[Source: GB 38031-2025, 3.2, modified]
3.4
rated capacity
capacity value of a battery cell or battery module declared by the manufacturer
Note: The rated capacity is usually expressed in ampere-hours (Ah).
[Source: GB 38031-2025, 3.8, modified]
3.5
practical capacity
capacity released from a fully charged battery cell or battery module under the conditions specified by the manufacturer
[Source: GB 38031-2025, 3.9, modified]
3.6
state-of-charge
percentage of capacity which may be released by the current battery cell or battery module under the discharge conditions specified by the manufacturer in respect of the practical capacity
[Source: GB 38031-2025, 3.10, modified]
3.7
housing crack
mechanical damage to the housing of battery cell or battery module due to internal or external factors, resulting in exposure or spillage of inner matter
[Source: GB 38031-2025, 3.13, modified]
3.8
leakage
phenomenon where visible matter leaks out from the battery cell or battery module
[Source: GB 38031-2025, 3.14, modified]
3.9
fire
situation that any part of the battery cell or battery module keeps burning (for a duration of greater than 1s)
Note: Visual judgment shall be made without disassembling the test object. The spark and arc discharge is not considered as combustion.
[Source: GB 38031-2025, 3.12, modified]
3.10
explosion
sudden release of energy sufficient to generate pressure waves or jets
Note: The pressure waves or jets may cause structural or physical damage to the surrounding area.
[Source: GB 38031-2025, 3.11]
3.11
thermal runaway
uncontrollable temperature rise of the battery caused by the exothermic chain reaction of the battery cell
[Source: GB 38031-2025, 3.16]
3.12
thermal propagation
successive thermal runaway of the rest battery cells caused by the thermal runaway of a battery cell in a battery module
[Source: GB 38031-2025, 3.17, modified]
3.13
end-of-charge voltage
allowable maximum voltage of battery cell or battery module during charging under the conditions specified by the manufacturer
[Source: GB 38031-2025, 3.18, modified]
Contents
Foreword i
1 Scope
2 Normative references
3 Terms and definitions
4 Symbols and abbreviations
4.1 Symbols
4.2 Abbreviations
5 Technical requirements
5.1 Basic requirements
5.2 Technical requirements for battery cell
5.3 Technical requirements for battery module
6 Test methods
6.1 Test conditions
6.2 Test preparation
6.3 Basic inspection
6.4 Test of battery cell
6.5 Test of battery module
7 Inspection rules
7.1 Inspection items
7.2 Sampling
7.3 Judgment rules
8 Transportation and storage
8.1 Transportation
8.2 Storage
Standard
KA 26-2025 Safety specification for lithium-ion traction batteries applied in underground mines (English Version)
Standard No.
KA 26-2025
Status
valid
Language
English
File Format
PDF
Word Count
7500 words
Price(USD)
300.0
Implemented on
2025-12-1
Delivery
via email in 1 business day
Detail of KA 26-2025
Standard No.
KA 26-2025
English Name
Safety specification for lithium-ion traction batteries applied in underground mines
Chinese Name
地下矿山用锂离子动力电池安全技术条件
Chinese Classification
K82
Professional Classification
KA
ICS Classification
Issued by
National Mine Safety Administration
Issued on
2025-09-01
Implemented on
2025-12-1
Status
valid
Superseded by
Superseded on
Abolished on
Superseding
Language
English
File Format
PDF
Word Count
7500 words
Price(USD)
300.0
Keywords
KA 26-2025, KA/T 26-2025, KAT 26-2025, KA26-2025, KA 26, KA26, KA/T26-2025, KA/T 26, KA/T26, KAT26-2025, KAT 26, KAT26
Introduction of KA 26-2025
KA 26-2025 Safety specification for lithium-ion traction batteries applied in underground mines
1 Scope
This document specifies the technical requirements, inspection rules, transportation and storage for lithium-ion traction batteries applied in underground mines, and describes the corresponding test methods.
This document is applicable to lithium-ion traction batteries applied in underground mines.
2 Normative references
The following documents contain provisions which, through reference in this text, constitute provisions of this document. For dated references, only the edition cited applies. For undated references, the latest edition of the referenced document (including any amendments) applies.
GB 38031-2025 Electric vehicles traction battery safety requirements
3 Terms and definitions
For the purposes of this document, the following terms and definitions apply.
3.1
lithium-ion traction batteries applied in underground mines
lithium-ion batteries (hereinafter referred to as "batteries") providing power for underground mine equipment, with a rated capacity of each battery cell greater than 10Ah
3.2
battery cell
basic unit device that converts chemical energy and electric energy to each other
Note: It generally consists of the positive electrode, negative electrode, diaphragm, electrolyte, housing, terminal and pressure relief structure, and is designed to be rechargeable.
[Source: GB 38031-2025, 3.1, modified]
3.3
battery module
assembly consisting of at least 5 battery cells connected in series
Note: There may be thermal insulation material layers between the battery cells constituting the battery module.
[Source: GB 38031-2025, 3.2, modified]
3.4
rated capacity
capacity value of a battery cell or battery module declared by the manufacturer
Note: The rated capacity is usually expressed in ampere-hours (Ah).
[Source: GB 38031-2025, 3.8, modified]
3.5
practical capacity
capacity released from a fully charged battery cell or battery module under the conditions specified by the manufacturer
[Source: GB 38031-2025, 3.9, modified]
3.6
state-of-charge
percentage of capacity which may be released by the current battery cell or battery module under the discharge conditions specified by the manufacturer in respect of the practical capacity
[Source: GB 38031-2025, 3.10, modified]
3.7
housing crack
mechanical damage to the housing of battery cell or battery module due to internal or external factors, resulting in exposure or spillage of inner matter
[Source: GB 38031-2025, 3.13, modified]
3.8
leakage
phenomenon where visible matter leaks out from the battery cell or battery module
[Source: GB 38031-2025, 3.14, modified]
3.9
fire
situation that any part of the battery cell or battery module keeps burning (for a duration of greater than 1s)
Note: Visual judgment shall be made without disassembling the test object. The spark and arc discharge is not considered as combustion.
[Source: GB 38031-2025, 3.12, modified]
3.10
explosion
sudden release of energy sufficient to generate pressure waves or jets
Note: The pressure waves or jets may cause structural or physical damage to the surrounding area.
[Source: GB 38031-2025, 3.11]
3.11
thermal runaway
uncontrollable temperature rise of the battery caused by the exothermic chain reaction of the battery cell
[Source: GB 38031-2025, 3.16]
3.12
thermal propagation
successive thermal runaway of the rest battery cells caused by the thermal runaway of a battery cell in a battery module
[Source: GB 38031-2025, 3.17, modified]
3.13
end-of-charge voltage
allowable maximum voltage of battery cell or battery module during charging under the conditions specified by the manufacturer
[Source: GB 38031-2025, 3.18, modified]
Contents of KA 26-2025
Contents
Foreword i
1 Scope
2 Normative references
3 Terms and definitions
4 Symbols and abbreviations
4.1 Symbols
4.2 Abbreviations
5 Technical requirements
5.1 Basic requirements
5.2 Technical requirements for battery cell
5.3 Technical requirements for battery module
6 Test methods
6.1 Test conditions
6.2 Test preparation
6.3 Basic inspection
6.4 Test of battery cell
6.5 Test of battery module
7 Inspection rules
7.1 Inspection items
7.2 Sampling
7.3 Judgment rules
8 Transportation and storage
8.1 Transportation
8.2 Storage
