Coupled Field Analysis of LiIon Battery Nail Test

Coupled Field Analysis of LiIon Battery Nail Test

Stať ve sborníku v databázi WoS či Scopus

Internal short-circuit is the most dangerous abusive condition for Li-ion batteries and has been the root cause for several catastrophic accidents involving Li-ion batteries in recent years. Large-format Li-ion batteries are particularly vulnerable to internal short-circuits because of high energy content. Nail penetration test is commonly used to study the internal short-circuits, but the test results usually have poor reproducibility and offer limited insight. This paper deals with a possibility of numerical simulation of internal short circuit test using FEM.

Internal short-circuit is the most dangerous abusive condition for Li-ion batteries and has been the root cause for several catastrophic accidents involving Li-ion batteries in recent years. Large-format Li-ion batteries are particularly vulnerable to internal short-circuits because of high energy content. Nail penetration test is commonly used to study the internal short-circuits, but the test results usually have poor reproducibility and offer limited insight. This paper deals with a possibility of numerical simulation of internal short circuit test using FEM.

lithium ion batteries, nail test, simulation

lithium ion batteries, nail test, simulation

VYROUBAL, P.; KAZDA, T.

2018

11.09.2017

Brno Universtiy of Technology

Brno

978-80-214-5529-0

Advanced Batteries Accumulators and Fuel Cells – 18th ABAF

18

84

86

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