Equivalent Mechanical Model for Cylindrical Lithium-ion Battery Under Mechanical Abuse and Soft Short-circuit Failure Warning

Wang Wenwei, Li Yiding, Lin Cheng, Zhang Zhipeng, Zuo Fenghao
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Abstract

Based on the analysis of the experimental data for cylindrical lithium-ion battery under mechanical abuse, an equivalent mechanical model of spring-damping parallel unit connects a damping unit in series is proposed in this paper. By combining the equivalent mechanical model with the Crushable-Foam material model, the experiments and simulations on the flat plate tests, rigid rod tests and hemispherical punch tests are performed, the prediction error of the simulation model to the failure displacement is less than 11%. After that, the equivalent mechanical model is analyzed, a soft short-circuit failure prediction model is proposed. A failure warning system is designed according to the prediction model, and the warning system can prompt the soft short-circuit failure of the battery in time and has a certain safety margin.
圆柱形锂离子电池在力学滥用和软短路故障预警下的等效力学模型
通过对圆柱形锂离子电池力学滥用实验数据的分析,提出了弹簧-阻尼并联单元串联阻尼单元的等效力学模型。将等效力学模型与可破碎泡沫材料模型相结合,进行了平板试验、刚性杆试验和半球形冲压试验的试验与仿真,仿真模型对破坏位移的预测误差小于11%。在此基础上,分析了等效力学模型,提出了软短路故障预测模型。根据预测模型设计了故障预警系统,该预警系统能够及时提示蓄电池的软短路故障,并具有一定的安全裕度。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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