热电偶
材料科学
短路
电阻器
热失控
热传导
热的
机械
离子
电压
化学
热力学
电气工程
复合材料
物理
工程类
有机化学
功率(物理)
电池(电)
作者
Shan Huang,Zhijia Du,Qian Zhou,Kent Snyder,Siyi Liu,Guangsheng Zhang
标识
DOI:10.1149/1945-7111/ac1d7b
摘要
Here we report in situ measurement of temperature distributions in a 2.5-Ah pouch format Li-ion cell during internal short circuit (ISC) and thermal runaway. The ISC and thermal runaway were triggered by nail penetration. The local temperatures were measured by embedded K type micro thermocouples in the middle layer of the experimental Li-ion cell. Highly non-uniform temperature distributions were observed during ISC and thermal runaway as compared with those during constant current discharging and external short circuit. The in situ measurement also captured details of how thermal runaway started from the ISC location and spread to the entire cell in a few seconds. Moreover, the comparison between ISC without thermal runaway and ISC with thermal runaway suggests that internal short circuit resistance plays a critical role in the risk of thermal runaway.
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