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Comprehensively Investigating the Impact of High-Temperature Cyclic Aging on Thermal Runaway Characteristics for Lithium-Ion Batteries
Technical Paper
2022-01-7061
ISSN: 0148-7191, e-ISSN: 2688-3627
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English
Abstract
Battery safety issues have severely limited the rapid development and
popularization of electric vehicles. Harsh conditions such as high temperature
accelerate the degradation of battery safety. To address this issue, a
comprehensive analysis of the impact of high-temperature cyclic aging on
lithium-ion battery safety is carried out. In the Accelerating Rate Calorimeter,
lithium-ion batteries are performed on adiabatic thermal runaway tests and
overcharge tests. Regardless of the fully-charged state or half-charged state,
in the adiabatic thermal runaway process, high-temperature cyclic aging reduces
the characteristic temperature, and the activation energy from the self-heating
temperature to thermal runaway triggering temperature decreases. During the
overcharge process, high-temperature cyclic aging increases the voltage plateau
and the crest voltage before thermal runaway, and their corresponding charging
temperature decreases. Besides, the decrease in thermal runaway triggering
temperature is also caused by high-temperature cyclic aging during the
overcharge process. In short, high-temperature cyclic aging reduces the safety
and tolerance of lithium-ion batteries. The results provide a reference for the
optimal design of the battery safety management system.
Authors
Topic
Citation
Zhang, G., Wei, X., Chen, S., Zhu, J. et al., "Comprehensively Investigating the Impact of High-Temperature Cyclic Aging on Thermal Runaway Characteristics for Lithium-Ion Batteries," SAE Technical Paper 2022-01-7061, 2022, https://doi.org/10.4271/2022-01-7061.Also In
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