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Detailed computational modeling of crack patterns of siliconbased anode sheet in lithium-ion batteries upon mechanical stress

Yuzuki Kawashima Kazuma Ogata Yuto Shibayama Aoi Takagi Akio Yonezu Jun Xu

Energy Materials and Devices2025，Vol.3Issue(3)：P.3-13,11.

Energy Materials and Devices2025，Vol.3Issue(3)：P.3-13,11.DOI:10.26599/EMD.2025.9370054

Detailed computational modeling of crack patterns of siliconbased anode sheet in lithium-ion batteries upon mechanical stress

Yuzuki Kawashima ¹Kazuma Ogata ¹Yuto Shibayama ¹Aoi Takagi ¹Akio Yonezu ¹Jun Xu²

作者信息

1. Department of Precision Mechanics,Faculty of Science and Engineering,Chuo University,Tokyo 1128551,Japan
2. Department of Mechanical Engineering,University of Delaware,Newark,DE 19716,USA Energy Mechanics and Sustainability Laboratory(EMSLab),University of Delaware,Newark,DE 19716,USA
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摘要

关键词

lithium-ion battery(LIB)/microcracking/crack criteria/finite element method(FEM)/Si-based anode/binder

分类

信息技术与安全科学

引用本文复制引用

Yuzuki Kawashima,Kazuma Ogata,Yuto Shibayama,Aoi Takagi,Akio Yonezu,Jun Xu..Detailed computational modeling of crack patterns of siliconbased anode sheet in lithium-ion batteries upon mechanical stress[J].Energy Materials and Devices,2025,3(3):P.3-13,11.

基金项目

support of JSPS KAKENHI(Grant No.21H01217)from the Japan Society for the Promotion of Science. （Grant No.21H01217）

Energy Materials and Devices

ISSN：3005-3315

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