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锂电池极片辊压过程力学行为与结构

谢欣兵杨凯悦杜晓钟

储能科学与技术2024，Vol.13Issue(5)：1699-1706,8.

储能科学与技术2024，Vol.13Issue(5)：1699-1706,8.DOI:10.19799/j.cnki.2095-4239.2023.0954

锂电池极片辊压过程力学行为与结构

Mechanical behavior and structure of lithium-ion battery electrode calendering process

谢欣兵 ¹杨凯悦 ¹杜晓钟²

作者信息

1. 太原科技大学机械工程学院,山西太原 030024
2. 太原科技大学机械工程学院,山西太原 030024||太原科技大学能源与材料工程学院,山西太原 030024
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摘要

Abstract

Calendering is a crucial step in the electrode preparation process for lithium-ion batteries,significantly impacting the battery's consistency and safety.Given that the electrode is a composite material comprising a current collector(metal)and a coating(nonmetal),the complexity of the calendering deformation mechanism is heightened.In this study,we employed the discrete element method(DEM)model to characterize the coating component of the cathode electrode in a lithium battery,simulating the electrode calendering process numerically.Cathode electrodes were prepared,and experiments with varying calendering degrees were conducted.The congruence between the numerical simulations and experimental outcomes validates the model's accuracy.This research delves into the electrode's morphological evolution throughout the calendering process,unveiling the fundamental nature of calendering deformation.It also quantifies the load at the interface between the coating and the current collector during calendering,providing an in-depth interface analysis.The findings indicate that the DEM model can effectively simulate the microstructural evolution and actual mechanical behavior of the electrode.As the rolling reduction increases,the maximum stress on the current collector exhibits a linear rising trend.The enhanced compactness among the active particles in the coating is identified as the primary cause of calendering deformation.Some active particles in the coating become embedded in the current collector's surface,causing noticeable plastic deformation and stress concentration.This investigation offers innovative research perspectives and valuable insights for further exploration of the electrode calendering process.

关键词

锂电池/极片辊压/离散元法

Key words

lithium-ion battery/electrode calendaring/discrete element method

分类

动力与电气工程

引用本文复制引用

谢欣兵,杨凯悦,杜晓钟..锂电池极片辊压过程力学行为与结构[J].储能科学与技术,2024,13(5):1699-1706,8.

基金项目

山西省自然科学基金项目(202103021224273),山西省国家留学基金项目(2021137). （202103021224273）

储能科学与技术

OA北大核心CSTPCD

ISSN：2095-4239

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