锂离子电池组件的机械和光学特性/交叉层压效应

IF 4.6 4区 化学 Q2 ELECTROCHEMISTRY Batteries Pub Date : 2023-11-01 DOI:10.3390/batteries9110541
David Sypeck, Feng Zhu, Jie Deng, Chulheung Bae
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引用次数: 0

摘要

锂离子电池的机械负荷过大会影响其性能和安全性。它们抵抗载荷的能力取决于制造它们的材料的特性以及它们是如何构造和加载的。在这里,对棱柱形锂离子电池组件进行了机械和光学表征,以检查材料形态、结构和机械负载响应的细节。对电池外壳、阳极、阴极和隔板进行了拉伸试验。用它们对成堆的阳极、阴极、分离器和软糖进行了压缩试验。在所有被测试的成分中观察到的行为有很大的不同。对阳极、阴极和隔膜进行光学检查,发现其均质性、各向异性和缺陷。大量纹理与缠绕方向平行。当受到高度压缩时,果冻卷会产生与纹理平行的明确的v形裂纹。像许多层压板一样,改变铺层结构会影响果冻卷的机械性能。为了证明这一点,通过旋转所有其他完整的组件组(阴极/分离器/阳极/分离器),重组和压缩来制造交叉层jellyroll。观察到明显不同的断裂模式和增加的抗压强度。
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Mechanical and Optical Characterization of Lithium-Ion Battery Cell Components/Cross-Ply Lamination Effect
Excessive mechanical loading of lithium-ion batteries can impair performance and safety. Their ability to resist loads depends upon the properties of the materials they are made from and how they are constructed and loaded. Here, prismatic lithium-ion battery cell components were mechanically and optically characterized to examine details of material morphology, construction, and mechanical loading response. Tensile tests were conducted on the cell case enclosure, anodes, cathodes, and separators. Compression tests on stacks of anodes, cathodes, separators, and jellyrolls were made from them. Substantially differing behaviors were observed amongst all components tested. An optical examination of the anodes, cathodes, and separators revealed homogeneities, anisotropies, and defects. Substantial texturing was present parallel to the winding direction. When highly compressed, jellyrolls develop well-defined V-shaped cracks aligned parallel to the texturing. Like many laminates, altering the lay-up construction affects jellyroll mechanical performance. To demonstrate, a cross-ply jellyroll was fabricated by rotating every other complete component set (cathode/separator/anode/separator), reassembling, and compressing. A distinctly different fracture pattern and increased compressive strength were observed.
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来源期刊
Batteries
Batteries Energy-Energy Engineering and Power Technology
CiteScore
4.00
自引率
15.00%
发文量
217
审稿时长
7 weeks
期刊最新文献
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