Microstructural Evolution and Mechanical Behavior of Pure Aluminum Ultra-Thin Strip under Roller Vibration

Author:

Zhang Yang1,Li Wenguang1,Hu Yijian1,Huang Zhiquan1,Peng Yan2,Chu Zhibing3

Affiliation:

1. School of Mechanical Engineering, Taiyuan University of Science and Technology, Taiyuan 030024, China

2. School of Mechanical Engineering, Yanshan University, Qinhuangdao 066004, China

3. School of Materials Science and Engineering, Taiyuan University of Science and Technology, Taiyuan 030024, China

Abstract

As the demand for lithium-ion batteries increases, higher quality requirements are being placed on pure aluminum ultra-thin strips, one of the main materials used in lithium-ion battery current collectors. Roller vibration during the rolling process of pure aluminum ultra-thin strips is unavoidable and significantly affects the quality of the strips. This paper uses 1A99 pure aluminum ultra-thin strips as raw materials and employs a controlled vibration method during the rolling process to obtain products under two conditions: stable rolling and vibrational rolling. The surface and cross-section of the aluminum strips were characterized using scanning electron microscopy (SEM), and the microstructure of the surface and cross-section was studied using electron backscatter diffraction (EBSD) technology. The results show that, during stable rolling, the surface quality of the aluminum strip is good without defects. Under vibration, obvious vibration marks appear on the surface of the aluminum strip, showing characteristics of peaks and troughs. With the increase in strain at the trough position, there is a transition from low-angle grain boundaries to high-angle grain boundaries, and the grain size is uneven at the peak and trough positions, with noticeable grain refinement at the troughs. At the same time, under the influence of vibration, the aluminum strip induces a different texture morphology from conventional rolling. Due to the different plastic strains at the peak and trough positions, a texture alternation phenomenon occurs at these positions. The tensile test results indicate that aluminum strips exhibit poor mechanical properties under roller vibration, with the reduction in mechanical performance primarily attributed to the uneven microstructure distribution caused by roller vibration.

Funder

National Natural Science Foundation of China

Key Research and Development Plan Project of Shanxi Province

Key Project of Shanxi Province’s Major Science and Technology Special Plan

Publisher

MDPI AG

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