金属热处理 ›› 2023, Vol. 48 ›› Issue (9): 70-74.DOI: 10.13251/j.issn.0254-6051.2023.09.011

• 工艺研究 • 上一篇    下一篇

退火温度和冷变形量对动力电池壳用3003铝合金板组织和性能的影响

曾勇谋1, 刘莹1,2, 刘梓源2, 胡梦晗1, 曹宇1   

  1. 1.梧州学院 机械与资源工程学院, 广西 梧州 543002;
    2.昆明理工大学 材料科学与工程学院, 云南 昆明 650093
  • 收稿日期:2023-04-20 修回日期:2023-08-01 出版日期:2023-09-25 发布日期:2023-10-25
  • 通讯作者: 刘 莹,高级工程师,E-mail:l-y0828@qq.com
  • 作者简介:曾勇谋(1982—),男,高级技师,主要研究方向为超硬材料制品及加工、金属材料开发,E-mail:zengym003@163.com。
  • 基金资助:
    2022年梧州市科技计划(202202045);汽车航空航天人造金刚石精密刀具的研发及产业化(2020G011);2022年度广西高校中青年教师科研基础能力提升项目(2022KY0677);2022年自治区级新工科项目(“双碳”背景下面向再生资源产业的多学科协同工程实践教育体系构建与实践);梧州学院2020年校级项目(2020C010)

Effect of annealing temperature and cold deformation on microstructure and properties of 3003 aluminum alloy plate for power battery shell

Zeng Yongmou1, Liu Ying1,2, Liu Ziyuan2, Hu Menghan1, Cao Yu1   

  1. 1. School of Mechanical and Source Engineering, Wuzhou University, Wuzhou Guangxi 543002, China;
    2. School of Materials Science and Engineering, Kunming University of Science and Technology, Kunming Yunnan 650093, China
  • Received:2023-04-20 Revised:2023-08-01 Online:2023-09-25 Published:2023-10-25

摘要: 利用马弗炉、布氏硬度仪、光学显微镜、万能试验机,研究了中间退火温度和冷变形量对动力电池壳用3003铝合金板组织和性能的影响。结果表明,随着中间退火温度的升高,不同冷变形量3003铝合金板的硬度、抗拉强度和屈服强度先下降然后在达到380 ℃趋于稳定,而伸长率则相反。当退火温度≤200 ℃,材料的强度均随冷变形量增大而增强。随着退火温度的升高,3003铝合金板的导电率,先缓慢增加后基本稳定不变再快速下降。3003铝合金板的冷变形量为85%时,材料的导电率最高,而当冷变形量为95%时,材料的导电率显著变小。随着退火温度的升高,3003铝合金板的组织由细长的纤维状变为等轴细小的再结晶晶粒。冷变形量越大材料开始再结晶的温度越低,并且再结晶晶粒越细小,而再结晶完成的温度均为380 ℃。综合考虑,动力电池壳用3003铝合金板中间退火温度优选380 ℃,冷变形量为85%。

关键词: 动力电池壳, 3003铝合金板, 退火温度, 组织, 性能

Abstract: Effects of intermediate annealing temperature and cold deformation on the microstructure and properties of 3003 aluminum alloy plate for power battery shell were studied by means of muffle furnace, Brinell hardness tester, optical microscope and universal testing machine. The results show that with the increase of intermediate annealing temperature, the hardness, tensile strength and yield strength of the 3003 aluminum alloy plate with different cold deformation amounts decrease first, and then become stable at 380 ℃ and over, while the elongation is on the contrary. When the annealing temperature is at 200 ℃ and lower, both the strength of the alloy plate increases with the increase of cold deformation. With the increase of annealing temperature, the conductivity of the 3003 aluminum alloy plate increases slowly firstly, then stabilizes, and finally decreases rapidly. When the cold deformation amount is 85%, the conductivity of the alloy is the highest, while it decreases significantly when the cold deformation amount is 95%. The microstructure of the alloy plate changes from slender fiber to fine equiaxed recrystallized grains with the increase of annealing temperature. The greater the cold deformation, the lower the temperature at which the material begins to recrystallize and the finer the recrystallized grains, and the recrystallization is completed at 380 ℃. Overall, the optimal intermediate annealing temperature of the 3003 aluminum alloy plate for power battery shells is 380 ℃, and the optimal cold deformation is 85%.

Key words: power battery shell, 3003 aluminum alloy plate, annealing temperature, microstructure, properties

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