This paper explores the influence of the processing parameters setting on the aluminum alloy sheet rolling process with the help of finite element simulation, and mainly carries out the design and numerical simulation process of aluminum alloy sheet rolling processing, and carries out the manufacturing production and processing process from the way of finite element analysis, optimizes the processing parameters, improves the yield and production and processing efficiency, and thus brings great economic value.

Haijie Hong, Yongxian Ma. Finite Element Simulation Study Based on Aluminum Alloy Sheet Rolling. Academic Journal of Engineering and Technology Science (2022) Vol. 5, Issue 5: 17-21. https://doi.org/10.25236/AJETS.2022.050504.

[1] Zhong Li. Study on the product strategy of special aluminum alloy sheet and strip of Northeast Light Alloy Co. Harbin Institute of Technology, 2009. Synthesis and properties of glutathione-responsive biodegradable polyurethane [D]. Shanghai Jiaotong University, 2013.

[2] Ding Y, Hu QS. An overview of surface treatment development-ion infiltration metal plating technology [J]. Metal Heat Treatment, 1995(9):3.

[3] Gao Yuqui, Tao Xuefei. Effect of high speed impact surface treatment on mechanical properties and organization of metallic materials [J]. Explosion and Impact, 2021.

[4] Lu Lu, Wang Zhaoxu, Wang Fuzhong, et al. Advances in plasticity finite element method for simulation of tissue evolution in metal rolling process [J]. Materials Guide, 2013(3): 5.

[5] Yamanaka A, Nemoto N, Kuwabara T, Numerical Biaxial Tensile and Tension-Compression Tests of Aluminum Alloy Sheet Using Crystal Plasticity Finite Element Method [J]. Materials science forum, 2018, 920:187-192.

[6] Zhu G, Kang Y, Chen W, et al. 3D Thermal Mechanical Coupled Elasto-plastic Finite Element Analysis in the Whole Rolling Process of H-beam [J]. 2007.