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液态模锻2A50铝合金轮毂宏观缺陷?微观组织和力学性能研究()

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常州大学学报(自然科学版)[ISSN:2095-0411/CN:32-1822/N]

卷:: 第33卷
期数:: 2021年06期

页码:: 8-16

栏目:: 材料科学与工程

出版日期:: 2021-11-28

文章信息/Info

Title:: Study on Macroscopic Defects, Microstructure and Mechanical Properties of 2A50 Aluminum Alloy Wheel Hub by Molten Metals Die Forging

文章编号:: 2095-0411(2021)06-0008-09

作者:: 武彤; 邢书明; 刘鑫; (北京交通大学机械与电子控制工程学院,北京100044)

Author(s):: WU Tong; XING Shuming; LIU Xin; (School of Mechanical, Electronic and Control Engineering, Beijing Jiaotong University, Beijing 100044, China)

关键词:: 液态模锻; 2A50铝合金; 负重轮轮毂; 宏观缺陷; 微观组织; 力学性能

Keywords:: molten metals die forging; 2A50 aluminum alloy; wheel hub; macroscopic defects; microstructure; mechanical property

分类号:: TG 316.3

DOI:: 10.3969/j.issn.2095-0411.2021.06.002

文献标志码:: A

摘要:: 使用液态模锻工艺生产2A50铝合金轮毂。采用光学金相显微镜, 电子拉伸试验机等手段, 对不同液锻机压力下的2A50轮毂宏观缺陷、微观组织及力学性能进行了研究。结果表明: 随着压力的增大, 轮毂直臂上沿冷隔白层厚度与拐角处鼓泡直径均有所减小; 2A50合金微观组织以初生α-Al为基体, 铸态组织有着典型的细小树枝晶状组织形貌, 并伴随有较为粗大的等轴树枝晶组织形貌, 热处理组织主要呈等轴晶形貌。当压力由80 MPa增至118 MPa时, 底部与直壁处的铸态与热处理组织中初生α-Al等轴晶平均尺寸减小幅度37～52 μm; 轮毂底部铸态拉伸试棒抗拉强度、断后伸长率与压力无明显相关性, 当压力由80 MPa增至118 MPa时, 底部与直壁处热处理拉伸试棒抗拉强度分别提升13.3 MPa与18 MPa, 断后延伸率分别提升1.43%与2%。

Abstract:: 2A50 aluminum alloy wheel hub was produced by molten metals die forging(MMDF for short). The macroscopic defects, microstructure and mechanical properties of 2A50 wheel hub under different forging pressure were studied by means of optical microscope and electronic tensile testing machine. The results show that the white layer thickness of the cold barrier along the straight arm and the diameter of the bubble at the corner of the hub decreased with the increase of the pressure. The microstructure of 2A50 alloy is composed of primary α-Al matrix. The as-cast microstructure has typical fine dendritic morphology, accompanied by coarse equiaxed dendritic morphology. The heat-treated microstructure mainly presents equiaxed crystal morphology. After the pressure increased from 80 MPa to 118 MPa, the average size of primary α-Al equiaxed grains at the bottom and straight arm decreased by 37—52 μm. There is no obvious correlation between the tensile strength and the elongation after fracture of the as-cast tensile test bar at the bottom of hub and the pressure. After the pressure increased from 80 MPa to 118 MPa, the tensile strength of the heat-treated tensile test bars at the bottom and straight arm increased by 13.3 MPa and 18 MPa respectively, the elongation after fracture increases by 1.43% and 2% respectively.

参考文献/References:

[1]宾仕博, 邢书明, 田龙梅, 等. 液态模锻工艺参数对AlSi₉Cu₃强度和塑性的影响[J]. Transactions of Nonferrous Metals Society of China, 2013, 23(4): 977-982.
[2]武冬, 王俊义, 刘洪军. A356铝合金液态模锻过程的组织偏析[J]. 热加工工艺, 2015, 44(9): 100-102.
[3]ZHANG Y, WU G H, LIU W C, et al. Effects of processing parameters and Ca content on microstructure and mechanical properties of squeeze casting AZ91-Ca alloys[J]. Materials Science and Engineering: A, 2014, 595: 109-117.
[4]魏静. 2A50铝合金负重轮挤压铸造数值模拟优化及试验研究[D]. 哈尔滨: 哈尔滨工业大学, 2011: 8-9.
[5]ZHANG C, DU Y, LIU S H, et al. Microstructure and thermal conductivity of the as-cast and annealed Al-Cu-Mg-Si alloys in the temperature range from 25 ℃ to 400 ℃[J]. International Journal of Thermophysics, 2015, 36(10/11): 2869-2880.
[6]英卫东, 王贵福, 刘洋, 等. 提高2A50铝合金轮毂模锻件力学性能的热处理工艺研究[J]. 轻合金加工技术, 2006, 34(4): 48-51.
[7]侯立群, 乔小蒙, 李素梅, 等. 挤压铸造2A50合金不同固溶处理状态的显微组织和偏析缺陷[J]. 兵器材料科学与工程, 2014, 37(6): 46-50.
[8]王健, 侯立群, 齐志望, 等. 挤压铸造2A50铝合金的热处理工艺[J]. 特种铸造及有色合金, 2010, 30(4): 339-341, 288.
[9]CHEN G, DUZ M, CHENG Y S. Effect of mechanical conditions on the microstructures and mechanical properties of thixoformed Al-Cu-Si-Mg alloy[J]. Materials & Design, 2012, 35: 774-781.
[10]余国红, 熊伟. 薄壁件铸造过程中的缺陷及控制方法[J]. 世界有色金属, 2019(20): 253-254.
[11]王荣, 王维昌. 铸件浇不足和冷隔缺陷的成因及防止措施[J]. 金属加工(热加工), 2008(17): 60-62.
[12]章立钢. Al-Cu-RE合金相图及其微观组织演化研究[D]. 长沙: 中南大学, 2010: 24-25.
[13]胡汉起. 金属凝固原理[M]. 2版. 北京: 机械工业出版社, 2000: 59-60.
[14]钟群鹏, 赵子华. 断口学[M]. 北京: 高等教育出版社, 2006: 179-180.

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备注/Memo

备注/Memo:: 收稿日期:2021-06-13。
作者简介:武彤(1995—), 男, 辽宁本溪人, 博士生。通信联系人: 邢书明(1962—), E-mail: smxing@bjtu.edu.cn

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