MATERIALS AND SUSTAINABLE DEVELOPMENT--GREEN MANUFACTURING AND PROCESSING OF MATERIALS |
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Thermal Process of Additive Manufacturing Double-electrode Micro-plasma Arc Welding |
YU Shurong1, CHENG Nengdi1, HUANG Jiankang2, LI Nan2, FAN Ding2
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1 School of Mechanical and Electrical Engineering, Lanzhou University of Technology, Lanzhou 730050 2 State Key Laboratory of Advanced Processing and Recycling of Non-Ferrous Metals, Lanzhou University of Technology, Lanzhou 730050 |
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Abstract The thermal physical process of bypass coupling micro plasma arc welding in additive manufacturing process was studied. Concretely, the thermal cycle curves were measured by K type thermocouple at various welding speeds, bypass currents and stacking sequences in stacking forming. And the influence of each parameter on the thermal process was analyzed. The results show that the heat input of the base metal declines with the increase of welding speed. In appropriate range of bypass current, enlarging the bypass current can reduce the heat input of the base metal. Meanwhile, the unidirectional stacking shows better heat dissipation than reciprocating stacking. The control of thermal process of bypass coupling micro plasma arc welding in additive manufacturing can be realized by precise control of bypass current and reasonable plan of stacking path.
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Published: 24 January 2019
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Fund:This work was financially supported by the Natural Science Foundation of China (51665034). |
About author:: Shurong Yu graduated from Harbin Institute of Technology in 1991, and was assigned to serve in Lanzhou University of Technology in the same year. During this period, she obtained the master degree from Lanzhou University of Technology in 2000 and the doctor degree in 2007. She has published more than 40 journal papers as the first author, applied 4 national invention patents and 2 of them were authorized. The main research direction includes: material laser processing; Wire Arc Additive Manufacture(WAAM), welding process control and by-pass coupling arc welding technology and so on. More than 10 scientific research projects have been accomplished by her, including the National Science Foundation project and the international cooperation project of the Ministry of Education. She has guided over 20 master’s degree students and over 100 undergraduates. |
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Geng H B, Xiong J T, Huang D, et al. Welding & Joining,2015(11),17(in Chinese).耿海滨,熊江涛,黄丹,等.焊接,2015(11),17.2 Mughal M P, Fawad H, Mufti R. Acta Mechanica,2006,183(1-2),61.3 Mughal M P, Fawad H, Mufti R. Numerical Heat Transfer A,2006,49(1),95.4 Mughal M P, Fawad H, Mufti R A. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science,2006,220(6),875.5 Mughal M P, Fawad H, Mufti R A, et al. Modelling Simulation Materials Science and Engineering,2005,13,1187.6 Zhao Huihui, Zhang Guangjun, Fan Qing, et al. Transactions of The China Welding Institution,2011,32(2),45(in Chinese).赵慧慧,张广军,范庆,等.焊接学报,2011,32(2),45.7 Zhao H H, Li H C, Zhang G J, et al. Review on Advanced Material Science,2013,33,402.8 Li K H, Chen J S, Zhang Y M. Welding Journal,2007,86(8),231.9 Li K H, Zhang Y M, Xu P, et al. Welding Journal,2008,87(3),57.10 Huang J K, Yang M H, Li T, et al. Journal of Shanghai Jiaotong University,2016,50(15),1906(in Chinese).黄健康,杨茂鸿,李挺,等.上海交通大学学报,2016,50(15),1906.
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