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Home > Archive>Volume 52, Issue 9, 2023 >3047-3055. DOI:10.12442/j.issn.1002-185X.20220961
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Numerical Simulation and Experiment of Dilution Ratio for Electron Beam Cladding of Inconel 718 Alloy
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Affiliation:

1.The 30th Research Institute, China Electronics Technology Group Corporation, Chengdu 611730, China;2.School of Mechanical and Electrical Engineering, Guilin University of Electronic Technology, Guilin 541004, China

Clc Number:

TG156.95

Fund Project:

National Major Generic Key Technology Fund Project (2021YFB330104)

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    Abstract:

    Based on the distribution law of temperature field in the electron beam cladding process simulated by ANSYS software, the melting depth and melting width of the cross section of cladding layer were investigated, and then the dilution ratio of cladding layer was estimated through simulation. Afterwards, the electron beam cladding experiment was conducted to measure the actual dilution ratio. Through the comparison between simulated and experimental dilution ratios, it can be verified that the dilution ratio of electron beam cladding can be obtained by simulation. The microhardness and the wear resistance of specimen after cladding were investigated. Results show that the smaller the dilution ratio, the better the quality of the cladding layer.

    Reference
    [1] Zhang Guopei, Liu Hailang, Huang Yiping et al. Hot Working Technology[J], 2017, 46(2): 27 (in Chinese)
    [2] Liu Hailang, Wang Bo, Qi Zhengwei et al. Rare Metal Materials and Engineering[J], 2018, 47(11): 3338 (in Chinese)
    [3] Xi W C, Song B X, Zhao Y et al. The International Journal of Advanced Manufacturing Technology[J], 2019, 103: 4695
    [4] Mohammed S, Zhang Z, Kovacevic R. The International Journal of Advanced Manufacturing Technology[J], 2020, 111: 2553
    [5] Zhang Qingmao, Zhong Minlin, Yang Sen et al. Heat Treatment of Metals[J], 2001, 26(8): 20 (in Chinese)
    [6] Huang Yongjun, Zeng Xiaoyan, Hu Qianwu et al. Journal of Applied Optics[J], 2008, 29(2): 248 (in Chinese)
    [7] Utu D, Brandl W, Marginean G et al. Vacuum[J], 2005, 77: 451
    [8] Tian H C, Chen X D, Yan Z H et al. Applied Physics A[J], 2019, 125(7): 485
    [9] Xu Ruihua. Research of Preparation and Simulation of Ti-Al Laser Cladded Coating Reinforced by Nano Powder on Aluminum Alloy[D]. Nanjing: Nanjing University of Aeronautics and Astronautics, 2014 (in Chinese)
    [10] Wu Yanpin, Zhang Jing. Foundry Technology[J], 2014, 35(12): 2903 (in Chinese)
    [11] Wu Ping. Numerical Simulation of Laser Welding and Brazing of Aluminum Alloy-Galvanized Steel and Optimization of Process Parameters[D]. Changsha: Hunan University, 2012 (in Chinese)
    [12] Lu Jinbin, Meng Pu, Peng Zhuqin et al. Journal of Zhongyuan University of Technology[J], 2009, 20(5): 10 (in Chinese)
    [13] Li Jianzhong. Preparation and Simulation Research of Al/Ti Laser Cladding Coating on 7050 Aluminum Alloy[D]. Nanjing: Nanjing University of Aeronautics and Astronautics, 2015 (in Chinese)
    [14] Yu Haihua. Study on the Surface Remelting of Cu-Cr Alloy Contact with High Energy Electron Beam[D]. Guilin: Guilin University of Electronic Technology, 2015 (in Chinese)
    [15] Yao Dengzhi. Numerical Simulation Research on Laser Cladding Inconel718 Alloy[D]. Lanzhou: Lanzhou University of Technology, 2019 (in Chinese)
    [16] Fen Jing, Zhang Bing, Jiang Qiutong et al. China Southern Agricultural Machinery[J], 2020, 51(5): 37 (in Chinese)
    [17] Zhong Song. Simulation and Experimental Research on Temperature Field of Cr12MoV Die Steel Electron Beam Cladding[D]. Guilin: Guilin University of Electronic Technology, 2014 (in Chinese)
    [18] Jiao Shaobin. Study on Preparation Process and Wear Resistance of SiC Coating Cladding on Die Steel Surface[D]. Xiangtan: Xiangtan University, 2012 (in Chinese)
    [19] Zhao Kaihua, Sun Ronglu, Niu Wei et al. Optical Technique[J], 2009, 35(2): 232 (in Chinese)
    [20] Feng Jun, Jin Fanya, Tong Honghui et al. Hot Working Technology[J], 2015, 44(4): 184 (in Chinese)
    [21] Li Yan. Laser Cladding Composite Coating of Aluminum Bronze Matrix on Magnesium Alloy Surface[D]. Taiyuan: Taiyuan University of Technology, 2011 (in Chinese)
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Get Citation

[Xu Guangtao, Yang Wei, Liu Hailang, Peng Zhiguo, Liu Jian. Numerical Simulation and Experiment of Dilution Ratio for Electron Beam Cladding of Inconel 718 Alloy[J]. Rare Metal Materials and Engineering,2023,52(9):3047~3055.]
DOI:10.12442/j. issn.1002-185X.20220961

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History
  • Received:December 08,2022
  • Revised:March 27,2023
  • Adopted:April 07,2023
  • Online: September 22,2023
  • Published: September 21,2023

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