Simulation of Microstructure and Grain Size in Welding Heat Affected Zone Using Monte Carlo Method

被引:1
|
作者
Zhang, Shixing [1 ]
Cai, Gangyi [1 ]
机构
[1] Henan Univ Technol, Sch Mech & Elect Engn, Zhengzhou 450007, Peoples R China
来源
ADVANCED ENGINEERING MATERIALS, PTS 1-3 | 2011年 / 194-196卷
关键词
Monte Carlo Simulation; Welding Heat Affected Zone; Microstructure; Grain Size; GROWTH; STEEL;
D O I
10.4028/www.scientific.net/AMR.194-196.121
中图分类号
T [工业技术];
学科分类号
08 ;
摘要
In this paper, modeling, procedure and algorithm using Monte Carlo (MC) technology were investigated respectively to simulate grain size and microstructure. First, two different kinetic model were defined by both experimental and statistics method. Then the procedure and algorithm were worked out based on MC technology. Thirdly, the grain growth process in HAZ was simulated, which has great influence on grain growth in HAZ. The result of the simulation demonstrates the grain growth process dynamically. Good agreement between MC simulation results and the experimental results was obtained which can provide a reliable evidence for evaluating the welding craft and the weldability.
引用
收藏
页码:121 / 126
页数:6
相关论文
共 50 条
  • [31] On the Monte Carlo simulation of normal grain growth
    School of Materials Science and Engineering, Shandong University, Jinan, 250061, China
    Acta Metal. Sin., 2008, 4 (282-288): : 282 - 288
  • [32] A Monte Carlo model for 3D grain evolution during welding
    Rodgers, Theron M.
    Mitchell, John A.
    Tikare, Veena
    MODELLING AND SIMULATION IN MATERIALS SCIENCE AND ENGINEERING, 2017, 25 (06)
  • [33] Validating vehicle routing zone construction using Monte Carlo simulation
    Bard, Jonathan F.
    Jarrah, Ahmad I.
    Zan, Jing
    EUROPEAN JOURNAL OF OPERATIONAL RESEARCH, 2010, 206 (01) : 73 - 85
  • [34] Effect of Ni addition on toughness and microstructure evolution in coarse grain heat affected zone
    Yang You
    Chengjia Shang
    Sundaresa Subramanian
    Metals and Materials International, 2014, 20 : 659 - 668
  • [35] Simulation of Grain Growth in Porous Alumina Ceramics by Modified Monte Carlo Method
    Shen, Qianqian
    Xue, Jinbo
    Wang, Shuhua
    Liu, Xuguang
    Jia, Husheng
    JOURNAL OF COMPUTATIONAL AND THEORETICAL NANOSCIENCE, 2013, 10 (06) : 1483 - 1489
  • [36] The Influence of the Second Phase on the Microstructure Evolution of the Welding Heat-Affected Zone of Q690 Steel with High Heat Input
    Qi, Huan
    Pang, Qihang
    Li, Weijuan
    Bian, Shouyuan
    MATERIALS, 2024, 17 (03)
  • [37] Modeling of Grain Structure and Heat-Affected Zone in Laser Surface Melting Process
    Jabbareh, Mohammad Amin
    Assadi, Hamid
    METALLURGICAL AND MATERIALS TRANSACTIONS B-PROCESS METALLURGY AND MATERIALS PROCESSING SCIENCE, 2013, 44 (04): : 1041 - 1048
  • [38] Monte Carlo simulation of grain growth in textured metals using anisotropic grain boundary mobilities
    Mehnert, K
    Klimanek, P
    COMPUTATIONAL MATERIALS SCIENCE, 1996, 7 (1-2) : 103 - 108
  • [39] Re-analysis on grain size distribution during normal grain growth based on Monte Carlo simulation
    Xiaoyan, S
    Guoquan, L
    Nanju, G
    SCRIPTA MATERIALIA, 2000, 43 (04) : 355 - 359
  • [40] GRAIN BOUNDARY MIGRATION IN THIN FILMS USING MONTE CARLO METHOD
    Di Prinzio, C. L.
    Achaval, P. I.
    Stoler, D.
    Aguirre Varela, G.
    ANALES AFA, 2020, 31 (01): : 7 - 12
12345