Morphology and texture characterization of grains in laser welding of aluminum alloys

被引:7
作者
Gao, Qihan [1 ]
Jin, Cheng [1 ]
Yang, Zhibin [1 ]
机构
[1] Dalian Jiaotong Univ, Dept Welding Technol & Engn, Dalian, Peoples R China
来源
WELDING IN THE WORLD | 2021年 / 65卷 / 03期
基金
中国国家自然科学基金;
关键词
Laser welding; Finite element; Monte Carlo; Grain growth; Heat flow; Crystal orientation; GROWTH; SIMULATION;
D O I
10.1007/s40194-020-01017-8
中图分类号
TF [冶金工业];
学科分类号
0806 ;
摘要
Grain morphology and texture of welds significantly affect the properties of the corresponding joint. It is very important to determine how heat and grain growth during welding correlate. Our studies involved both experiments and multi-scale numerical modeling. The laser welding temperature distribution was studied by the macroscopic finite element method. The grain growth and morphology evolution under different heat input conditions were calculated by the Monte Carlo method at the mesoscale. The relationship between heat flow distribution and grain orientation was established. Results of electron backscattered diffraction (EBSD) were compared to those obtained by numerical modeling. The welding heat input affected the heat flow distribution and the shape of the molten pool, which, in turn, influenced grain morphology and crystal orientation.
引用
收藏
页码:475 / 483
页数:9
相关论文
共 26 条
[1]   Formation of equiaxed crystal structures in directionally solidified Al-Si alloys using Nb-based heterogeneous nuclei [J].
Bolzoni, Leandro ;
Xia, Mingxu ;
Babu, Nadendla Hari .
SCIENTIFIC REPORTS, 2016, 6
[2]  
Boumerzoug Zakaria, 2014, Applied Mechanics and Materials, V563, P7, DOI 10.4028/www.scientific.net/AMM.563.7
[3]   Study of Heat Source Calibration and Modelling for Laser Welding Process [J].
Chen, Changrong ;
Lin, Yueh-Jaw ;
Ou, Hengan ;
Wang, Yan .
INTERNATIONAL JOURNAL OF PRECISION ENGINEERING AND MANUFACTURING, 2018, 19 (08) :1239-1244
[4]   Three-dimensional cellular automaton-finite element modeling of solidification grain structures for arc-welding processes [J].
Chen, Shijia ;
Guillemot, Gildas ;
Gandin, Charles-Andre .
ACTA MATERIALIA, 2016, 115 :448-467
[5]  
Davies G. J., 1975, International Metallurgical Reviews, V20, P83, DOI 10.1179/095066075790136943
[6]   Modeling of heat transfer and fluid flow during gas tungsten arc welding of commercial pure aluminum [J].
Farzadi, A. ;
Serajzadeh, S. ;
Kokabi, A. H. .
INTERNATIONAL JOURNAL OF ADVANCED MANUFACTURING TECHNOLOGY, 2008, 38 (3-4) :258-267
[7]   Real time-temperature models for Monte Carlo simulations of normal grain growth [J].
Gao, JH ;
Thompson, RG .
ACTA MATERIALIA, 1996, 44 (11) :4565-4570
[8]   Three-dimensional simulation of grain growth in a thermal gradient with non-uniform grain boundary mobility [J].
Garcia, Anthony L. ;
Tikare, Veena ;
Holm, Elizabeth A. .
SCRIPTA MATERIALIA, 2008, 59 (06) :661-664
[9]   Multi-scale simulation of grain/sub-grain structure evolution during solidification in laser welding of aluminum alloys [J].
Geng, Shaoning ;
Jiang, Ping ;
Guo, Lingyu ;
Gao, Xuesong ;
Mi, Gaoyang .
INTERNATIONAL JOURNAL OF HEAT AND MASS TRANSFER, 2020, 149
[10]   Texture characterization of autogenous Nd:YAG laser welds in AA5182-O and AA6111-T4 aluminum alloys [J].
Hector, LG ;
Chen, YL ;
Agarwal, S ;
Briant, CL .
METALLURGICAL AND MATERIALS TRANSACTIONS A-PHYSICAL METALLURGY AND MATERIALS SCIENCE, 2004, 35A (09) :3032-3038
123