TRANSIENT FINITE ELEMENT SIMULATION AND MICROSTRUCTURE EVOLUTION OF AA2219 WELD JOINT USING GAS TUNGSTEN ARC WELDING PROCESS

Sivaraman Arunkumar; Anup Kulkarni Shrikrishna; Sathiya Paulraj; Kandasami Devakumaran; Subramanian Ramesh Kumar

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TRANSIENT FINITE ELEMENT SIMULATION AND MICROSTRUCTURE EVOLUTION OF AA2219 WELD JOINT USING GAS TUNGSTEN ARC WELDING PROCESS

机译：气体钨极氩弧焊过程AA2219焊接接头的瞬态有限元模拟和组织演变

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In this study we focus on finite element simulation of gas tungsten arc welding (GTAW) of AA2219 aluminum alloy and the behavioral of the microstructure before and after weld. The simulations were performed using commercial COMSOL Multiphysics software. The thermal history of the weld region was studied by initially developed mathematical model. A sweep type meshing was used and transient analysis was performed for one welding cycle. The highest temperature noted was 3568 °C during welding. The welding operation was performed on 200×100×25 mm plates. Through metallurgical characterization, it was observed that a fair copper rich cellular (CRC) network existed in the weld region. A small amount of intermetallic compounds like Al2Cu is observed through the XRD pattern.

机译：在这项研究中，我们重点研究AA2219铝合金的钨极气体保护弧焊（GTAW）的有限元模拟以及焊接前后的微观组织行为。使用商业COMSOL Multiphysics软件进行了仿真。通过最初开发的数学模型研究了焊接区域的热历史。使用扫掠式网格划分，并在一个焊接周期内进行了瞬态分析。焊接期间发现的最高温度为3568°C。在200×100×25mm的板上进行焊接操作。通过冶金表征，观察到在焊接区域中存在公平的富铜蜂窝（CRC）网络。通过XRD图谱观察到少量的金属间化合物，如Al2Cu。

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《Advances in Science and Technology Research Journal》 |2016年第31期|共10页
作者
Sivaraman Arunkumar; Anup Kulkarni Shrikrishna; Sathiya Paulraj; Kandasami Devakumaran; Subramanian Ramesh Kumar;
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1. Comparative study on transverse shrinkage, mechanical and metallurgical properties of AA2219 aluminium weld joints prepared by gas tungsten arc and gas metal arc welding processes [J] . S.ARUNKUMAR, P.RANGARAJAN, K.DEVAKUMARAN, 兵工学报（英文版） . 2015,第003期

机译：气体钨极电弧焊和气体金属电弧焊工艺制备的AA2219铝焊缝的横向收缩，力学和冶金性能的比较研究
2. Study on the microstructure, mechanical properties and corrosion behaviour of S355JR/316L dissimilar welded joint prepared by gas tungsten arc welding multi-pass welding process [J] . Huang B. -S., Yang J., Lu D-H., Science and Technology of Welding and Joining . 2016,第5期

机译：气体钨极弧焊多道次焊接工艺制备的S355JR / 316L异种焊接接头的组织，力学性能和腐蚀行为的研究
3. Investigation of microstructure evolution after post-weld heat treatment and cryogenic fracture toughness of the weld metal of AA2219 VPTIG joints [J] . Lin Yi Tong, Wang Ming Chao, Zhang Yu, Materials & design . 2017,第jana期

机译：AA2219 VPTIG接头焊后热处理后的组织演变和焊缝金属的低温断裂韧性研究
4. Transient thermal finite element simulation of moving gas tungsten arc welding on AISI 4340 aeronautical steel [C] . N. V. Dhandapani, V. Dhinakaran, K. Krishnakumar, International Conference on Recent Trends in Mechanical and Materials Engineering . 2020

机译：AISI 4340 AIRAIC钢移动气体钨弧焊的瞬态热有限元仿真
5. A comprehensive study of gas metal arc welding process: Finite element simulations and experiments. [D] . Davoud, Mohammad Shaikh. 1999

机译：气体保护金属电弧焊工艺的全面研究：有限元模拟和实验。
6. Temperature and Microstructure Evolution in Gas Tungsten Arc Welding Wire Feed Additive Manufacturing of Ti-6Al-4V [O] . Corinne Charles Murgau, Andreas Lundbäck, Pia Åkerfeldt, 2019

机译：Ti-6Al-4V钨极氩弧焊丝进料增材制造中的温度和组织演变
7. Comparative study on transverse shrinkage, mechanical and metallurgical properties of AA2219 aluminium weld joints prepared by gas tungsten arc and gas metal arc welding processes [O] . S. Arunkumar, P. Rangarajan, K. Devakumaran, 2015

机译：燃气钨极和气体保护金属电弧焊aa2219铝焊接头横向收缩，力学和冶金性能对比研究

TRANSIENT FINITE ELEMENT SIMULATION AND MICROSTRUCTURE EVOLUTION OF AA2219 WELD JOINT USING GAS TUNGSTEN ARC WELDING PROCESS

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