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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.
Wydawca
Rocznik
Tom
Strony
64--73
Opis fizyczny
Bibliogr. 14 poz., fig., tab.
Twórcy
autor
- Department of Production Engineering, National Institute of Technology, Tiruchirappalli 620015, Tamilnadu, India
autor
- Department of Production Engineering, National Institute of Technology, Tiruchirappalli 620015, Tamilnadu, India
autor
- Department of Production Engineering, National Institute of Technology, Tiruchirappalli 620015, Tamilnadu, India
autor
- Welding Research Institute, BHEL, Tiruchirappalli, Tamilnadu, India
autor
- School of Mechanical Engineering, SASTRA University, Thanjavur, Tamilnadu, India
Bibliografia
- 1. Hartman J.A., Beil R.J. and Hahn G.T.: Effect of copper rich regions on tensile properties of VPPA weldments of 2219-T87 aluminuim, Welding Research Supplement, 66, 1987, 73-83.
- 2. Nair B.S.., Rakesh S, Phanikumar G., Prasad Rao K, Sinha P.P.: Fracture toughness (J 1C) of electron beam welded AA2219 alloy, Materials & Design 31 (10), 2010, 4943-4950.
- 3. Arunkumar S., Rangarajan P., Devakumaran K. and Sathiya P.: Comparative studies on transverse shrinkage, mechanical and metallurgical properties of aa2219 aluminium weld joints by gas tungsten arc and gas metal arc welding processes, Defence Technology, 11, 2015, 262-268.
- 4. Malarvizhi S., Balasubramanian V.: Effect of welding processes on AA2219 aluminium alloy joint properties, Trans. Nonferrous met. Soc. China 21, 2011, 962-973.
- 5. Andrés Anca, Alberto Cardona, José Risso, Víctor, Fachinotti D.: Finite element modeling of welding processes, Applied Mathematical Modelling 35, 2011, 688–707.
- 6. Gonçalves C.V., Vilarinho L.O., Scotti A., and Guimarães G.: Estimation of heat source and thermal efficiency in GTAW process by using inverse techniques, Journal of Materials Processing Technology, 172, 2006, 42-51.
- 7. Salehi Yegaie Y., Kermanpur A., Shamanian M.: Numerical simulation and experimental investigation of temperature and residual stresses in GTAW with a heat sink process of Monel 400 plates, Journal of Materials Processing Technology 210, 2010, 1690–1701.
- 8. Gupta R.K., Ghosh B.R., Biju S., Sinha P.P.: Welding research supplement-GTAW process design for improved weld strength of AA2219, Australasian Welding Journal 54 (2), 2009, 37-48.
- 9. Ilegbusi O.J., Iguchi M., Wahnsiedler W.: Mathematical and Physical Mod-elling of Materials Processing Operations. Chapman & Hall/CRC, 2000.
- 10. Goldak J., Chakravarti A., Bibby M.: A new finite element model for welding heat sources. Metall. Trans. B 15, 1984, 299–305.
- 11. Goldak J., Akhlaghi M.: Computational Welding Mechanics. Springer Science Business Media, New York, 2005, 29–34.
- 12. Aissani Sofiane Guessasma, Abdelhalim Zitoun, Rabah Hamzaoui, David Bassir, Younes Benkedda: Three-dimensional simulation of 304L steel TIG welding process: Contribution of the thermal flux Mouloud. Applied Thermal Engineering 89, 2015, 822- 832.
- 13. Abid M., Parvez S., Nash D.H.: Effect of different electrode tip angles with tilted torch in stationary gas tungsten arc welding: A 3D simulation, International Journal of Pressure Vessels and Piping 108-109, 2013, 51-60.
- 14. Zhang Tong, Zheng Zhentai, Zhao Rui: A dynamic welding heat source model in pulsed current gas tungsten arc welding. Journal of Materials Processing Technology 213, 2013, 2329– 2338.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-d481a783-3839-4d4d-bf38-2841a9c807ae