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Asian Journal of Research in Social Sciences and Humanities
Year : 2017, Volume : 7, Issue : 3
First page : ( 438) Last page : ( 448)
Online ISSN : 2249-7315.
Article DOI : 10.5958/2249-7315.2017.00181.2

Fracture Behavior and Interface Microstructure Studies on Ti/Al Sheet Metal Joint using Laser Beam Welding

Kalaiselvan K.*, Elango A.**, Nagarajan N M***, Parameshwari G.****

*Department of Mechanical Engineering, Meenakshi Ramasamy Engineering College, Ariyalur, Tamilnadu, India. kalaiesanai@gmail.com

**Vice Principal, Alagappa Chettiyar College of Engineering and Technology, Karaikudi, Tamilnadu, India. elango.arum69@gmail.com

***Professor, Department of Mechanical Engineering, National Institute of Technology, Calicut, Kerala, India. dr.nmnagarajan@gmail.com

****Engineer trainee, L.G. Balakrishnan & bros. Ltd, Pongalur, Tamilnadu. parameshwariganesan95@gmail.com

Online published on 23 March, 2017.

Abstract

The development of sheet metal welding process requires a comprehensive understanding of interface microstructures and fracture behavior in dissimilar metal pair using laser beam welding. Many metal pairs suffer from significant intermetallic phase formation during welding. The fracture path of the joints is mainly decided by the microstructure of the weld. In this investigation, Titanium Grade5 (Ti) and AA2024 (Al) alloy sheets are joined using laser beam welding and fracture morphologies are analyzed in different regions of the weld joint. From literature survey, it is observed that most of the studies were carried out in Ti-Al dissimilar welding joint focusing only from the Al side. In this work, laser beam is focused both from Ti as well as Al sides to study melt flow on weldment and the results especially fracture behavior and microstructure are reported. Also, SEM analyses at different magnifications are observed for clarity. Test results reveal that the dissimilar metal joint fails in brittle mode due to intermetallic compounds abundantly formed on weldment. Also welding on dissimilar joint focusing laser beam from Ti side is recommended instead of Al side based on interface microstructure and fracture analysis.

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Keywords

NdYAG laser, Interface, Fracture, SEM.

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