PSI - Issue 61

Jignesh Nakrani et al. / Procedia Structural Integrity 61 (2024) 188–194 Jignesh Nakrani et al. / Structural Integrity Procedia 00 (2019) 000 – 000

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offer valuable insights into the fatigue behavior of dissimilar joints and have implications for optimizing weld paths to maximize fatigue life. Acknowledgments The authors acknowledge the funding received from the Department of Biotechnology, New Delhi, and the IITB Monash Research Academy. References Aghajani Derazkola, H. and Khodabakhshi, F., 2019. Intermetallic compounds (IMCs) formation during dissimilar friction-stir welding of AA5005 aluminum alloy to St-52 steel: Numerical modeling and experimental study. The International Journal of Advanced Manufacturing Technology, 100, pp.2401-2422. Chen, T., 2009. Process parameters study on FSW joint of dissimilar metals for aluminum – steel. Journal of materials science, 44, pp.2573-2580. Cortés, R., Rodríguez, N.K., Ambriz, R.R., López, V.H., Ruiz, A. and Jaramillo, D., 2019. Fatigue and crack growth behavior of Inconel 718 – AL6XN dissimilar welds. Materials Science and Engineering: A, 745, pp.20-30. Eyvazian, A., Hamouda, A., Tarlochan, F., Derazkola, H.A. and Khodabakhshi, F., 2020. Simulation and experimental study of underwater dissimilar friction-stir welding between aluminium and steel. Journal of Materials Research and Technology, 9(3), pp.3767-3781. Ghosh, M., Gupta, R.K. and Husain, M.M., 2014. Friction stir welding of stainless steel to Al alloy: effect of thermal condition on weld nugget microstructure. Metallurgical And Materials Transactions A, 45, pp.854-863. Habibnia, M., Shakeri, M., Nourouzi, S. and Givi, M.B., 2015. Microstructural and mechanical properties of friction stir welded 5050 Al alloy and 304 stainless steel plates. The International Journal of Advanced Manufacturing Technology, 76, pp.819-829. Kalnaus, S., Fan, F., Vasudevan, A.K. and Jiang, Y., 2008. An experimental investigation on fatigue crack growth of AL6XN stainless steel. Engineering Fracture Mechanics, 75(8), pp.2002-2019. Murugan, B., Thirunavukarasu, G., Kundu, S., Kailas, S.V. and Chatterjee, S., 2018. Interfacial microstructure and mechanical properties of friction stir welded joints of commercially pure aluminum and 304 stainless steel. Journal of Materials Engineering and Performance, 27, pp.2921-2931. Okane, M., Shitaka, T., Ishida, M., Chaki, T., Yasui, T. and Fukumoto, M., 2017, May. Fatigue properties of butt welded aluminum alloy and carbon steel joints by friction stirring. In Journal of Physics: Conference Series (Vol. 843, No. 1, p. 012040). IOP Publishing. Pankaj, P., Tiwari, A. and Biswas, P., 2022. Impact of varying tool position on the intermetallic compound formation, metallographic/mechanical characteristics of dissimilar DH36 steel, and aluminum alloy friction stir welds. Welding in the World, pp.1-33. Paris, P. and Erdogan, F., 1963. A critical analysis of crack propagation laws. Uematsu, Y., Kakiuchi, T., Ogawa, D. and Hashiba, K., 2020. Fatigue crack propagation near the interface between Al and steel in dissimilar Al/steel friction stir welds. International Journal of Fatigue, 138, p.105706.