Effect of Carbonitriding on Tribomechanical and Corrosion-Resistant Properties of Friction Stir Welded Aluminium 2024 Alloy

[1] Thomas, W. M., Nicholas, E. D., Needham J. C., Murch, M. G.,Temple-Smith P., Dawes C.J. “Friction Stir Butt Welding”, International Patent Application No. PCT/GB92/02203, 1991. Search in Google Scholar

[2] Patel, V. K., Bhowmik, S. “Plasma processing of aluminium alloy to promote adhesion-A critical review”, Reviews of Adhesion and Adhesives 5, pp. 79 – 104, 2017.10.7569/RAA.2017.097303 Search in Google Scholar

[3] Bisht, A., Gangi, B., Patel, V.K. “Selection of blowing agent for metal foam production: A review”, Journal of Metals, Materials and Minerals 30 (1), pp. 1 – 10, 2020. Search in Google Scholar

[4] Mishra, R.S., Ma, Z.Y. “Friction stir welding and processing”, Materials science and engineering: R: reports 50, pp. 1 – 78, 2005.10.1016/j.mser.2005.07.001 Search in Google Scholar

[5] Arya, P. K., Jain, N. K., Murugesan, J., Patel, V. K. “Developments in friction stir welding of aluminium to magnesium alloy”, Journal of Adhesion Science and Technology, 2021. DOI: 10.1080/01694243.2021.197561410.1080/01694243.2021.1975614 Search in Google Scholar

[6] Handa, A., Chawla, V. “Experimental evaluation of mechanical properties of friction welded dissimilar steels under varying axial pressures”, Strojnícky časopis – Journal of Mechanical Engineering 66 (1), pp. 27 – 36, 2016. DOI: 10.1515/scjme-2016-000810.1515/scjme-2016-0008 Search in Google Scholar

[7] Patel, V.K., Rani, K. “Mechanical and wear properties of friction stir welded 0–6Wt% nAl₂O₃ reinforced Al-13Wt% Si composites”, Strojnícky-časopis- Journal of Mechanical Engineering 67 (1), pp. 77 – 86, 2017. DOI: 10.1515/scjme-2017-000810.1515/scjme-2017-0008 Search in Google Scholar

[8] Patel, V.K., Kumar, P., Bhattacharya, S. “Mechanical, microstructural and sliding wear properties of friction stir welded AA6063-T6 and AA5052-H32 aluminium alloys”, Materials Focus 7, pp. 50 – 58, 2018.10.1166/mat.2018.1475 Search in Google Scholar

[9] Singh, A., Kumar, V., Grover, N.K. “Influence of tool pin profiles on friction stir welding with a gap for AA6082-T6 aluminium alloy”, Materials Research Express 6, pp. 086543, 2019. Search in Google Scholar

[10] Jayaseelan, P., Christy, T. V., Vijay, S. J., Nelson, R. “Effect of tool material, profile and D/d ratio in friction stir welding of aluminium metal matrix composites”, Materials Research Express 6, pp. 096590, 2019. Search in Google Scholar

[11] Arora, K. S., Pandey, S., Schaper, M., Kumar, R. “Effect of process parameters on friction stir welding of aluminium alloy 2219-T87”, International Journal of Advanced Manufacturing Technology 50, pp. 941-952, 2010.10.1007/s00170-010-2560-3 Search in Google Scholar

[12] Rodrigues, D. M., Loureiro, A., Leitao, C., Leal, R. M., Chaparro, B. M., Vilaça, P. “Influence of friction stir welding parameters on the microstructural and mechanical properties of AA 6016-T4 thin welds”, Materials and Design 30, pp. 1913 – 1921, 2009. Search in Google Scholar

[13] Élesztős, P., Jančo, R., Voštiar, V. “Optimization of welding process using a genetic algorithm”, Strojnícky časopis-Journal of Mechanical Engineering 68 (2), pp.17 – 24, 2018. DOI: 10.2478/scjme-2018-001410.2478/scjme-2018-0014 Search in Google Scholar

[14] Moi, S. C., Pal, P. K., Bandyopadhyay, A., Rudrapati, R. “Determination of tungsten inert gas welding input parameters to attain maximum tensile strength of 316L austenitic stainless steel”, Strojnícky časopis-Journal of Mechanical Engineering 68 (3), pp. 231 – 248, 2018. DOI: 10.2478/scjme-2018-003710.2478/scjme-2018-0037 Search in Google Scholar

[15] Malarvizhi, S., Balasubramanian, V. “Influences of welding processes and post-weld heat treatment on mechanical and metallurgical properties of AA2219 aluminium alloy joints”, Welding in the World 56, pp.105 – 119, 2012.10.1007/BF03321386 Search in Google Scholar

[16] Sharma, C., Dwivedi, D.K., Kumar, P. “Effect of post weld heat treatments on microstructure and mechanical properties of friction stir welded joints of Al–Zn–Mg alloy AA7039”, Materials and Design 43, pp. 134 – 143, 2013.10.1016/j.matdes.2012.06.018 Search in Google Scholar

[17] Jacob, A., Maheshwari, S., Siddiquee, A.N., Gangil, N. “Improvements in strength and microstructural behaviour of friction stir welded 7475 aluminium alloy using in-process cooling”, Materials Research Express 5, pp. 076518, 2018. Search in Google Scholar

[18] Chen, Y.C., Liu, H.J., Feng, J.C. “Effect of post-weld heat treatment on the mechanical properties of 2219-O friction stir welded joints”, Journal of Materials Science 40, pp. 4657 – 4659, 2005. Search in Google Scholar

[19] Aydın, H., Bayram, A., Uğuz, A., Akay, K.S. “Tensile properties of friction stir welded joints of 2024 aluminium alloys in different heat-treated-state”, Materials and Design 30, pp. 2211 – 2221, 2009. Search in Google Scholar

[20] Kumar, N., Patel, V. K. “Effect of SiC/Si3N4 micro-reinforcement on mechanical and wear properties of friction stir welded AA6061-T6 aluminum alloy”, SN Applied Sciences, 2(9), pp.1-11, 2020.10.1007/s42452-020-03381-y Search in Google Scholar

[21] Bahuguna, S., Arya, P. K., Patel, V. K. “Mechanical and Abrasive Wear Properties of Friction Stir Welded Joints of Aluminum Alloy AA6061-T6 with/without Nickel Coating”, Strojnícky časopis – Journal of Mechanical Engineering 70 (2), pp. 21 – 36, 2020. DOI: 10.2478/scjme-2020-001710.2478/scjme-2020-0017 Search in Google Scholar

[22] Das, J., Robi, P. S., Sankar, M. R. “Assessment of parameters windows and tool pin profile on mechanical property and microstructural morphology of FSWed AA2014 joints”, SN Applied Sciences 2, pp. 123, 2020.10.1007/s42452-019-1895-0 Search in Google Scholar

[23] Ratna, S. B., Reddy, P. K. G. “Corrosion behavior of friction stir welded AZ31B Mg alloy-Al6063 alloy joint”, Cogent Engineering 3 (1), pp. 1145565, 2016. Search in Google Scholar

[24] Ganesh, P., Kumar, V. S. “Superplastic forming of friction stir welded AA6061-T6 alloy sheet with various tool rotation speed”, Materials and Manufacturing Processes 30 (9), pp. 1080 – 1089, 2015. Search in Google Scholar

[25] Sajuri, Z., Selamat, M., Fazilah, N., Baghdadi, A. H., Rajabi, A., Omar, M. Z., Kokabi, A. H., Syarif, J. “Cold-rolling strain hardening effect on the microstructure, serration-flow behaviour and dislocation density of friction stir welded AA5083”, Metals 10, pp. 70, 2020.10.3390/met10010070 Search in Google Scholar

[26] Jariyaboon, M., Davenport, A. J., Ambat, R., Connolly, B. J., Williams, S. W., Price D. A. “The effect of welding parameters on the corrosion behaviour of friction stir welded AA2024–T351”, Corrosion Science 49, pp. 877 – 909, 2007.10.1016/j.corsci.2006.05.038 Search in Google Scholar

[27] Corral, J., Trillo, E. A., Li, Y., Murr, L. E. “Corrosion of friction-stir welded aluminium alloys 2024 and 2195,” Journal of Materials Science Letters 19, pp. 2117 – 2122, 2000. Search in Google Scholar

[28] Lumsden, J. B., Mahoney, M. W., Pollock, G., Rhodes, C. G. “Intergranular corrosion following friction stir welding of aluminium alloy 7075-T651”, Corrosion 55, pp. 1127 – 1135, 1999. Search in Google Scholar

[29] Rambabu, G., Naik, D. B., Rao, C. V., Rao, K. S., Reddy, G. M. “Optimization of friction stir welding parameters for improved corrosion resistance of AA2219 aluminium alloy joints”, Defence Technology 11, pp. 330 – 337, 2015.10.1016/j.dt.2015.05.003 Search in Google Scholar

[30] Wu, J., Zhang, Y., Liu, R., Wang, B., Hua, M., Xue, W. “Anti-corrosion layer prepared by plasma electrolytic carbonitriding on pure aluminium”, Applied Surface Science 347, pp. 673 – 678, 2015.10.1016/j.apsusc.2015.04.171 Search in Google Scholar

[31] Aliofkhazraei, M., Morillo, C., Miresmaeili, R., Rouhaghdam, A. S. “Carburizing of low-melting-point metals by pulsed nanocrystalline plasma electrolytic carburizing”, Surface and Coating Technology 202, pp. 5493 – 5496, 2008. Search in Google Scholar