Properties of FSW and MIG Welded Joints of AlSiMg Aluminium Alloy

[1] Fridlyander, I. N., Sister, V. G., Grushko, O. E., Berstenev, V. V., Sheveleva, L. M., Ivanova, L. A. ”Aluminum Alloys: Promising Materials in the Automotive Industry”, Metal Science and Heat Treatment, September 44, pp. 365 – 370, 2002.10.1023/A:1021901715578 Search in Google Scholar

[2] Rambabu, P., Eswara Prasad, N., Kutumbarao, V. V., Wanhill, R. J. H. ”Volume 1: Aerospace Materials Aluminium”, In: Prasad, N. E., Wanhill, R. (Eds.) Alloys for Aerospace Applications, Aerospace Materials and Material Technologies, Springer Verlag, pp. 29 – 52, 2017. DOI: 10.1007/978-981-10-2134-3_210.1007/978-981-10-2134-3_2 Search in Google Scholar

[3] Skillingberg, M., Green, J. ”Aluminum Applications in the Rail Industry”, Light Metal Age 65, pp. 8 – 13, 2007. ISSN 0024-3345 Search in Google Scholar

[4] Heinz, A., Haszler, A., Keidel, C., Moldenhauer, S., Benedictus, R., Miller, W. S. ”Recent development in aluminium alloys for aerospace applications”, Materials Science and Engineering: A280, pp. 102 – 107, 2000. ISSN: 0921-5093.10.1016/S0921-5093(99)00674-7 Search in Google Scholar

[5] Mathers, G. ”Welding of Aluminium and its Alloys”, 1^st Edn., Woodhead Publishing, USA, 2002. ISBN: 978-1-855-73567-510.1533/9781855737631.1 Search in Google Scholar

[6] Kou, S. ”Welding metallurgy”, 2^nd Edn., John Willey and Sons, 2003. DOI: 10.1002/047143402710.1002/0471434027 Search in Google Scholar

[7] Schubert, E., Klassen, M., Zerner, I., Walz, C., Sepold, G. ”Light-weight structures produced by laser beam joining for future applications in automobile and aerospace industry”, J. of Materials Processing Technology 115 (1), pp. 2 – 8, 2001. DOI: 10.1016/S0924-0136(01)00756-710.1016/S0924-0136(01)00756-7 Search in Google Scholar

[8] Mandal, N. R. 2005: Aluminium welding, 2^nd Edn., New Delhi, Narosa Publishing House, 2005. ISBN 8 17319 637 0. Search in Google Scholar

[9] Sejč, P., Világoš, T. ”FEM simulation of thermal cycles during laser welding of aluminium”, Strojnícky časopis – Journal of Mechanical Engineering 68 (1), pp. 89 – 94, 2018. DOI: 10.2478/scjme-2018-000910.2478/scjme-2018-0009 Search in Google Scholar

[10] Threadgill, P. L., Leonard, A. J., Shercliff, H. R., Withers, P. J. ”Friction stir welding of aluminium alloys”, J. International Materials Reviews 54 (2), pp. 49 – 93, 2009. DOI: 10.1179/174328009X41113610.1179/174328009X411136 Search in Google Scholar

[11] Adamowski J., Szkodo M. ”Friction Stir Welds of Aluminum alloy AW6082-T6”, J. of Achievements in Materials and Manufacturing Engineering 20, pp. 403 – 406, 2007. ISSN: 1734-8412 Search in Google Scholar

[12] XIAOFEI SHENG, X., LI, K., WU, W., YANG, Y., LIU, Y., ZHAO, Y., HE, G. ”Microstructure and Mechanical Properties of Friction StirWelded Joint of an Aluminum Alloy Sheet 6005A-T4”, Metals 9 (1152), pp. 1 – 11, 2019. DOI: 10.3390/met911115210.3390/met9111152 Search in Google Scholar

[13] Jančo, R., Écsi, L., Élesztős, P. ”FSW numerical simulation of aluminium plates by SYSWELD – Part I”, Strojnícky časopis – Journal of Mechanical Engineering 66 (1), pp. 47 – 52, 2016. DOI: 10.1515/scjme-2016-001010.1515/scjme-2016-0010 Search in Google Scholar

[14] Jančo, R., Écsi, L., Élesztős, P. ”FEM simulation of thermal cycles during laser welding of aluminium”, Strojnícky časopis – Journal of Mechanical Engineering 66 (2), pp. 29 – 36, 2016. DOI: 10.1515/scjme-2016-001610.1515/scjme-2016-0016 Search in Google Scholar

[15] Fratini, L., Buffa, G. ”CDRX modelling in friction stir welding of aluminium alloys”, International Journal of Machine Tools & Manufacture 45, pp. 1188 – 1194, 2005. DOI: 10.1016/j.ijmachtools.2004.12.00110.1016/j.ijmachtools.2004.12.001 Search in Google Scholar

[16] Vural, M., Ogur, A., Cam, G., Ozarpa, C. ”On the friction stir welding of aluminium alloys EN AW 2024-0 and EN AW 5754-H22”, Archives of Materials Science and Engineering 28 (1), pp. 49 – 54, 2007. ISSN 1897-2764 Search in Google Scholar

[17] Cavaliere, P., Cerri, E., Squillace, A. ”Mechanical response of 2024-7075 aluminium alloys joined by Friction Stir Welding”, Journal of Materials Science 40, pp. 3669 – 3676, 2005. ISSN 0022-246110.1007/s10853-005-0474-5 Search in Google Scholar

[18] EN 573-3:2019, Aluminium and aluminium alloys - Chemical composition and form of wrought products - Part 3: Chemical composition and form of products Search in Google Scholar

[19] EN 755-2:2016, Aluminium and aluminium aaloys – Extruded rod/bar, tube and profiles. Part 2: Mechanical properties. Search in Google Scholar

[20] EN ISO 18265:2013, Metallic materials — Conversion of hardness values Search in Google Scholar

[21] Kah, P., Hiltunen, E., Martikainen, J. ”Investigation of Hot Cracking in the Welding of Aluminium Alloys (6005 & 6082)”, In: 63^rd Annual Assembly & International Conference of the International Institute of Welding, Turkey, pp. 373 – 380, 2010. DOI: 10.13140/2.1.4215.6324 Search in Google Scholar

[22] ”OK Autrod 5087”, Available at: https://www.esabna.com/ae/en/products/filler-metals/mig-mag-wires-gmaw/aluminium-wires/ok-autrod-5087.cfm [Accessed: 14-07-2020] Search in Google Scholar

[23] ”OK Autrod 4043”, Available at: https://www.esab.co.uk/gb/en/products/filler-metals/mig-mag-wires-gmaw/aluminium-wires/ok-autrod-4043.cfm. [Accessed: 14-07-2020] Search in Google Scholar

[24] ISO 25239-4:2020, Friction stir welding — Aluminium — Part 4: Specification and qualification of welding procedures Search in Google Scholar