[[1] R. Jančo, L. Écsi, P. Élesztős. FSW numerical simulation of aluminium plates by SYSWELD - Part I. Journal of Mechanical Engineering - Strojnícky časopis 2016 (66), No. 1, 47 - 52.10.1515/scjme-2016-0010]Search in Google Scholar
[[2] R. Jančo, L. Écsi, P. Élesztős: FSW numerical simulation of aluminium plates by SYSWELD - Part II. Journal of Mechanical Engineering - Strojnícky časopis 2016, No. 2, 29 - 36.10.1515/scjme-2016-0016]Search in Google Scholar
[[3] H. Kraváriková. Riešenie teplotných polí v tavnom procese zvárania pomocou numerickej simulácie. Zvárač 2009 (6), No. 3, 15 - 18.]Search in Google Scholar
[[4] K. C. Mills. Recommended values of thermophysicial properties for selected commercial alloys. Woodhead publishing limited, Cambridge, 2002, ISBN: 978-1- 85573-569-9.]Search in Google Scholar
[[5] E., J. Hatch. Aluminum: properties and psychical metallurgy. American Society for Metals, 2004, ISBN: 978-0-87170-176-3.]Search in Google Scholar
[[6] Š. Kender. Progresívne metódy zvárania - zváranie laserom. Transfer inovácií, 2004, No. 7, 87 - 90.]Search in Google Scholar
[[7] S. K. Maiti, C. A. Walsh, H. K. D. H. Bhadeshia. Finite element simulation of laser spot welding. Science and Technology of Welding and Joining, 2003 (8), No. 5, 377 - 38410.1179/136217103225005570]Search in Google Scholar
[[8] http://www.capalex.co.uk/alloy_types/1050_alloy.html]Search in Google Scholar
