Numerical simulation of friction stir welding on aluminum alloy 2024-T351 plates
Authors: Mijajlović M., Milčić D., Nikolić Stanojević V., Milčić M.
Keywords: friction Stir Welding; numerical simulation; 2024-T351; finite difference method
- Download full text in PDF
Abstract:
Friction stir welding is a solid-state welding technique that utilizes thermo-mechanical influence of the rotating welding tool on parent material resulting with monolith joint – weld. On the contact of welding tool and parent material, significant stirring and deformation of parent material appears, and during this process mechanical energy is partially transformed into heat. Generated heat affects the temperature of the welding tool and parent material so proposed analytical model for estimation of the amount of generated heat can be verified by temperature: analytically determined heat is used for numerical estimation of the parent material’s temperature and this temperature is compared to the experimentally determined temperature. Numerical solution for analytical estimation of welding plates temperature is estimated using finite difference method – explicit scheme with adaptive grid, considering influence of temperature on material’s conductivity, contact conditions between welding tool and parent material, material flow around welding tool etc.
References:
Colegrove, P.A., Shercliff, H.R. (2005) 3-Dimensional CFD modelling of flow round a threaded friction stir welding tool profile. Journal of Materials Processing Technology, 169(2): 320-327
Colligan, K. (1999) Dynamic material deformation during friction stir welding aluminium. u: Proc. 1st Int. Symp. on Friction Stir Welding, Thousand Oaks, USA
Đurđanović, M.B., Mijajlović, M.M., Milčić, D.S., Stamenković, D.S. (2009) Heat generation during friction stir welding process. Tribology in Industry, 31(1-2): 8-14
Mijajlovic, M.M., Milcic, D.S., Andjelkovic, B., Vukicevic, M., Bjelic, M. (2011) Mathematical Model for Analytical Estimation of Generated Heat During Friction Stir Welding. Part 1. Journal of the Balkan Tribological Association, vol. 17, br. 2, str. 179-191
Mijajlovic, M.M., Milcic, D.S., Andjelkovic, B., Vukicevic, M., Bjelic, M. (2011) Mathematical Model for Analytical Estimation of Generated Heat During Friction Stir Welding. Part 2. Journal of the Balkan Tribological Association, vol. 17, br. 3, str. 361-370
Mijajlović, M. (2012) M, Investigation and development of analytical model for estimation of amount of heat generated during FSW. Niš: Faculty of Mechanical Engineering, PhD thesis
Nandan, R., Roy, G.G., Lienert, T.J., Debroy, T. (2007) Three-dimensional heat and material flow during friction stir welding of mild steel. Acta Materialia, 55(3): 883-895
Ouyang, J.H., Kovacevic, R. (2002) Material flow and microstructure in the friction stir butt welds of the same and dissimilar aluminum alloys. Journal of Materials Engineering and Performance, 11(1): 51-63
Schmidt, H., Hattel, J., Wert, J. (2004) An analytical model for the heat generation in friction stir welding. Modeling Simul. Mater. Sci. Eng, 12, No 1, (January), 143-157
Song, M., Kovacevic, R. (2003) Thermal modeling of friction stir welding in a moving coordinate system and its validation. International Journal of Machine Tools and Manufacture, 43(6): 605-615
Ulysse, P. (2002) Three-dimensional modeling of the friction stir-welding process. International Journal of Machine Tools and Manufacture, 42(14): 1549-1557