How to cite this paper
Ismail, M., Bahari, M & Shuib, N. (2018). Thermal deformation of gas metal arc welding on aluminum alloy T-joints.Engineering Solid Mechanics, 6(1), 21-26.
Refrences
Akbari, M., Aliha, M. R. M., Keshavarz, S. M. E., & Bonyadi, A. (2016). Effect of tool parameters on mechanical properties, temperature, and force generation during FSW. Proceedings of the Institution of Mechanical Engineers, Part L: Journal of Materials: Design and Applications, 1464420716681591.
Aliha, M. R. M., & Gharehbaghi, H. (2017). The Effect of Combined Mechanical Load/Welding Residual Stress on Mixed Mode Fracture Parameters of a Thin Aluminum Cracked Cylinder. Engineering Fracture Mechanics.
Aliha, M. R. M., Shahheidari, M., Bisadi, M., Akbari, M., & Hossain, S. (2016). Mechanical and metallurgical properties of dissimilar AA6061-T6 and AA7277-T6 joint made by FSW technique. The International Journal of Advanced Manufacturing Technology, 86(9-12), 2551-2565.
Gery, D., Long, H., & Maropoulos, P. (2005). Effects of welding speed, energy input and heat source distribution on temperature variations in butt joint welding. Journal of Materials Processing Technology, 167(2-3), 393-401.
Gourd, L.M. (1995). Principles of welding technology. Oxford: Butterworth-Heinemann.
Khurram, A., Hong, L., Li, L., & Shehzad, S. (2012). Prediction of welding deformation and residual stresses in fillet welds using indirect couple field FE method. Research Journal of Applied Sciences, Engineering and Technology, 5(10), 2934-2940.
Li, J., Yang, J.G., Li, H.L., Yan, D.J., & Fang, H.Y. (2009). Numerical simulation on buckling distortion of aluminum alloy thin-plate weldment. Frontiers of Material Science. 3(1), 84-88.
Liang, W., & Hidekazu, M. (2012). An inverse analysis method to estimate inherent deformations in thin plate welded joints. Materials and Design. 40, 190-198.
Long, H., Gery, D., Carlier, A., & Maropoulos, P.G. (2009). Prediction of welding distortion in butt joint of thin plates. Materials and Design. 30(10), 4126-4135.
Masakazu, T., & Toshiyuki, O. (2006). Weld distortion. Kobelco Welding Today, 9(3), 8.
Masubuchi, K. (1980). Analysis of welded structures: Residual stresses, distortion, and their consequences. London: Pergamon Press.
Nuraini, A.A., Zainal, A.S., & Azmah Hanim, M.A. (2014). The effects of welding parameters on butt joints using robotic gas metal arc welding. Journal of Mechanical Engineering and Sciences. 6, 988-994.
Puchaccela, J. (1998). Control of distortion of welded steel structures. Welding Journal. 77, 49-52.
Radaj, D. (1992). Heat effects of welding: Temperature field, residual stress, distortion. Berlin: Spinger-Verlag.
Sluzalec, A. (2005). Theory of thermomechanical processes in welding. Dordrecht: Springer.
Soul, F., & Hamdy, N. (2012). Numerical simulation of residual stress and strain behavior after temperature modification, in: Kovacevic, R. (Ed.), Welding Processes. InTech, pp. 217-246.
Syahroni, N., & Hidayat, M.I.P. (2012). 3D finite element simulation of T-joint fillet weld: Effect of various welding sequences on the residual stresses and distortions, in: Andriychuk, M. (Ed.), Numerical Simulation – From Theory to Industry. InTech, pp. 583-606.
Teng, T.L., & Lin, C.C. (1998). Effect of welding conditions on residual stress due to butt welds. International Journal of Pressure Vessels and Piping. 75, 857-864.
Aliha, M. R. M., & Gharehbaghi, H. (2017). The Effect of Combined Mechanical Load/Welding Residual Stress on Mixed Mode Fracture Parameters of a Thin Aluminum Cracked Cylinder. Engineering Fracture Mechanics.
Aliha, M. R. M., Shahheidari, M., Bisadi, M., Akbari, M., & Hossain, S. (2016). Mechanical and metallurgical properties of dissimilar AA6061-T6 and AA7277-T6 joint made by FSW technique. The International Journal of Advanced Manufacturing Technology, 86(9-12), 2551-2565.
Gery, D., Long, H., & Maropoulos, P. (2005). Effects of welding speed, energy input and heat source distribution on temperature variations in butt joint welding. Journal of Materials Processing Technology, 167(2-3), 393-401.
Gourd, L.M. (1995). Principles of welding technology. Oxford: Butterworth-Heinemann.
Khurram, A., Hong, L., Li, L., & Shehzad, S. (2012). Prediction of welding deformation and residual stresses in fillet welds using indirect couple field FE method. Research Journal of Applied Sciences, Engineering and Technology, 5(10), 2934-2940.
Li, J., Yang, J.G., Li, H.L., Yan, D.J., & Fang, H.Y. (2009). Numerical simulation on buckling distortion of aluminum alloy thin-plate weldment. Frontiers of Material Science. 3(1), 84-88.
Liang, W., & Hidekazu, M. (2012). An inverse analysis method to estimate inherent deformations in thin plate welded joints. Materials and Design. 40, 190-198.
Long, H., Gery, D., Carlier, A., & Maropoulos, P.G. (2009). Prediction of welding distortion in butt joint of thin plates. Materials and Design. 30(10), 4126-4135.
Masakazu, T., & Toshiyuki, O. (2006). Weld distortion. Kobelco Welding Today, 9(3), 8.
Masubuchi, K. (1980). Analysis of welded structures: Residual stresses, distortion, and their consequences. London: Pergamon Press.
Nuraini, A.A., Zainal, A.S., & Azmah Hanim, M.A. (2014). The effects of welding parameters on butt joints using robotic gas metal arc welding. Journal of Mechanical Engineering and Sciences. 6, 988-994.
Puchaccela, J. (1998). Control of distortion of welded steel structures. Welding Journal. 77, 49-52.
Radaj, D. (1992). Heat effects of welding: Temperature field, residual stress, distortion. Berlin: Spinger-Verlag.
Sluzalec, A. (2005). Theory of thermomechanical processes in welding. Dordrecht: Springer.
Soul, F., & Hamdy, N. (2012). Numerical simulation of residual stress and strain behavior after temperature modification, in: Kovacevic, R. (Ed.), Welding Processes. InTech, pp. 217-246.
Syahroni, N., & Hidayat, M.I.P. (2012). 3D finite element simulation of T-joint fillet weld: Effect of various welding sequences on the residual stresses and distortions, in: Andriychuk, M. (Ed.), Numerical Simulation – From Theory to Industry. InTech, pp. 583-606.
Teng, T.L., & Lin, C.C. (1998). Effect of welding conditions on residual stress due to butt welds. International Journal of Pressure Vessels and Piping. 75, 857-864.