Welding and repairing of nickel-base alloys and superalloys plays a crucial role in developing a new sustainability-based world. High power density welding is preferred to conventional arc welding because of its lower heat input that minimizes heat-induced alterations to the material. However, when dealing with nickel-base alloys, the challenge is to obtain a sound joint while avoiding the formation of solidification cracks. The present work is aimed at summarizing the preliminary results of a numerical study about the effects of laser welding parameters on thermal and mechanical fields of IN792 butt-welded joints. The effects of preheating temperature, heat input and welding speed on thermal and residual stress were investigated. Finally, some melt-run trials were carried out and the structural integrity of the obtained samples was discussed based on the numerical results.
Ferro, P., Varone, A., Angella, G., Cognini, F., Montanari, R., Berto, F., et al. (2025). Computational welding mechanics-based approach for the optimization of process parameters in laser welding of IN792 nickel-base alloy. PROCEDIA STRUCTURAL INTEGRITY, 68, 988-1002 [10.1016/j.prostr.2025.06.161].
Computational welding mechanics-based approach for the optimization of process parameters in laser welding of IN792 nickel-base alloy
Varone, A;Montanari, R;Barbieri, G;
2025-01-01
Abstract
Welding and repairing of nickel-base alloys and superalloys plays a crucial role in developing a new sustainability-based world. High power density welding is preferred to conventional arc welding because of its lower heat input that minimizes heat-induced alterations to the material. However, when dealing with nickel-base alloys, the challenge is to obtain a sound joint while avoiding the formation of solidification cracks. The present work is aimed at summarizing the preliminary results of a numerical study about the effects of laser welding parameters on thermal and mechanical fields of IN792 butt-welded joints. The effects of preheating temperature, heat input and welding speed on thermal and residual stress were investigated. Finally, some melt-run trials were carried out and the structural integrity of the obtained samples was discussed based on the numerical results.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
