Details

Autor(en) / Beteiligte

• Ma, Yu-lin
• Zhu, Jian
• Zhang, Long-mei
• Ren, Zhi-qiang
• Zhao, Yang
• Wang, Wen-yu
• Wang, Xiao-ming
• Hui, Xi-dong
• Wu, Yong-ling
• Zheng, Hong-yu

Titel

Numerical simulation and experimental study of hybrid laser-electric arc welding between dissimilar Mg alloys

Ist Teil von

• Journal of Central South University, 2022-10, Vol.29 (10), p.3476-3488

Ort / Verlag

Changsha: Central South University

Erscheinungsjahr

2022

Quelle

Alma/SFX Local Collection

Beschreibungen/Notizen

• This work aims to establish a suitable numerical simulation model for hybrid laser-electric arc heat source welding of dissimilar Mg alloys between AZ31 and AZ80. Based on the energy conservation law and Fourier’s law of heat conduction, the differential equations of the three-dimensional temperature field for nonlinear transient heat conduction are built. According to the analysis of nonlinear transient heat transfer, the equations representing initial conditions and boundary conditions are obtained. The “double ellipsoidal heat source + 3D Gaussian heat source” combination was chosen to construct the laser-electric arc hybrid heat source. The weld bead morphologies and the distribution of temperature, stress, displacement and plastic strains are numerically simulated. The actual welding experiments were performed by a hybrid laser-electric arc welding machine. The interaction mechanism between laser and electric arc in the hybrid welding of Mg alloys is discussed in detail. The hybrid heat source can promote the absorption of laser energy and electric arc in the molten pool, resulting in more uniform energy distribution in the molten pool and the corresponding improvement of welding parameters. This work can provide theoretical guidance and data supports for the optimization of the hybrid laser-electric arc welding processes for Mg alloys.