Numerical and experimental investigations of autogenous plasma arc welding of thin titanium alloy of 2 mm thick and modelling the temperature distribution for predicting the …
In this paper, a new volumetric heat source model is developed for predicting the weld bead geometry during plasma arc welding of thin sheets of titanium alloy. Numerical simulations …
TQ Li, CS Wu - The International Journal of Advanced Manufacturing …, 2015 - Springer
A three-dimensional and transient model with keyhole geometry-dependent heat source and arc pressure distribution is developed for plasma arc welding process. The influence of the …
A 3D transient numerical simulation is developed to study the arc welding of dissimilar metals for three sets of processing parameters. The model is used to investigate the fluid …
K Ranjan, S Basak, MK Gopaliya - Welding International, 2024 - Taylor & Francis
Numerical modelling techniques are usually employed in keyhole plasma arc welding (KPAW) process to comprehend the thermal analysis, effect of welding parameters, weld …
In this research work, a new analytical model has been developed to predict the temperature distribution during plasma arc welding of thin Ti-6Al-4V sheets. Dhinakaran's model based …
TQ Li, CS Wu, J Chen - Welding in the World, 2016 - Springer
A mathematical model of plasma arc welding is developed to numerically simulate the transient variation of plasma arc heat flux and pressure distribution on the curved keyhole …
Plasma arc welding (PAW) is an important joining technology for plates with medium thickness because of the heat source characteristics, however, most models of PAW neglect …
Various techniques have evolved in modeling and simulation since its inception [6] for the solution of technical and engineering problems, ranging from ancient Roman military …