Add to ORKGThis paper analyses the modelling of conduction losses in laser-material interaction. The incoming laser energy is evaluated by means of a non linear system equation which allows to calculate the physical state and the shielding effect of the plasma plume. The conduction losses were in particular evaluated by means of several models in order to understand the applicability of each one in relation to power intensity. Their influence has been tested by means of welding experiments with a 3 kW CO2 laser source, where penetration depths on an AISI 304 stainless steel were measured. Samples were extracted from the weld seams and geometric and microstructure evaluations were performed in order to verify the analytical models. Some of the consider...
The absorptivity of a material is a major uncertainty in numerical simulations of laser welding and ...
A theoretical model is developed for predicting the weld shape produced by a Continuous Wave (CW) Nd...
Aim of the project was the theoretical investigation of the physical processes occuring in laser wel...
This paper analyses the modelling of conduction losses in laser-material interaction. The incoming l...
The purpose of this study is to develop a mathematical model for the analysis of laser welding on st...
A three-dimensional quasi-state heat conduction Model is presented for the solid/liquid interface in...
A three-dimensional quasi-steady state heat conduction model is developed for laser welding of sheet...
A three-dimensional quasi-steady state heat conduction model is developed for laser welding of sheet...
AbstractThe advantages of laser beam welding, such as its high flexibility, its high local energy in...
Numerically computed results of weld pool dimensions in conduction mode laser welding are sensitive ...
The present work brings forward a computational modeling of welding phenomena within an analytical f...
A plume consisting of vapour and ionized particles from the workpiece is commonly formed during vari...
A plume consisting of vapour and ionized particles from the workpiece is commonly formed during vari...
Since the invention of the laser in 1960, its use has been growing steadily. New laser sources with ...
Laser welding is commonly used in the automotive-, steel- and aerospace industry. It is a highly non...
The absorptivity of a material is a major uncertainty in numerical simulations of laser welding and ...
A theoretical model is developed for predicting the weld shape produced by a Continuous Wave (CW) Nd...
Aim of the project was the theoretical investigation of the physical processes occuring in laser wel...
This paper analyses the modelling of conduction losses in laser-material interaction. The incoming l...
The purpose of this study is to develop a mathematical model for the analysis of laser welding on st...
A three-dimensional quasi-state heat conduction Model is presented for the solid/liquid interface in...
A three-dimensional quasi-steady state heat conduction model is developed for laser welding of sheet...
A three-dimensional quasi-steady state heat conduction model is developed for laser welding of sheet...
AbstractThe advantages of laser beam welding, such as its high flexibility, its high local energy in...
Numerically computed results of weld pool dimensions in conduction mode laser welding are sensitive ...
The present work brings forward a computational modeling of welding phenomena within an analytical f...
A plume consisting of vapour and ionized particles from the workpiece is commonly formed during vari...
A plume consisting of vapour and ionized particles from the workpiece is commonly formed during vari...
Since the invention of the laser in 1960, its use has been growing steadily. New laser sources with ...
Laser welding is commonly used in the automotive-, steel- and aerospace industry. It is a highly non...
The absorptivity of a material is a major uncertainty in numerical simulations of laser welding and ...
A theoretical model is developed for predicting the weld shape produced by a Continuous Wave (CW) Nd...
Aim of the project was the theoretical investigation of the physical processes occuring in laser wel...