Add to ORKGA plume consisting of vapour and ionized particles of the workpiece is usually formed during various types of laser materials processing. The characteristics of this plume depend on a large number of parameters such as the laser power, spot size, scanning speed, material properties and shielding gas. The height, radius, temperature and absorption coefficient of the plasma are calculated for various values of process parameters. The surface temperature of the melt pool and the vaporization rate are also calculated on the basis of the Stefan condition at the liquid-vapour interface. The absorption coefficient of the plasma given by the Kramers-Unsold relation and the ionization fraction given by the Saha-Eggert equation are used to model the ...
Energy coupling, heat conduction, melting; evaporation and plasma generation including melt-, vapor-...
This paper analyses the modelling of conduction losses in laser-material interaction. The incoming l...
2- and 3-dimensional self consistent modelling calculations of the surface-tension driven melt dynam...
A plume consisting of vapour and ionized particles of the workpiece is usually formed during various...
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...
A plume consisting of vapor and ioinized particles of the workpiece is usually formed in many laser ...
A plume consisting of vapor and ionized particles of the workpiece is usually formed during various ...
This dissertation presents a mathematical model which includes most physical phenomena taking place ...
The effect of laser radiation on a solid body leads to a change in the temperature field of the proc...
During the laser material interaction process, the laser beam mode has significant influence on the ...
Melt pool geometry and thermal behavior control are essential in obtaining consistent building perfo...
International audienceNumerical simulation is a powerful tool to understand the link between process...
A new analytical model of heat flux during laser surface treatment is presented. Prior knowledge of ...
Rapid transformations through the liquid and vapor phases induced by laser-solid interactions are de...
Energy coupling, heat conduction, melting; evaporation and plasma generation including melt-, vapor-...
This paper analyses the modelling of conduction losses in laser-material interaction. The incoming l...
2- and 3-dimensional self consistent modelling calculations of the surface-tension driven melt dynam...
A plume consisting of vapour and ionized particles of the workpiece is usually formed during various...
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...
A plume consisting of vapor and ioinized particles of the workpiece is usually formed in many laser ...
A plume consisting of vapor and ionized particles of the workpiece is usually formed during various ...
This dissertation presents a mathematical model which includes most physical phenomena taking place ...
The effect of laser radiation on a solid body leads to a change in the temperature field of the proc...
During the laser material interaction process, the laser beam mode has significant influence on the ...
Melt pool geometry and thermal behavior control are essential in obtaining consistent building perfo...
International audienceNumerical simulation is a powerful tool to understand the link between process...
A new analytical model of heat flux during laser surface treatment is presented. Prior knowledge of ...
Rapid transformations through the liquid and vapor phases induced by laser-solid interactions are de...
Energy coupling, heat conduction, melting; evaporation and plasma generation including melt-, vapor-...
This paper analyses the modelling of conduction losses in laser-material interaction. The incoming l...
2- and 3-dimensional self consistent modelling calculations of the surface-tension driven melt dynam...