Add to ORKGIt is well established that the Marangoni flow dominated circulation within a laser melt pool significantly modifies the pool profile and temperature distribution. Detailed computational fluid dynamics models are required to accurately predict this but these are complicated and computationally expensive. Many researchers have in the past used an enhanced thermal conductivity approach, but the validity of this approach for accurately predicting the melt pool geometry and temperature distribution is largely unproven. This paper presents an analysis of the widely-used isotropic enhanced thermal conductivity approach and compares it with a more advanced anisotropic approach for modelling the laser melting of Inconel 718. Experimental and modell...
The melt pool calculating method is presented based on the solution of the heat conduction problem i...
International audienceNumerical simulation is a powerful tool to understand the link between process...
The quantitative correlations between workpiece volume and melt pool geometry, as well as the flow a...
It is well established that the Marangoni flow dominated circulation within a laser melt pool signif...
Use of appropriate modes of heat transfer in finite element modelling simulations of laser depositio...
In this contribution, we validate a physical model based on a transient temperature equation (includ...
Laser Direct Metal Deposition, alloying and similar additive processes are recognised as difficult t...
Computational simulation of the Powder Bed Fusion (PBF) process is a useful tool for predicting and ...
Molten metal melt pools are characterised by highly non-linear responses, which are very sensitive t...
Melt pool geometry and thermal behavior control are essential in obtaining consistent building perfo...
Modelling the thermal behaviour of the melt pool produced in Laser Powder-Bed Fusion (L-PBF) process...
A three-dimensional quasi-steady-state mathematical model is presented for laser heating with a mult...
An established analytical model is used to simulate an extended laser beam. Multiple Gaussian source...
Use of appropriate modes of heat transfer in finite element modelling simulations of laser cladding ...
This dissertation presents a mathematical model which includes most physical phenomena taking place ...
The melt pool calculating method is presented based on the solution of the heat conduction problem i...
International audienceNumerical simulation is a powerful tool to understand the link between process...
The quantitative correlations between workpiece volume and melt pool geometry, as well as the flow a...
It is well established that the Marangoni flow dominated circulation within a laser melt pool signif...
Use of appropriate modes of heat transfer in finite element modelling simulations of laser depositio...
In this contribution, we validate a physical model based on a transient temperature equation (includ...
Laser Direct Metal Deposition, alloying and similar additive processes are recognised as difficult t...
Computational simulation of the Powder Bed Fusion (PBF) process is a useful tool for predicting and ...
Molten metal melt pools are characterised by highly non-linear responses, which are very sensitive t...
Melt pool geometry and thermal behavior control are essential in obtaining consistent building perfo...
Modelling the thermal behaviour of the melt pool produced in Laser Powder-Bed Fusion (L-PBF) process...
A three-dimensional quasi-steady-state mathematical model is presented for laser heating with a mult...
An established analytical model is used to simulate an extended laser beam. Multiple Gaussian source...
Use of appropriate modes of heat transfer in finite element modelling simulations of laser cladding ...
This dissertation presents a mathematical model which includes most physical phenomena taking place ...
The melt pool calculating method is presented based on the solution of the heat conduction problem i...
International audienceNumerical simulation is a powerful tool to understand the link between process...
The quantitative correlations between workpiece volume and melt pool geometry, as well as the flow a...