In this paper a numerical model for simulation of hypo eutectoid steel laser hardening process is presented. The Finite Difference Method (FDM) was used to solve the heat transfer and the carbon diffusion equations for defined workpiece geometry. The model is able to predict the thermal cycle into the target material, the phase transformations and the resulting microstructures according to the laser process parameters, the workpiece dimensions and the physical properties of the workpiece. The effects of the overlapping laser beam tracks on the resulting microstructures can be also considered. Besides the original material microstructure is taken into account in the simulation process by means of a digitized photomicrograph in which the init...
A 3D numerical model for the surface hardening process simulation carried out by means of a CO2 lase...
This article illustrates the development of a complete and exhaustive mathematical model for the sim...
Nowadays, laser hardening is a sufficiently mature process to be industrially applied as a substitut...
In this paper a numerical model for simulation of hypo eutectoid steel laser hardening process is pr...
In this paper a mathematical model solved by means of the finite differences method (FDM) for laser ...
In this paper a numerical simulation of laser hardening process is presented. The Finite Difference ...
In this paper a numerical simulation of laser hardening process is presented. The Finite Difference ...
none5In this paper a mathematical model solved by means of the finite differences method (FDM) for l...
This paper refers to a 3-D transient model for laser surface hardening of mechanical components. The...
This paper refers to a 3-D transient model for laser surface hardening of mechanical components. The...
A 3D numerical model for the surface hardening process simulation carried out by means of a CO2 lase...
The response of the hypo-eutectoid steel to laser hardening, which is measured as the depth of the i...
This article presents an exhaustive mathematical model for the simulation of hypo-eutectoid carbon s...
A 3D numerical model for the surface hardening process simulation carried out by means of a CO2 lase...
This article illustrates the development of a complete and exhaustive mathematical model for the sim...
Nowadays, laser hardening is a sufficiently mature process to be industrially applied as a substitut...
In this paper a numerical model for simulation of hypo eutectoid steel laser hardening process is pr...
In this paper a mathematical model solved by means of the finite differences method (FDM) for laser ...
In this paper a numerical simulation of laser hardening process is presented. The Finite Difference ...
In this paper a numerical simulation of laser hardening process is presented. The Finite Difference ...
none5In this paper a mathematical model solved by means of the finite differences method (FDM) for l...
This paper refers to a 3-D transient model for laser surface hardening of mechanical components. The...
This paper refers to a 3-D transient model for laser surface hardening of mechanical components. The...
A 3D numerical model for the surface hardening process simulation carried out by means of a CO2 lase...
The response of the hypo-eutectoid steel to laser hardening, which is measured as the depth of the i...
This article presents an exhaustive mathematical model for the simulation of hypo-eutectoid carbon s...
A 3D numerical model for the surface hardening process simulation carried out by means of a CO2 lase...
This article illustrates the development of a complete and exhaustive mathematical model for the sim...
Nowadays, laser hardening is a sufficiently mature process to be industrially applied as a substitut...