Thermal and Metallurgical Modelling of Laser Transformation Hardened Steel Parts

Reza Rowshan; Mária Kocsis Baán

doi:10.4028/www.scientific.net/MSF.537-538.599

Paper Titles

On the Topological Characterization of 3-D Polyhedral Microstrutures
p.563

On the Temperature Rate Dependent Transformation Processes
p.571

Simulation of 3-Dimensional Cell Population Growth Processes in Polyhedral Cellular Systems
p.579

Visualisation of the Melt Flow under Rotating Magnetic Field
p.591

Thermal and Metallurgical Modelling of Laser Transformation Hardened Steel Parts
p.599

Evaluation of Steel Hardenability by JM^®-Test
p.607

Numerical Analysis of Sliding Friction Behaviour of Rubber
p.615

Functionalization of Multi-Walled Carbon Nanotubes
p.623

Development and Manufacturing of Coronary Stents in Hungary
p.631

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Thermal and Metallurgical Modelling of Laser Transformation Hardened Steel Parts

Abstract:

When applying laser transformation hardening (LTH) on a steel part the aim is to harden a localized area, which results in high hardness value for a defined width and depth of the material. To assure the hardened zone and keep the maximum temperature of the surface below the melting point we have used a finite element model (FEM) to compute the solution for heat distributions and the phase transformation of the material during LTH. Modelling results were used to introduce safe operating regions for LTH with different processing conditions. A problem associated with some LTH applications is the necessity to overlap the hardening passes. The temperature distribution of this phenomenon was also modelled using FEM which truly assist in finding optimum overlapping and technological parameters.