Selective Laser Melting (SLM) is one of the important Additive Manufacturing techniques for building functional products. Nevertheless, the absence of accurate models for predicting the SLM process behavior, delays development of cost effective and defects free process. This work presents a coupled thermo-mechanical numerical model to capture the two phase (solid-liquid) solidification melting phenomena that occur in the process. The proposed model will also predict the evolvement of process-induced properties and defects particularly residual stresses caused by temperature gradient and thermal stresses. CO2 or Nd:YAG laser beam can be used as a heat source with a Gaussian distribution for the laser beam energy.

Volume Subject Area:
Advanced Manufacturing
Topics:
Additive manufacturing, Finite element model, Lasers, Melting, Carbon dioxide, Computer simulation, Delays, Gaussian distribution, Heat, Laser beams, Nd-YAG lasers, Residual stresses, Solidification, Temperature gradient, Thermal stresses, Thermomechanics
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