Numerical simulation and verification of laser‐polishing free surface of s136d die steel

Abstract

As a novel polishing technology, polishing by laser beam radiation can be used to im-prove the sample surface finish without causing material losses. In order to study the effect of laser polishing on the surface morphology of S136D die steel, an L16(44) orthogonal experiment was de-signed to describe the variation trend of surface roughness with energy density. The two‐dimensional transient model of laser polishing was established to simulate the evolution process of material surface morphology during laser polishing by combining numerical simulation with the experiment. The model uses a moving laser heat source to study the effects of capillary pressure and thermocapillary pressure in the laser polishing process. The experimental results show that the minimum roughness can be reduced to 0.764 μm, and the error between the actual molten pool depth and the simulated molten pool depth is 5.3%.