Finite element analysis of melting and solidifying processes in laser rapid prototyping of metallic powders

M Shiomi, A Yoshidome, F Abe, K Osakada

doi:10.1016/s0890-6955(98)00036-4

To clarify the forming mechanism in laser rapid prototyping, the melting and solidifying processes of metallic powders are simulated by the finite element method, and the calculated amount of the solidified mass is compared with the experimental one. In the simulation, the melted part of the powders is assumed to change into a sphere due to the surface tension and a new finite element mesh is generated in the subsequent analysis. Latent heat and shrinkage due to solidification are taken into account. The thermal conductivity of the powder is measured for various densities and used in the calculation. Temperature distribution within the powders during heating and cooling is calculated to obtain the amount of the melted and solidified part of the powders. Experiments are made with Cu powders using a pulsed Nd:YAG laser. It is found that the amount of the solidified part after a pulse of laser irradiation is affected by the peak power of the laser rather than the duration of irradiation. There is an appropriate peak power of the laser in rapid prototyping of metallic powders. The calculated weights of the solidified powders by several pulses of the laser beam agree well with the experimental ones.

Finite element analysis of melting and solidifying processes in laser rapid prototyping of metallic powders

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Finite element analysis of melting and solidifying processes in laser rapid prototyping of metallic powders

書誌事項

この論文をさがす

説明

収録刊行物

被引用文献 (3)*注記

詳細情報 詳細情報について

書き出し

問題の指摘

詳細情報詳細情報について