Generalized optimizations of two-stage forging of micro/meso copper fastener

Generalized optimizations of two-stage forging of micro/meso copper fastener

Shih-Hsien, Lin;Un-Chin, Chai;Gow-Yi, Tzou;Dyi-Cheng, Chen;
matec web of conferences 2018 Vol. 185 pp. 00002-
239
shihhsien2018generalizedmatec

Abstract

Three are generalized simulation optimizations considering the forging force, the die stress, and the dual-goals in two-stage forging of micro/meso copper fastener. Constant shear friction between the dies and workpiece is assumed to perform multi-stage cold forging forming simulation analysis, and the Taguchi method with the finite element simulation has been used for mold-and-dies parameters design simulation optimizations considering the forging force, die stress, and dual-goals. The die stress optimization is used to explore the effects on effective stress, effective strain, velocity field, die stress, forging force, and shape of product. The influence rank to forging process of micro/meso copper fastener for three optimizations can be determined, and the optimal parameters assembly consider die stress can be obtained in this study. It is noted that the punch design innovation can reduce the forging force and die stress.

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