Effects of Factors on Contact Forces Analysis between Die and Casting and Validation Using Die-Cast Product
2019 Volume 60 Issue 7 Pages 1390-1397
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2019 Volume 60 Issue 7 Pages 1390-1397
In die casting design, residual stress and thermal deformation based FEM analysis are gaining enormous importance.
Shiga et al. have reported that the thermal and residual stress of the I-shaped model could be more accurately predicted by using the elasto-plastic-creep model than by using the conventional elasto-plastic model.
In this study, factors affecting the contact forces between the die and the casting were analyzed by using a little more complicated model than the I-shaped model. The results clearly indicate that, irrespective of shapes, the plastic strain term affects the contact forces the most, and that the creep term further reduces the contact forces. Furthermore, a comparison between the simulated and measured values of the residual stress of an aluminum die-cast product confirms the superiority of the elasto-plastic-creep model than the elasto-plastic model in predicting the residual stress, which could also be used instead of the contact forces.
This Paper was Originally Published in Japanese in J. JFS 90 (2018) 386–392. The title of this paper was slightly modified to match the content of the paper. The references from 3) to 6) were added.
