Analysis Of Flange Wrinkle In Square-shell Deep Drawing Of Anisotropic Sheet

摘要

An FEM simulation utilizing a dynamic explicit code was conducted to investigate the flange wrinkle behavior of square shell deep drawing of anisotropic steel sheets. In the FEM simulation, anisotropy of the r-value is taken account of by using the Barlat-Lian '89 equation. The yield locus diagram and the influence of anisotropy were investigated by changing the combination of the R_(00), R_(45) and R_(90) value. One quarter portion of the 75 mm square punch and 80 mm square die was used in the simulation and frictional coefficient μ=0 (Teflon lubricant condition) was adopted. As a result, the greater the m-value of the yield locus, the greater the yield stress (YS) and the greater the ACL value ( R_(90)- R_(00))/ R_(ave) become, the bigger the flange wrinkle.