Abstract
The M–K method has been used with Barlat׳s 1989 anisotropic yield surface to predicate forming limit to study the effect of the normal stress and material anisotropy. The 3D stress state is converted to plane-stress state according to the hypothesis that hydrostatic stress has no effect on plastic deformation. The predicted forming limits correlate well with experimental data for AA5XXX under plane-stress condition and AA6011 aluminum alloy under three-dimension stress condition. Analyses show that normal stress increases the forming limit described both in strain space and in stress space. Moreover, the sensitivity of forming limit curve to normal stress is associated with the material׳s hardening effect.
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