Numerical and Experimental Investigation of 5xxx Aluminum Alloy Stretch Flange Forming

Zengtao Chen; Michael Worswick; Oleg Orlov; Mark Finn; David Lloyd

doi:10.4271/2004-01-1051

2004-03-08

Numerical and Experimental Investigation of 5xxx Aluminum Alloy Stretch Flange Forming 2004-01-1051

Stretch flange features are commonly found in the corner regions of commercial parts, such as window cutouts, where large strains can induce localization and necking. In this study, laboratory-scale stretch flange forming experiments on AA5182 and AA5754 were conducted to address the formability of these aluminum alloys under undergoing this specific deformation process. Two distinct cracking modes were found in the stretch flange samples. One is radial cracking at the inner edge of flange (cutout edge) while the other is circumferential cracking away from the inner edge at the punch profile radius.

Numerical simulation of the stretch flange forming operations was conducted with an explicit finite element code-LS-DYNA. A coalescence-suppressed Gurson-based material model is used in the finite element model. Void coalescence and final failure in stretch flange is simulated through measured second-phase particle fields with a so-called damage percolation model. The numerical modeling is assessed by comparison to the experimental results.

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Numerical and Experimental Investigation of 5xxx Aluminum Alloy Stretch Flange Forming 2004-01-1051

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