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Multi-Scale FE/Damage Percolation Modeling of Ductile Damage Evolution in Aluminum Sheet Forming
Technical Paper
2004-01-0742
ISSN: 0148-7191, e-ISSN: 2688-3627
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English
Abstract
A so-called damage percolation model is coupled with Gurson-based finite element (FE) approach in order to accommodate the high strain gradients and localized ductile damage. In doing so, void coalescence and final failure are suppressed in Gurson-based FE modeling while a measured second phase particle field is mapped onto the most damaged mesh area so that percolation modeling can be performed to capture ductile fracture in real sheet forming operations. It is revealed that void nucleation within particle clusters dominates ductile fracture in aluminum alloy sheet forming. Coalescence among several particle clusters triggered final failure of materials. A stretch flange forming is simulated with the coupled modeling.
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Citation
Chen, Z., Worswick, M., Pilkey, K., and Lloyd, D., "Multi-Scale FE/Damage Percolation Modeling of Ductile Damage Evolution in Aluminum Sheet Forming," SAE Technical Paper 2004-01-0742, 2004, https://doi.org/10.4271/2004-01-0742.Also In
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