Difference between revisions of "Plasticity"

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	Do you want to go back to [[Solid Mechanics]]?		Do you want to go back to [[Solid Mechanics]]?
−	On this page we conduct numerical studies of '''bending of a cantilever loaded at the end''', a common numerical benchmark in elastostatics. <ref> Augarde, Charles E. and Deeks, Andrew J.. "The use of Timoshenko's exact solution for a cantilever beam in adaptive analysis" , ''Finite Elements in Analysis and Design''. (2008), doi: [http://dx.doi.org/10.1016/j.finel.2008.01.010 10.1016/j.finel.2008.01.010] </ref>	+	On this page we conduct numerical studies of '''plastic deformation with von Mises plasticity model and isotropic hardening'''. The majority of the theory is explained in detail in '''Computational Methods for Plasticity - Theory and Applications''' by EA de Souza Neto <ref> de Souza Neto, E.A., Peric, D. and Owen, D.R., 2011. Computational methods for plasticity: theory and applications. John Wiley & Sons</ref>.

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Revision as of 11:28, 8 October 2021

Do you want to go back to Solid Mechanics?

On this page we conduct numerical studies of plastic deformation with von Mises plasticity model and isotropic hardening. The majority of the theory is explained in detail in Computational Methods for Plasticity - Theory and Applications by EA de Souza Neto ^[1].

1. ↑ de Souza Neto, E.A., Peric, D. and Owen, D.R., 2011. Computational methods for plasticity: theory and applications. John Wiley & Sons