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Published in ''Computational Mechanics'', Vol. 63 (6), 1243–1260, 2019 <br />
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Published in ''Computational Mechanics'', Vol. 63 (6), pp. 1243–1260, 2019 <br />
 
doi: 10.1007/s00466-018-1647-9  
 
doi: 10.1007/s00466-018-1647-9  
  

Latest revision as of 10:32, 28 October 2019

Published in Computational Mechanics, Vol. 63 (6), pp. 1243–1260, 2019
doi: 10.1007/s00466-018-1647-9

Abstract

In this work a stabilized mixed formulation for the solution of non-linear solid mechanics problems in nearly-incompressible conditions is presented. In order to deal with high material deformation, an implicit Material Point Method is chosen. Such choice allows avoiding the classical limitations of the Finite Element Method, e.g., element tangling and extreme mesh distortion. The proposed mixed formulation, with displacement and pressure as primary variables, is tested through classical benchmarks in solid and geo-mechanics where a Neo-Hookean, a J2 and a Mohr-Coulomb plastic law are employed. Further, the stabilized mixed formulation is compared with a displacement-based formulation to demonstrate how the proposed approach gets better results in terms of accuracy, not only when incompressible materials are simulated, but also in the case of compressible ones.

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Published on 01/01/2019

DOI: 10.1007/s00466-018-1647-9
Licence: CC BY-NC-SA license

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