A mixed formulation of the plane-stress problem to facilitate reuse of constitutive models in finite-element programs

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Abstract

The plane-stress assumption can be challenging to support in a finite element program because it traditionally requires separate implementations of constitutive models than those intended for three-dimensional or two-dimensional plane-strain simulations. As a solution to this issue, this paper presents a method to solve the plane-stress problem using a mixed formulation. In this formulation, the out-of-plane strain is treated as a field variable that is solved for in addition to the standard in-plane displacement variables, in a manner that weakly enforces the condition that the out-of-plane stress is zero. The proposed formulation is non-intrusive, requiring no modifications to the constitutive models in contrast to the conventional plane-stress formulation. The proposed mixed formulation has been benchmarked against analytical solutions and numerical solutions, with good performance and accuracy.

Original languageEnglish
Article number104307
JournalMechanics Research Communications
Volume139
Early online dateJul 14 2024
DOIs
StatePublished - Aug 2024

Keywords

  • Elastoplasticity
  • Mixed formulation
  • Out-of-plane strain
  • Plane stress

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