Title of article
AN EFFICIENT STRESS ALGORITHM WITH APPLICATIONS IN VISCOPLASTICITY AND PLASTICITY
Author/Authors
Stefan Hartmann ، نويسنده , , GEORG LUHRS، نويسنده , , PETER HAUPT، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 1997
Pages
23
From page
991
To page
1013
Abstract
This paper deals with two main topics. The Þrst one concerns the equivalence of stress algorithms, based on
a Backward-Euler-step applied on viscoplastic models of Chaboche-type, and their elastoplastic counterpart.
Generally, the stress algorithm yields a system of non-linear algebraic equations and the corresponding
consistent tangent operator, occurring in the principle of virtual displacements, leads to a system of linear
equations. This procedure can be obtained utilizing only numerical methods. The second topic concerns
a special constitutive relation based on a kinematic hardening model using a sum of Armstrong/Frederick
terms, which is equivalent to a multi-surface plasticity model. Applying this model a so-called problemadapted
stress algorithm is derived, where only one non-linear equation must be solved. This result is
independent of the number of terms in the hardening model. Furthermore, only the viscoplastic algorithm
must be implemented, since it includes the elastoplastic constitutive model as a special case.
Keywords
?nite elements , Viscoplasticity , stress algorithm , Kinematic hardening , Plasticity
Journal title
International Journal for Numerical Methods in Engineering
Serial Year
1997
Journal title
International Journal for Numerical Methods in Engineering
Record number
423297
Link To Document