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Small strain crystal plasticity based on the primal‐dual interior point method
Author(s) -
Scheunemann Lisa,
Nigro Paulo S.B.,
Schröder Jörg,
Pimenta Paulo M.
Publication year - 2019
Publication title -
pamm
Language(s) - English
Resource type - Journals
ISSN - 1617-7061
DOI - 10.1002/pamm.201900499
Subject(s) - slip (aerodynamics) , interior point method , plasticity , dissipation , dual (grammatical number) , constraint (computer aided design) , mathematics , mathematical optimization , lagrangian , crystal plasticity , point (geometry) , mathematical analysis , physics , geometry , thermodynamics , art , literature
The paper presents a novel approach for rate‐independent single crystal plasticity based on the Infeasible Primal‐Dual Interior Point Method in a small strain framework. Therein, the principle of maximum dissipation together with the yield functions on the slip systems in the crystal are considered as the constrained optimization problem. The constraint conditions adapted using slack variables and a Lagrangian is formulated using barrier functions. The equations are linearized and solved using Newton's method. Numerical examples are presented for slip on the individual slip systems in a single crystal under global rotation.