论文信息 - The Computational Modeling of Crystalline Materials Using a Stochastic Variational Principle

The Computational Modeling of Crystalline Materials Using a Stochastic Variational Principle

We introduce a variational principle suitable for the computational modeling of crystalline materials. We consider a class of materials that are described by non-quasiconvex variational integrals.We are further focused on equlibria of such materials that have non-attainment structure, i.e., Dirichlet boundary conditions prohibit these variational integrals from attaining their infima. Consequently, the equilibrium is described by probablity distributions. The new variational principle provides the possibility to use standard optimization tools to achieve stochastic equilibrium states starting from given initial deterministic states.

[1] Mitchell Luskin,et al. On the computation of crystalline microstructure , 1996, Acta Numerica.

[2] P. Kloucek. THE STEEPEST DESCENT MINIMIZATION OF DOUBLE-WELL STORED ENERGIES DOES NOT YIELD VECTORIAL MICROSTRUCTURES , 2001 .

[3] W. Ziemer. Weakly differentiable functions , 1989 .

[4] Pablo Pedregal,et al. Variational methods in nonlinear elasticity , 1987 .

[5] B. Dacorogna,et al. Implicit partial differential equations , 1999 .

[6] D. Preiss,et al. WEAKLY DIFFERENTIABLE FUNCTIONS (Graduate Texts in Mathematics 120) , 1991 .