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The book includes different contributions that cover interdisciplinary research in the areas of
· Error controlled numerical methods, efficient algorithms and software development
· Elastic and in elastic deformation processes
· Models with multiscales and multi-physics
"High Performance" adaptive numerical methods using finite elements (FEM) and boundary elements (BEM) are described as well as efficient solvers for linear systems and corresponding software components for non-linear, coupled field equations of various branches of mechanics, electromagnetics, and geosciences.
List of contents
Martensitic Phase Transformations of Mono and Polycrystalline Shape
Memory Alloys - A Theoretically and Numerically Unified Concept.-
Thermo-Hydro-Mechanical Modeling of Coupled Processes in Clay
Materials.-
Multibody Contact Algorithms for Fracturing Solids.-
New Strategies in Finite Element Analysis of Material Processing.-
Computational Techniques for Multiscale Analysis of Materials and
Interfaces.-
Numerical Modelling and Simulation of Atomic Force Microscopes.-
Finite Element and Boundary Element Approaches to Transmission and
Contact Problems in Elasticity.-
Efficient Solvers for Mixed Finite Element Discretization of Nonlinear
Problems in Solid Mechanics.-
Computational Differential Geometry Contributions of the Welfenlab
to GRK 615.-
Analysis of a Mathematical Model Describing Necrotic Tumor Growth.
About the author
§Prof. Dr.-Ing. Peter Wriggers studierte Bauingenieur- und Vermessungswesen, promovierte 1980 an der Universität Hannover und habilitierte 1986 im FachMechanik. Er war GastprofessoranderUCBerkeley, USA,Professor fürMechanik an der TH Darmstadt und Direktor des Darmstädter Zentrums für Wissenschaftliches Rechnen. Seit 1998 ist er Professor für Baumechanik und NumerischeMechanik sowieDirektor des Zentrums für Computational Engineering Sciences an der Universität Hannover. Er ist Mitherausgeber von internationalen Journals und Editor-in-Chief der Zeitschrift Computational Mechanics .
Summary
The book includes different contributions that cover interdisciplinary research in the areas of
· Error controlled numerical methods, efficient algorithms and software development
· Elastic and in elastic deformation processes
· Models with multiscales and multi-physics
“High Performance” adaptive numerical methods using finite elements (FEM) and boundary elements (BEM) are described as well as efficient solvers for linear systems and corresponding software components for non-linear, coupled field equations of various branches of mechanics, electromagnetics, and geosciences.
