Topics of this book span the range from spatial and temporal discretization techniques for contact and impact problems with small and finite deformations over investigations on the reliability of micromechanical contact models over emerging techniques for rolling contact mechanics to homogenization methods and multi-scale approaches in contact problems. Furthermore, solution algorithms for single- and multi-processor computing environments, enabling methods that span from multi-contact to multi-scale approaches are discussed together with numerical experiments related to soil mechanics using discontinuous deformation analysis.…mehr
Topics of this book span the range from spatial and temporal discretization techniques for contact and impact problems with small and finite deformations over investigations on the reliability of micromechanical contact models over emerging techniques for rolling contact mechanics to homogenization methods and multi-scale approaches in contact problems. Furthermore, solution algorithms for single- and multi-processor computing environments, enabling methods that span from multi-contact to multi-scale approaches are discussed together with numerical experiments related to soil mechanics using discontinuous deformation analysis.
Produktdetails
Produktdetails
CISM International Centre for Mechanical Sciences 498
Artikelnr. des Verlages: 12068043, 978-3-211-77297-3
2007
Seitenzahl: 260
Erscheinungstermin: 29. Januar 2008
Englisch
Abmessung: 246mm x 175mm x 20mm
Gewicht: 548g
ISBN-13: 9783211772973
ISBN-10: 3211772979
Artikelnr.: 23395167
Autorenporträt
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 .
Inhaltsangabe
Emerging Spatial and Temporal Discretization Methods in Contact and Impact Mechanics.- Reliability of Micromechanical Contact Models: a Still Open Issue.- Modern Approaches on Rolling Contact.- Homogenization and Multi-Scale Approaches for Contact Problems.- Contact on Multiprocessor Environment: from Multicontact Problems to Multiscale Approaches.- Numerical Soil Mechanics Experiments using Discontinuous Deformation Analysis.
Preface.
Introduction.
Introduction to Contact Mechanics.
Continuum Solid Mechanics and Weak Forms.
Contact Kinematics.
Constitutive Equations for Contact Interfaces.
Contact Boundary Value Problem and Weak Form.
Discretization of the Continuum.
Discretization, Small Deformation Contact.
Discretization, Large Deformation Contact.
Solution Algorithms.
Thermo-mechanical Contact.
Beam Contact.
Adaptive Finite Element Methods for Contact Problems.
Computation of Critical Points with Contact Constraints.
Appendix A: Gauss Integration Rules.
Appendix B: Convective Coordinates.
Appendix C: Parameter Identification for Friction Materials.
References.
Index.
to Contact Mechanics.- Continuum Solid Mechanics and Weak Forms.- Contact Kinematics.- Constitutive Equations for Contact Interfaces.- Contact Boundary Value Problem and Weak Form.- Discretization of the Continuum.- Discretization, Small Deformation Contact.- Discretization, Large Deformation Contact.- Solution Algorithms.- Thermo-mechanical Contact.- Beam Contact.- Computation of Critical Points with Contact Constraints.- Adaptive Finite Element Methods for Contact Problems.
Emerging Spatial and Temporal Discretization Methods in Contact and Impact Mechanics.- Reliability of Micromechanical Contact Models: a Still Open Issue.- Modern Approaches on Rolling Contact.- Homogenization and Multi-Scale Approaches for Contact Problems.- Contact on Multiprocessor Environment: from Multicontact Problems to Multiscale Approaches.- Numerical Soil Mechanics Experiments using Discontinuous Deformation Analysis.
Preface.
Introduction.
Introduction to Contact Mechanics.
Continuum Solid Mechanics and Weak Forms.
Contact Kinematics.
Constitutive Equations for Contact Interfaces.
Contact Boundary Value Problem and Weak Form.
Discretization of the Continuum.
Discretization, Small Deformation Contact.
Discretization, Large Deformation Contact.
Solution Algorithms.
Thermo-mechanical Contact.
Beam Contact.
Adaptive Finite Element Methods for Contact Problems.
Computation of Critical Points with Contact Constraints.
Appendix A: Gauss Integration Rules.
Appendix B: Convective Coordinates.
Appendix C: Parameter Identification for Friction Materials.
References.
Index.
to Contact Mechanics.- Continuum Solid Mechanics and Weak Forms.- Contact Kinematics.- Constitutive Equations for Contact Interfaces.- Contact Boundary Value Problem and Weak Form.- Discretization of the Continuum.- Discretization, Small Deformation Contact.- Discretization, Large Deformation Contact.- Solution Algorithms.- Thermo-mechanical Contact.- Beam Contact.- Computation of Critical Points with Contact Constraints.- Adaptive Finite Element Methods for Contact Problems.
Rezensionen
From the reviews of the second edition: "The book is not simply a monograph reviewing the author's distinguished research career, but a true textbook covering the research of the major players in computational contact mechanics over the last 25 years and offers an extensive list of references. ... If I were given the opportunity to teach an advanced special topics course on finite element methods, I wouldn't hesitate to use this book. For a researcher ... the text provides an excellent review." (David J. Benson, SIAM Review, Vol. 49 (2), 2007)
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