TY  - BOOK
AU  - Stein,Erwin
AU  - Borst,René de
AU  - Hughes,Thomas J.R.
TI  - Encyclopedia of computational mechanics
SN  - 0470846992
AV  - TA350 .E53 2004
U1  - 620.10015118 22
PY  - 2004///]
CY  - Chichester, West Sussex
PB  - John Wiley
KW  - Mechanics, Applied
KW  - Mathematical models
N1  - Includes bibliographical references and index; Volume 1; Fundamentals --; 1; Fundamentals, Introduction and Survey; Erwin Stein --; 2; Finite Difference Methods; Owe Axelsson --; 3; Interpolation in h-version Finite Element Spaces; Thomas Apel --; 4; Finite Element Methods; Susanne C. Brenner and Carsten Carstensen --; 5; The p-version of the Finite Element Method; Ernst Rank, Barna Szabo and Alexander Duster --; 6; Spectral Methods; Claudio Canuto and Alfio Quarteroni --; 7; Adaptive Wavelet Techniques in Numerical Simulation; Wolfgang Dahmen, Ronald DeVore and Albert Cohen --; 8; Plates and Shells: Asymptotic Expansions and Hierarchic Models; Zohar Yosibash, Monique Dauge and Erwan Faou --; 9; Mixed Finite Elements Methods; Franco Brezzi, Ferdinando Auricchio and Carlo Lovadina --; 10; Meshfree Methods; Timon Rabczuk, Ted Belytschko, Sonia Fernandez-Mendez and Antonio Huerta --; 11; Discrete Element Method; Nenad Bicanic --; 12; Boundary Element Methods: Foundation and Error Analysis; W. L. Wendland and G. C. Hsiao --; 13; Coupling of Boundary Element Methods and Finite Element Methods; Ernst P. Stephan --; 14; Arbitrary Lagrangian--Eulerian Methods; J. Donea, J.-Ph. Ponthot, A. Rodriguez-Ferran and A. Huerta --; 15; Finite Volume Methods: Foundation and Analysis; Timothy Barth and Mario Ohlberger --; 16; Geometrical Modeling of Technical Objects; F.-E. Wolter, M. Reuter and N. Peinecke --; 17; Mesh Generation and Mesh Adaptivity; P. Laug, P. L. George, P. J. Frey, H. Borouchaki and E. Saltel --; 18; Computational Visualization; William J. Schroeder and Mark S. Shephard --; Volume Rendering; --; 19; Linear Algebraic Solvers and Eigenvalue Analysis; Henk A. van der Vorst --; 20; Multigrid Methods for FEM and BEM Applications; Wolfgang Hackbusch --; 21; Panel Clustering Techniques and Hierarchical Matrices for BEM and FEM; Wolfgang Hackbusch --; 22; Domain Decomposition Methods and Preconditioning; V. G. Korneev and U. Langer --; 23; Nonlinear Systems and Bifurcations; Werner C. Rheinboldt --; 24; Adaptive Computational Methods for Parabolic Problems; K. Eriksson, C. Johnson and A. Logg --; 25; Time-dependent Problems with the Boundary Integral Equation Method; Martin Costabel --; 26; Finite Element Methods for Maxwell Equations; Leszek Demkowicz --; Volume 2; Solids and Structures --; 1; Solids, Introduction and Survey; Rene de Borst --; 2; Finite Element Method for Elasticity with Error-controlled Approximation and Model Adaptivity; Marcus Ruter and Erwin Stein --; 3; Models and Finite Elements for Thin-walled Structures; W. A. Wall, M. Bischoff, K.-U. Bletzinger and E. Ramm --; 4; Buckling of Structures; Eduard Riks --; 5; Linear and Nonlinear Structural Dynamics; Gregory M. Hulbert --; 6; Computational Contact Mechanics; P. Wriggers and G. Zavarise --; 7; Elastoplastic and Viscoplastic Deformations in Solids and Structures; F. Armero --; 8; Crystal Plasticity; Jan Schotte and Christian Miehe --; 9; Shakedown and Safety Assessment; Nestor Zouain --; 10; Damage, Material Instabilities, and Failure; Rene de Borst --; 11; Computational Fracture Mechanics; Anthony R. Ingraffea --; 12; Homogenization Methods and Multiscale Modeling; Tarek I. Zohdi --; 13; Computational Modelling of Damage and Failures in Composite Laminates; J. N. Reddy and D. H. Robbins Jr --; 14; Computational Modeling of Forming Processes; D. R. J. Owen and D. Peric --; 15; Computational Concrete Mechanics; Roman Lackner, Herbert A. Mang and Christian Pichler --; 16; Computational Geomechanics Including Consolidation; John P. Carter and John C. Small --; 17; Multifield Problems; B. A. Schrefler --; Part itioned; Solution Procedures --; 18; Computational Biomechanics of Soft Biological Tissue; Gerhard A. Holzapfel --; 19; Identification of Material Parameters for Constitutive Equations; R. Mahnken --; 20; Stochastic Finite Element Methods; Steen Krenk and Miguel A. Gutierrez --; 21; Fluid-structure Interaction Problems; Roger Ohayon --; 22; Acoustics; Peter M. Pinsky and Lonny L. Thompson --; 23; Boundary Integral Equation Methods for Elastic and Plastic Problems; Marc Bonnet --; 24; Boundary Element Methods for the Dynamic Analysis of Elastic, Viscoelastic, and Piezoelastic Solids; M. Schanz, M. Kogl, L. Gaul and F. Moser --; Volume 3; Fluids --; 1; Fluids, Introduction and Survey; Thomas J. R. Hughes --; 2; Multiscale and Stabilized Methods; Thomas J. R. Hughes, Leopoldo P. Franca and Guglielmo Scovazzi --; 3; Spectral Element and hp Methods; Robert M. Kirby and George Em Karniadakis --; 4; Discontinuous Galerkin Methods for Computational Fluid Dynamics; B. Cockburn --; 5; Vortex Methods; G. S. Winckelmans --; Part icle; Redistribution --; 6; Incompressible Viscous Flows; Rolf Rannacher --; 7; Computability and Adaptivity in CFD; J. Hoffman and C. Johnson --; 8; Dynamic Multilevel Methods and Turbulence; T. Dubois, R. M. Temam and F. Jauberteau --; 9; Turbulence Direct Numerical Simulation and Large-eddy Simulation; Pierre Sagaut --; 10; Turbulence Closure Models for Computational Fluid Dynamics; Paul A. Durbin --; 11; Aerodynamics; Antony Jameson --; 12; Industrial Aerodynamics; Frederic L. Chalot --; 13; CFD-based Nonlinear Computational Aeroelasticity; Charbel Farhat --; 14; Mixed Finite Element Methods for Non-newtonian Fluid; Patrick D. Anderson, Martien A. Hulsen and Frank P. T. Baaijens --; 15; Combustion; T. J. Poinsot and D. P. Veynante --; 16; Blood Flow; Charles A. Taylor --; 17; Finite Element Methods for Fluid Dynamics with Moving Boundaries and Interfaces; Tayfun E. Tezduyar --; 18; Ship Hydrodynamics; Sergio R. Idelsohn, Julio Garcia and Eugenio Onate
N2  - "Over the past four decades computational methods in applied mechanics have developed into valuable tools that are widely used across both industry and academia. The applications are numerous: aerospace structures, civil engineering structures, geotechnics, flow problems, automotive industry, geo-environmental modelling, biomechanics, electromagnetism, metal forming, to name but a few. This three volume set provides the most comprehensive and up-to-date collection of knowledge about this increasingly important area of engineering science. The Encyclopedia provides a well-rounded and practical knowledge base that will serve as a foundation for the reader's research and practice in developing designs and in understanding, assessing and managing numerical analysis systems. Containing over 70 in-depth and thoroughly cross referenced articles on key topics from internationally renowned researchers, the Encyclopedia of Computational Mechanics will cover three key areas. Volume One: Fundamentals will cover the basic concepts behind discretization, interpolation, error estimation, solvers, computer algebra and geometric modelling. Volume Two: Solids and Volume Three: Fluids will build on this foundation with extensive, in-depth coverage of industrial applications."--Publisher's website
ER  -