Numerical Methods in Engineering
Proceedings of the First European Conference, Brussels, Belgium, 7-11 September 1992
Published in August 1992
Book
Hardback
890 pages
978-0-444-89794-7 (ISBN)
Description
The European Conference on Numerical Methods in Engineering and the European Conference on Computational Fluid Dynamics are an initiative of national Scientific Societies of many countries in Europe engaged in these fields. The 122 papers in this volume provide a comprehensive overview on the state-of-the-art in scientific computing applied to engineering sciences, both in and outside Europe. Topics discussed include: Finite element, difference and volume methods; Boundary elements; Stochastic processes; Optimization techniques; Massively parallel and vector computing on new architectures; Software engineering tools; Partial differential and integral equations. Modelization and Applications. Elasticity and plasticity; Nonlinear solid mechanics; Fracture mechanics, damage tolerance; Contact problems; Multibody dynamics; Solidification processes; Composite materials; Fluid/solid interactions; Electromagnetics, scattering and diffraction of waves; Semiconductors, supraconductors.
Containing contributions by some of the world's leading experts, the work will be the definitive reference source for anyone interested in the latest advances and results of current experimental research in numerical methods.
The European Conference on Numerical Methods in Engineering and the European Conference on Computational Fluid Dynamics are an initiative of national Scientific Societies of many countries in Europe engaged in these fields. The 122 papers in this volume provide a comprehensive overview on the state-of-the-art in scientific computing applied to engineering sciences, both in and outside Europe. Topics discussed include: Finite element, difference and volume methods; Boundary elements; Stochastic processes; Optimization techniques; Massively parallel and vector computing on new architectures; Software engineering tools; Partial differential and integral equations. Modelization and Applications. Elasticity and plasticity; Nonlinear solid mechanics; Fracture mechanics, damage tolerance; Contact problems; Multibody dynamics; Solidification processes; Composite materials; Fluid/solid interactions; Electromagnetics, scattering and diffraction of waves; Semiconductors, supraconductors.
Containing contributions by some of the world's leading experts, the work will be the definitive reference source for anyone interested in the latest advances and results of current experimental research in numerical methods.
Containing contributions by some of the world's leading experts, the work will be the definitive reference source for anyone interested in the latest advances and results of current experimental research in numerical methods.
The European Conference on Numerical Methods in Engineering and the European Conference on Computational Fluid Dynamics are an initiative of national Scientific Societies of many countries in Europe engaged in these fields. The 122 papers in this volume provide a comprehensive overview on the state-of-the-art in scientific computing applied to engineering sciences, both in and outside Europe. Topics discussed include: Finite element, difference and volume methods; Boundary elements; Stochastic processes; Optimization techniques; Massively parallel and vector computing on new architectures; Software engineering tools; Partial differential and integral equations. Modelization and Applications. Elasticity and plasticity; Nonlinear solid mechanics; Fracture mechanics, damage tolerance; Contact problems; Multibody dynamics; Solidification processes; Composite materials; Fluid/solid interactions; Electromagnetics, scattering and diffraction of waves; Semiconductors, supraconductors.
Containing contributions by some of the world's leading experts, the work will be the definitive reference source for anyone interested in the latest advances and results of current experimental research in numerical methods.
More details
Language
English
Place of publication
Oxford
United Kingdom
Publishing group
Elsevier Science & Technology
Target group
College/higher education
Professional and scholarly
Dimensions
Height: 230 mm
ISBN-13
978-0-444-89794-7 (9780444897947)
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Schweitzer Classification
Content
(Abbreviated)Sessions:Mesh Generation and Adaptivity I. Current trends in the rho-adaptive boundary element method (M. Cerrolaza). Parallel Computing I. Simulation of ground vibration on a massively data-parallel computer (M. Berglund, S. Erlingsson). Nonlinear Structural Mechanics I. Curved-fronted edge cracks in circular bars subjected to bending (A. Carpinteri). Electromagnetics I. Computation of the modes of dielectric waveguides by finite elements coupled with an integral representation (A.S. Bonnet-Bendhia, N. Gmati). Contact-Friction. On FEM modelling of contact-impact problems in solid mechanics based on penalty-function-type algorithms (I. Hunek). Mesh Generation and Adaptivity II. New adaptive techniques for structural problems (G. Bugeda, E. O#ate). Forming Processes. Some features of a new program for simulating thin sheet metal forming processes (E. Anderheggen). Mesh Generation and Adaptivity III. Anisotropic adaptive mesh: application to transient problems (P. Coorevits et al.). Nonlinear Structural Mechanics II. A damage mechanics model for beams (B.K. Alves, J. Lubliner). Structural Dynamics I. Vibrations of an initially prestressed compound column under axial compression (J. Przybylski, L. Tomski). Heat Transfer. An alternating direction implicit procedure for calculating the temperature distribution in a metal cutting tool (J.F.L. Chan). Parallel Computing II. On a domain decomposition method for parallel computing in elasto-plasticity (L. Badea). Structural Dynamics II. Finite element analysis of the fluid-elastic and wake characteristics of a cylinder undergoing lateral oscillations (P. Anagnostopoulos). Boundary Element Method. A Trefftz method for a simplified analysis of elastic structures (Ch. Hochard, L. Proslier). Plate and Shells I. Isometrical transformations and nonlinear finite element shell analysis (H.F. Frackiewicz et al.). Electromagnetics II. Nonlinear network flows with side constraints applied to short term hydrothermal coordination of electricity generation (F.J. Heredia, N. Naboma). Optimization I. Structural optimization as tool for shape design (K.-U. Bletzinger, E. Ramm). Numerical Methods I. An asymptotic general theory for linear elastic nonhomogeneous anisotropic rods (J.A. Alvarez-dios, J.M. Via#o). Plate and Shells II. An analysis of boundary layer phenomenon arising from a generalized Mindlin-Reissner model (H. Bendhia). Finite Element Technology I. Study of two complementary hybrid-Trefftz rho-element formulations (J. Jirousek, A.P. Zielenski). Nonlinear Structural Mechanics III. Post-buckling of imperfect structures by an asymptotical-numerical method (L. Azrar, M. Potier-Ferry). Composites. Presentation of a linear or nonlinear analysis method for multilayered composite plates and shells with edge effects influence (P. Lardeur).