Synopses & Reviews
This book contains a collection of full papers presented at the ECCOMAS Multidisciplinary Jubilee Symposium -- New Computational Challenges in Materials, Structures, and Fluids, held in Vienna, Austria, February 18-20, 2008. Computational challenges in materials, structures, and fluids, with a focus on multidisciplinarity and multi-scale analysis, are a hot topic in the engineering sciences (aerospace, civil, mechanical, etc.). Modern society in general and applied engineering sciences in particular are confronted with problems with levels of complexity never encountered before in the history of mankind. The solution of scientific problems involving fluids together with solids and structures, not to forget materials, is of paramount importance in a technical world of rapidly increasing sophistication, referred to as the Leonardo World by the eminent German philosopher Jürgen Mittelstrass. With this in mind, the ECCOMAS Managing Board decided to bring the principles of Applied Sciences into focus of the Jubilee Symposium by reconsidering the sources of relevant knowledge on processes occurring at different spatial and temporal scales. They are related to phenomena on different levels such as the nano-, micro-, meso-, and the macro level.
Synopsis
In this book selected full papers (approx. 25) of contributions of the ECCOMAS Multidisciplinary Jubilee Symposium a New Computational Challenges in Materials, Structures, and Fluids, February 18-20, 2008, Vienna, Austria are published.
This volume covers aspects such as physical and chemical characterization, multiscale modelling concepts, continuum micromechanics, microfluidics, computational homogenization, and transport in (multi-)porous media, as well as applications in aerospace, transport, mechanical, civil, and bioengineering, the scientific program flows along different tracks of materials, structures, and fluids.
Synopsis
This book contains 23 papers presented at the ECCOMAS Multidisciplinary Jubilee Symposium - New Computational Challenges in Materials, Structures, and Fluids (EMJS08), in Vienna, February 18-20, 2008. The main intention of EMJS08 was to react adequately to the increasing need for interdisciplinary research activities allowing ef?cient solution of complex problems in engineering and in the applied sciences. The 15th anniversary of ECCOMAS (European Community on Computational Methods in Applied Sciences) provided a suitable frame for taking the afo- mentioned situation into account by inviting distinguished colleagues from d- ferent areas of engineering and the applied sciences, encouraging them to choose multidisciplinary topics for their lectures. The main themes of EMJS08 have a long tradition in engineering and in the applied sciences: materials, structures, and ?uids. The solution of scienti?c pr- lems involving ?uids together with solids and structures, not to forget the materials the structures are made of, is of paramount importance in a technical world of rapidly increasing sophistication, referred to as the Leonardo World by the eminent German philosopher Ju]rgen Mittelstra. More recently, the main themes of EMJS08 have gained considerable mom- tum, owing to signi?cant progress in nanotechnology. It enables resolution of a multitude of materials into their micro- and nanostructures. Covering aspects such as - Physical and chemical characterization - Multiscale modeling concepts, continuum micromechanics, and computational homogenization, as well as - Applications in various engineering ?elds the individual contributions to this book ?ow along different tracks of ?uids, materials, and structures.
Synopsis
This book offers full papers presented at the ECCOMAS Multidisciplinary Jubilee Symposium--New Computational Challenges in Materials, Structures, and Fluids. These papers present a multi-scale analysis and cover a wide swath of engineering fields.
Table of Contents
Preface; H. Gomez, V.M. Calo, and T.J.R. Hughes: Isogeometric Analysis of Phase-field Models: Application to the Cahn-Hilliard Equation; S.R. Idelsohn, E. Oñate, R. Rossi, J. Marti, and F. Del Pin: New computational challenges in fluid-structure interactions problems; P. Wriggers, D.S. Mueller-Hoeppe, and St. Loehnert: Brick elements for finite deformations based on macro-concepts and on inhomogeneous mode enhancement; M.A. Habte, N. Khalili, and S. Valliappan: Multi-phase modelling of unsaturated soils; S. Cariou, L. Dormieux, and F. Skoczylas: Swelling of a bentonite plug: a micromechanical approach; M. Papadrakakis, G.M. Stavroulakis: Solution of large-scale porous media problems; S. Valance, R. de Borst, J. Réthoré, and M. Coret: A Finite Element Method for Level Sets; B.A. Schrefler, F. Pesavento, and D. Gawin: Modeling of cementitious materials by means of a multiphysics approach; H. A. Meier, P. Steinmann, and E. Kuhl: On the multiscale computation of confined granular media; E. Stein, M. Rüter, and St. Ohnimus: Computational Model Verification and Validation in Structural Mechanics; R. Grytz and G. Meschke: Microstructure-Oriented Modeling and Computational Remodeling of the Collagen Network in Corneo-Scleral Shells; T. Burczynski and W Kus: Microstructure optimization and identification in multi-scale modeling; J. Füssl and R. Lackner: "Homogenization of strength" - a numerical limit analysis approach; P. Neittaanmaki, S.I. Repin: Computable error indicators for approximate solutions of elliptic problems; E. Ramm, M. von Scheven, Ch. Förster, and W.A. Wall: Interaction of incompressible flows and thin-walled structures; W.A. Wall, A. Gerstenberger, and U.M. Mayer: Advances in fixed-grid fluid structure interaction; E. Kesseler and M.H. van Houten: Exploring automatic multi-objective turbine disc design for virtual engines; J. Sladek, V. Sladek, and P.H.Wen: Modeling of Smart Structures by Meshless Local Integral Equation Method; J. Soric and T. Jarak: Meshless Local Petrov-Galerkin (MLPG) Formulations for Analysis of Shell-like Structures; K. Murotani and G. Yagawa: Hierarchical meshing for the adaptive finite elements; E. Casoni, J. Peraire, and A. Huerta: One-dimensional shock-capturing for high-order discontinuous Galerkin methods; E. Javierre, F.J. Vermolen, C. Vuik, P. Wesseling, and S. van der Zwaag: Computing interfaces in diverse applications; K. Srinivas, J. Periaux, D.S. Lee, and L.F. Gonzalez: New aerospace design challenges: robust multidisciplinary evolutionary techniques.