1 Computational Methods for Debonding in Composites, by René de Borst and Joris J.C. Remmers; 2 Material and Failure Models for Textile Composites, by Raimund Rolfes, Gerald Ernst, Matthias Vogler and Christian Hühne; 3 Practical Challenges in Formulating Virtual Tests for Structural Composites, by Brian N. Cox, S. Mark Spearing and Daniel R. Mumm; 4 Analytical and numerical investigation of the length of the cohesive zone in delaminated composite materials, by Albert Turon, Josep Costa, Pedro P. Camanho and Pere Maimi; 5 Combining elastic brittle damage with plasticity to model the non-linear behavior of fiber reinforced laminates, by Clara Schuecker and Heinz E. Pettermann; 6 Study of delamination in composites by using the serial parallel mixing theory and a damage formulation, by Xavier Martinez, Sergio Oller and Ever Barbero; 7 Interaction Between Intraply and Interply Failure in Laminates, by F.P. van der Meer and L.J. Sluys; 8 A Numerical Material Model for Predicting the High Velocity Impact Behaviour of Polymer Composites, by Lucio Raimondo, Lorenzo Iannucci, Paul Robinson and Silvestre T. Pinho; 9 Progressive Damage Modeling of Composite Materials under both Tensile and Compressive Loading Regimes, by N. Zobeiry, A. Forghani, C. McGregor, R. Vaziri and A. Poursartip; 10 Elastoplastic Modeling of Multi-phase Metal Matrix Composite with Void Growth using the Transformation Field Analysis and Governing Parameter Method, by Ernest T.Y. Ng and Afzal Suleman; 11 Prediction of Mechanical Properties of Composite Materials by Asymptotic Expansion Homogenisation, by J.A. Oliveira, J. Pinho-da-Cruz and F. Teixeira-Dias; 12 On Buckling Optimization of a Wind Turbine Blade, by Erik Lund and Leon S. Johansen; 13 Computation of Effective Stiffness Properties for Textile-Reinforced Composites Using X-FEM, by M. Kastner, G. Haasemann, J. Brummund and V. Ulbricht; 14 Development of Domain Superposition Technique forthe Modelling of Woven Fabric Composites, by Wen-Guang Jiang, Stephen R. Hallett and Michael R. Wisnom; 15 Numerical Simulation of Fiber Orientation and Resulting Thermo-elastic Behavior in reinforced Thermo-plastics, by H. Miled, L. Silva. J.F. Agassant and T. Coupez

Joris J. C. Remmers forscht an der Universität Eindhoven, Niederlande, im Institut für Maschinenbau und vertritt in der Lehre die Festkörpermechanik und die Strömungsmechanik.

This book contains twelve selected papers presented at the ECCOMAS Thematic Conference — Mechanical Response of Composites, and the papers presented by the three plenary speakers.

It describes recent advances in the field of analysis models for the mechanical response of advanced composite materials, ranging from the simulation of the manufacturing process to the inelastic response and collapse of the material. The analysis models are based on recent advances in computational mechanics such as multi-scale modeling, cohesive and partition of unity models.