This work gives a modern, up-to-date account of recent developments in computational multiscale mechanics. Both upscaling and concurrent computing methodologies are addressed for a range of application areas in computational solid and fluid mechanics. This work gives a modern, up-to-date account of recent developments in computational multiscale mechanics. Both upscaling and concurrent computing methodologies will be addressed for a range of application areas in computational solid and fluid mechanics: Scale transitions in materials, turbulence in fluid-structure interaction problems, multiscale/multilevel optimization, multiscale poromechanics.A Dutch-German research group that consists of qualified and well-known researchers in the field has worked for six years on the topic of computational multiscale mechanics. This text provides a unique opportunity to consolidate and disseminate the knowledge gained in this project. The addition of chapters written by experts outside this working group provides a broad and multifaceted view of this rapidly evolving field.
Content: Part 1: Computational Fluid Dynamics: Residual-based
Variational Multiscale Theory of LES Turbulence Modeling, by Y. Bazilevs,
V.M. Calo, T.J.R. Hughes, and G. Scovazzi.- A Posteriori Error Estimation
for Computational Fluid Dynamics. The Variational Multiscale Approach, by G.
Hauke, M.H. Doweidar, and D. Fuster.- Advances in Variational Multiscale
Methods for Turbulent Flows, by P. Gamnitzer, V. Gravemeier, and W.A. Wall.-
Variational Germano Approach for Multiscale Formulation, by I. Akkerman, S.J.
Hulshoff, K.G. van der Zee, and R. de Borst.- Dissipative Structure and Long
Term Behavior of a Finite Element Approximation of Incompressible Flows with
Numerical Subgrid Scale Modeling, by R. Codina, J. Principe, and S. Badia.-
Large-eddy Simulation of Multiscale Particle Dynamics at High Volume
Concentration in Turbulent Channel Flow, by B.J. Geurts.- Part 2: Materials
with Microstructure, An Incremental Strategy for Modeling Laminate
Microstructures in Finite Plasticity Energy Reduction, Laminate Orientation
and Cyclic Behavior, by K. Hackl, and D.M. Kochmann.- The Micromorphic vs.
Phase Field Approach to Gradient Plasticity and Damage with Application to
Cracking in Metal Single Crystals, by O. Aslan, and S. Forest.-
Homogenization and Multiscaling of Granular Media for Different Microscopic
Constraints, by C. Miehe, J. Dettmar, and D. Zäh.- Effective Hydraulic and
Mechanical Properties of Heterogeneous Media with Interfaces, by L. Dormieux,
L. Jeannin, and J. Sanahuja.- An Extended Finite Element Method for the
Analysis of Submicron Heat Transfer Phenomena, by P. Lee, R. Yang, and K.
Maute.- Part 3: Composites, Laminates and Structures.- Optimization:
Multiscale Modeling and Simulation of Composite Materials and Structures, by
J. Fish.- Multiscale Modelling of the Failure Behavior of Fibre-reinforced
Laminates, by M.V. Cid Alfaro, A.S.J. Suiker, and R. de Borst.- Improved
Multiscale Computational Strategies for Delamination, by O.Allix, P.
Gosselet, and P. Kerfriden.- Damage Propagation in Composites Multiscale
Modeling and Optimization, by E. Ramm, A. Erhart, T. Hettich, I. Bruss, F.
Hilchenbach, and J. Kato.- Computational Multiscale Model for NATM Tunnels:
Micromechanics-Supported Hybrid Analyses, by S. Scheiner, B. Pichler, C.
Hellmich, and H.A. Mang.- Optimization of Corrugated Paperboard under Local
and Global Buckling Constraints, by T. Flatscher, T. Daxner, D.H. Pahr, and
F.G. Rammerstorfer.- Framework for Multi-Level Optimization of Complex
Systems, by A. de Wit, and F. van Keulen.- Part 4: Coupled Problems and
Porous Media: A Multiscale/Multiphysics Model for Concrete, by B.A.
Schrefler, F. Pesavento, and D. Gawin.- Swelling Phenomena in
Electro-Chemically Active Hydrated Porous Media, by W. Ehlers, B. Markert,
and A. Acartürk.- Propagating Cracks in Saturated Ionized Porous Media, by
F. Kraaijeveld, and J.M. Huyghe.
