Advances in Mathematical Modeling and Experimental Methods for Materials and Structures [electronic resource] : The Jacob Aboudi Volume / edited by Rivka Gilat, Leslie Banks-Sills.

Aboudi’s Micromechanics Theories Applied to Multiscale Analysis of Composites -- The Effect of Inclusions on Phase Transformations in Dynamically Driven Plates -- Fitting an Anisotropic Yield Surface Using the Generalized Method of Cells -- A Multiscale Progressive Damage and Failure Modeling Approach For Laminated Fiber Reinforced Composites -- A Comparison of Micromechanical Models for the Homogenization of Microheterogeneous Elastic Composites -- A Multi-scale Formulation for Smart Composites with Field Coupling Effects -- Computational Homogenization of Polymeric Nanofiber Scaffolds and Biological Cells -- A Computational Multiscale Investigation of Failure in Viscoelastic Solids -- Variational Asymptotic Method for Unit Cell Homogenization -- A Computational Framework for Multiscale Analysis of Laminated Composite Plates -- In Situ Characterization and Modeling of Strains near Embedded Electronic Components During Processing and Break-in for Multifunctional Polymer Structures -- Multiscale Hybrid Nano/Microcomposites–Processing, Characterization, and Analysis -- Experimental Yield Surface Determination for Metal Matrix Composites -- Compressive Response of Dentin Micro-Pillars -- Diffusion Linked Solidification Model of Axisymmetric Growth of Gold Nanorods -- Probabilistic Strength of Carbon Nanotube Yarns -- Flaw Identification in Structures via Computationally Assisted NDT -- Some Analytic Solutions for Plane Strain Deformations of Compressible Isotropic Nonlinearly Elastic Materials -- An Equation Both More Consistent and Simpler Than the Bresse-Timoshenko Equation -- A Robust and Consistent First-Order Zigzag Theory for Multilayered Beams -- Anisotropic Elastic Beams With Axially Distributed Loads -- Consistent Loading in Structural Reduction Procedures for Thin Plate Models -- Modelling Generalized Plane Problems with Cylindrical Anisotropy.

This work presents a collection of papers, written by leading authors in honor of Professor Jacob Aboudi. Jacob Aboudi served as Head of the Department of Solid Mechanics, Materials and Structures, as Dean of the Faculty of Engineering and as Incumbent of the Diane and Arthur Belfer Chair of Mechanics and Biomechanics at Tel Aviv University. Aboudi has published more than 200 papers, 2 books and is a leading authority in the field of composite materials. The papers in this volume cover a wide spectrum of topics in the forefront of research in experimental methods and mathematical modeling of materials and structures. Subjects treated include developments in materials science, theoretical and applied mechanics, applied mathematics, applied physics, computational methods in engineering, mechanical and civil engineering. Both theoretical and experimental approaches are presented. As this book reflects the state of the art, possible engineering applications and future research directions are suggested.