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E-raamat: Advances in Mathematical Modeling and Experimental Methods for Materials and Structures: The Jacob Aboudi Volume

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Advances in Mathematical Modeling and Experimental Methods for Materials and Structures: The Jacob Aboudi VolumeSuurem pilt
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This collection of cutting-edge papers, written by leading authors in honor of Professor Jacob Aboudi, covers a wide spectrum of topics in the field, presents both theoretical and experimental approaches, and suggests directions for possible future research.



This volume is dedicated to Jacob Aboudi, a ?ne scientist who has made seminal c- tributions in applied mechanics. The papers presented here re ect the appreciation of many of Jacob’s colleagues. A publication list f- lowing this introduction provides an indi- tion of his distinguished academic career, c- rently in its ?fth decade, and the breadth of hisknowledge. His papersconsistentlydem- strate originality, innovation and diligence. This list uncovers the methodical work of a dedicated researcher whose achievements established him as a leading authority in the area of mathematical modeling of the beh- ior of heterogeneous materials, the area which became known as homogenization theory. Starting in 1981, Jacob established a micromechanical model known as the Method of Cells (MOC) which evolved into the Generalized Method of Cells (GMC) that predicts the macroscopic response of composite materials as a function of the pr- erties, volume fractions, shapes, and constitutive behavior of its constituents. The versatility of the model has been demonstrated to effectively incorporate various types of constituent material behavior (i. e. , both coupled and uncoupled mecha- cal, thermal, electrical and magnetic effects). As a result of its potential in providing an ef cient tool for the emerging ?eld of multiscale analysis, the method gained increasing attention and became a subject for further research.
Aboudis 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/MicrocompositesProcessing, 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.
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