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Full Description
This second edition offers a comprehensive collection of state-of-the-art chapters on continuum mechanics, covering topics such as the constitutive theory of magnetoelastic solids, solids with evolving reference configurations, second-gradient solids, and biological tissues. Featuring both updated original chapters and new contributions from leading experts, it provides a rigorous theoretical treatment of constitutive laws for modeling the mechanical and coupled-field behavior of solid materials. The book explores a broad spectrum of material behavior, including isotropic and anisotropic nonlinear elasticity, implicit theories, viscoelasticity, plasticity, electro- and magneto-mechanical interactions, growth, damage, thermomechanics, poroelasticity, composites, and homogenization. By presenting a unified theoretical framework, it serves as a valuable resource for researchers studying the deformation of solid materials across various applications and is an essential reference for graduate students, senior academics, and industry professionals alike.
Contents
Basic elements of continuum mechanics.- Constitutive theory of nonlinear elasticity.- Thermomechanics.- Viscoelastic solids.- A primer on plasticity.- Nonlinear constitutive modeling of electroelastic solids.- Nonlinear constitutive modeling of magnetoelastic solids.- A review of implicit constitutive theories to describe the response of elastic bodies.- Waves and material properties.- Continuum damage mechanics modelling and simulation.- Theories of growth.- Natural configurations.- Gradient elasticity/nonlocal elasticity.- Finite-strain homogenization models for anisotropic dielectric elastomer composites.- Multiscale homogenization for linear mechanics.- Porosity and diffusion in biological tissues Recent Advances and Further Perspectives.- Constitutive models of biological tissues.
