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Plastic anisotropy is a common property of many metallic materials. This property affects the analysis and design of structures and metal forming processes. The present edited collection of papers concerns analytic and numerical methods of structural and metal forming analysis and design using material models for anisotropic materials. Some qualitative features of rigid plastic solutions in anisotropic plasticity are investigated. Both rate-independent and rate-dependent constitutive equations are considered. The effect of plastic anisotropy on the distribution of residual stresses and strains is shown. Some papers deal with thermo-mechanical problems.
fractional viscoplasticity --- rate dependence --- plastic anisotropy --- non-normality --- directional viscosity --- explicit/implicit non-locality. --- hydro-mechanical deep drawing (HDD) --- mechanical property --- type of cooling --- microstructure --- rotating disk --- plane stress --- residual stresses and strains --- flow theory of plasticity --- semi-analytic solution --- anisotropic columnar jointed rock --- numerical model --- centroidal Voronoi diagram --- coefficient of variation --- polar orthotropy --- Hill’s yield criterion --- friction regimes --- singularity --- residual stress --- residual strain --- open-ended cylinder --- autofrettage --- orthotropic plasticity --- temperature-dependent material properties --- composite cylinder --- finite element analysis
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Plastic anisotropy is a common property of many metallic materials. This property affects the analysis and design of structures and metal forming processes. The present edited collection of papers concerns analytic and numerical methods of structural and metal forming analysis and design using material models for anisotropic materials. Some qualitative features of rigid plastic solutions in anisotropic plasticity are investigated. Both rate-independent and rate-dependent constitutive equations are considered. The effect of plastic anisotropy on the distribution of residual stresses and strains is shown. Some papers deal with thermo-mechanical problems.
History of engineering & technology --- fractional viscoplasticity --- rate dependence --- plastic anisotropy --- non-normality --- directional viscosity --- explicit/implicit non-locality. --- hydro-mechanical deep drawing (HDD) --- mechanical property --- type of cooling --- microstructure --- rotating disk --- plane stress --- residual stresses and strains --- flow theory of plasticity --- semi-analytic solution --- anisotropic columnar jointed rock --- numerical model --- centroidal Voronoi diagram --- coefficient of variation --- polar orthotropy --- Hill’s yield criterion --- friction regimes --- singularity --- residual stress --- residual strain --- open-ended cylinder --- autofrettage --- orthotropic plasticity --- temperature-dependent material properties --- composite cylinder --- finite element analysis
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Plastic anisotropy is a common property of many metallic materials. This property affects the analysis and design of structures and metal forming processes. The present edited collection of papers concerns analytic and numerical methods of structural and metal forming analysis and design using material models for anisotropic materials. Some qualitative features of rigid plastic solutions in anisotropic plasticity are investigated. Both rate-independent and rate-dependent constitutive equations are considered. The effect of plastic anisotropy on the distribution of residual stresses and strains is shown. Some papers deal with thermo-mechanical problems.
History of engineering & technology --- fractional viscoplasticity --- rate dependence --- plastic anisotropy --- non-normality --- directional viscosity --- explicit/implicit non-locality. --- hydro-mechanical deep drawing (HDD) --- mechanical property --- type of cooling --- microstructure --- rotating disk --- plane stress --- residual stresses and strains --- flow theory of plasticity --- semi-analytic solution --- anisotropic columnar jointed rock --- numerical model --- centroidal Voronoi diagram --- coefficient of variation --- polar orthotropy --- Hill’s yield criterion --- friction regimes --- singularity --- residual stress --- residual strain --- open-ended cylinder --- autofrettage --- orthotropic plasticity --- temperature-dependent material properties --- composite cylinder --- finite element analysis --- fractional viscoplasticity --- rate dependence --- plastic anisotropy --- non-normality --- directional viscosity --- explicit/implicit non-locality. --- hydro-mechanical deep drawing (HDD) --- mechanical property --- type of cooling --- microstructure --- rotating disk --- plane stress --- residual stresses and strains --- flow theory of plasticity --- semi-analytic solution --- anisotropic columnar jointed rock --- numerical model --- centroidal Voronoi diagram --- coefficient of variation --- polar orthotropy --- Hill’s yield criterion --- friction regimes --- singularity --- residual stress --- residual strain --- open-ended cylinder --- autofrettage --- orthotropic plasticity --- temperature-dependent material properties --- composite cylinder --- finite element analysis
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The book deals with novel aspects and perspectives in functionally graded materials (FGMs), which are advanced engineering materials designed for a specific performance or function with spatial gradation in structure and/or composition. The contributions mainly focus on numerical simulations of mechanical properties and the behavior of FGMs and FGM structures. Several advancements in numerical simulations that are particularly useful for investigations on FGMs have been proposed and demonstrated in this Special Issue. Such proposed approaches provide incisive methods to explore and predict the mechanical and structural characteristics of FGMs subjected to thermoelectromechanical loadings under various boundary and environmental conditions. The contributions have resulted in enhanced activity regarding the prediction of FGM properties and global structural responses, which are of great importance when considering the potential applications of FGM structures. Furthermore, the presented scientific scope is, in some way, an answer to the continuous demand for FGM structures, and opens new perspectives for their practical use.
power-law distribution --- evanescent wave --- flow theory of plasticity --- free vibration characteristics --- neural networks --- geometrically nonlinear analysis --- finite element method --- stress concentration factor --- inhomogeneous composite materials --- circular plate --- porous materials --- minimum module approximation method --- ANFIS --- electroelastic solution --- functionally graded piezoelectric materials --- Love wave --- polynomial approach --- stepped FG paraboloidal shell --- material design --- damping coefficient --- spring stiffness technique --- Lamb wave --- pure bending --- general edge conditions --- residual stress --- graded finite elements --- large strain --- non-linear buckling analysis --- orthogonal stiffener --- combined mechanical loads --- functionally graded piezoelectric-piezomagnetic material --- functionally graded beams --- attenuation --- failure and damage --- analytical solution --- functionally graded materials --- elastoplastic analysis --- elastic foundation --- hollow disc --- different moduli in tension and compression --- external pressure --- functional graded saturated material --- bimodulus --- fuzzy logic --- truncated conical sandwich shell --- quadratic solid–shell elements --- functionally graded viscoelastic material --- finite element analysis --- residual strain --- neutral layer --- elliptical hole --- thin structures --- functionally graded plate --- inhomogeneity --- clustering --- metal foam core layer --- robotics and contact wear --- dispersion --- high order shear deformation theory --- finite elements
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