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Introduction to the Micromechanics of Composite Materials

  • Format
  • Bog, paperback
  • Engelsk

Beskrivelse

Presents Concepts That Can Be Used in Design, Processing, Testing, and Control of Composite Materials

Introduction to the Micromechanics of Composite Materials weaves together the basic concepts, mathematical fundamentals, and formulations of micromechanics into a systemic approach for understanding and modeling the effective material behavior of composite materials. As various emerging composite materials have been increasingly used in civil, mechanical, biomedical, and materials engineering, this textbook provides students with a fundamental understanding of the mechanical behavior of composite materials and prepares them for further research and development work with new composite materials.

Students will understand from reading this book:



The basic concepts of micromechanics such as RVE, eigenstrain, inclusions, and in homogeneitiesHow to master the constitutive law of general composite materialHow to use the tensorial indicial notation to formulate the Eshelby problemCommon homogenization methodsThe content is organized in accordance with a rigorous course. It covers micromechanics theory, the microstructure of materials, homogenization, and constitutive models of different types of composite materials, and it enables students to interpret and predict the effective mechanical properties of existing and emerging composites through microstructure-based modeling and design. As a prerequisite, students should already understand the concepts of boundary value problems in solid mechanics. Introduction to the Micromechanics of Composite Materials is suitable for senior undergraduate and graduate students.

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Detaljer
  • SprogEngelsk
  • Sidetal238
  • Udgivelsesdato22-01-2018
  • ISBN139781138490499
  • Forlag Crc Press
  • FormatPaperback
Størrelse og vægt
  • Vægt453 g
  • coffee cup img
    10 cm
    book img
    17,8 cm
    25,4 cm

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    Dislocation Composite materials Green's functions Micromechanics Particulate Composites Vector field Elastic Fields Stress Concentration Factors Damage Green's function Voids Fourier-Integral Tensor field Ellipsoidal Inhomogeneities Potential theory 3D Domain Asymptotic Homogenization Method Cartesian Tensors Boundary Effects on Effective Elasticity of a Periodic Composite Effective Young’s Modulus Eigenstrain Ellipsoidal Inclusion Cartesian Vectors Eshelby’s Tensor Effective Material Behavior Classical Variational Principles Fundamental Solution for Semi-Infinite Domains Eshelby’s Equivalent Inclusion Method Elastic Green’s Function General Elastic Solution Eshelby’s Solution Hashin–Shtrikman’s Variational Principle Homogenization for Effective Elasticity Based on the Vectorial Methods Hill’s Theorem Green’s Identities Helmholtz’s Decomposition Theorem inhomogeneity Differential Scheme Homogenization for Effective Elasticity Based on the Energy Methods Hill’s Bounds Elastic Equations Elastic Solution Ellipsoidal Domain Inclusion Based Boundary Element Method Infinite Domain Equivalent Inclusion Method Ellipsoidal Inclusion Problems Finite Volume Fraction Microcracks Mori Tanaka Model Hashin Shtrikman’s Bounds One-Dimensional Asymptotic Homogenization Inclusion Problem Penny Shape Crack Inhomogeneity Problem Semi-infinite Domain Spherical Inhomogeneity Problem Holes Sparsely Distributed in a Plate Homogenization for Effective Elasticity Based on the Perturbation Method Homogenization of a Periodic Composite Strain Energy Spherical Inclusion Problem Unit Cell Volume Integrals Two-Phase Composites Material Phases The Elastic Green’s Function stress and strain Uniform Eigenstrain Stiffness C1 The Equivalent Inclusion Method Volume Fraction Φ1
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