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sented at a variety of national and international meetings research have been published in numerous scholarly articles and pre- Engineers and the American Society for Composites.The results of his and the Outstanding Graduate Faculty Mentor Award from Wayne State University.He is an elected Fellow of the American Society of Mechanical of Engineering Outstanding Faculty Award from the University of Idaho, the Distinguished Faculty Fellowship Award,the Devlieg Professorship, secretary.He has been the recipient of the Hetenyi Award for Best Research Paper of the Year from the Society for Experimental Mechanics,the College ment of Material and Process Engineering.He has served the American Society for Composites as its president,vice-president,and membership Society for Composites,the American Society for Testing and Materials, the Society for Experimental Mechanics,and the Society for the Advance- including the American Society of Mechanical Engineers,the American Langley Research Center. Dr.Gibson is an active member of numerous professional societies, and Michigan State University.He has been a development engineer for Union Carbide Corporation and a summer faculty fellow at the NASA visiting faculty positions at Stanford University,the University of Florida, sity of Minnesota.He has held full-time faculty positions at Iowa State University,the University of Idaho,and Wayne State University,and from the University of Florida,his M.S.in mechanical engineering from the University of Tennessee,and his Ph.D.in mechanics from the Univer- of the Advanced Composites Research Laboratory at Wayne State Uni- versity.Dr.Gibson received his B.S.degree in mechanical engineering Ronald F.Gibson is a professor of mechanical engineering and director About the author
器器 为巴 6 的 云 3.2.3 3.2.2 Chapter 3 References..... References... 与 台 茶 5 Improved Mechanics of Materials Models...101 Shear Modulus and Poisson's Ratio....99 Transverse Modulus.......... 3.2.1 Longitudinal Modulus.... Introduction.. 1.1 Basic Concepts.. Contents Elementary Mechanics of Materials Models....91. Fabrication Processes. Eiber-Reinforced Lamina..... Effective Moduli of a Continuous The Generally Orthotropic Lamina..63 The Specially Orthotropic Lamina.. Orthotropic and Isotropic Engineering Constants................... Symmetry in Stress-Strain Relationships....... Effective Moduli in Stress-Strain Relationships..... Chapter 2 Lamina Stress-Strain Relationships........................47 Review of Basic Mechanics of Materials Equations............. Elements of Mechanical Behavior of Composites........ Structural Applications of Composites....... 122 Matrix and Biller Materials..1. Fiber Materials Constituent Materials for Composites...6 Chapter I Introduction Preface to First Edition..xii 三 器 3 齿
品 39 64.2 5.41 6.31 2.21 Chapter 6 References 黑 知 忍 招 References.... 张4 盐 3.5 Introduction.. 47.4 4.33 4.3.2 631 42.3 42.2 42.1 Chapter 4 References...... 3.6 Problems. Modulus Analysis. Stress and Strength Analysis :TT·.…Pr Randomly Oriented Discontinuous Fibers................... 6.3.2 Modulus Analysis. Stress and Strength Analysis.... Off-Axis Aligned Discontinuous Fibers... 6.2.2 Modulus Analysis Stress and Strength Analysis... Aligned Discontinuous Fibers. Analysis of a Discontinuous Fiber-Reinforced Micromechanics Models for Hygrothermal Properties. Hygrothermal Effects........... Lamina Stress-Strain Relationships Including Hygrothermal Degradation of Properties... Chapter 5 Analysis of Lamina Hygrothermal Behavior............ Multiaxial Strength..... Transverse Strength. Longitudinal Strength. Micromechanics Models for Lamina Strength..............147 Quadratic Interaction Criteria Maximum Strain Criterion. Maximum Stress Criterion. Multiaxial Strength Criteria... Introduction........ Strength of a Continuous Fiber-Reinforced Semiempirical Models....... Principles of Composite Material Mechanics B 总 尽 芳 宝 202 学 三 奇 总 三 至 三 芦 三 s 后 后 12 品 动 云 品 品 3 References........ References...... 5.5 易 Contents Problems.. ..1 7.8.2 7.81 7.6.3 7.6.1 7.5 24.3 房 Problems... 5.51 7.11.2 Composite Grid Structures.... Structures...... Application of Laminate Analysis to Composite Selection of Laminate Designs. 7.9.2 Buckling Analysis. Analysis of Small Transverse Deflections Deflection and Buckling of Laminates. 花…::花!:…:。g2g De Due to In-Plane Stresses. Configurations....... First Ply Failure and Subsequent Ply Failures Laminate Strength Analysis. Laminate Hygrothermal Expansion Coefficients Hygrothermal Stresses in Laminates Hygrothermal Degradation of Laminates Hygrothermal Effects in Laminates. Compliances. Comparison of Measured and Predicted Equations... Determination of Laminate Engineering Constants....... Determination of Lamina Stresses and Strains........... Inversion of Laminate Force-Deformation Derivation and Use of Laminate Compliances Quasi-Isotropic Laminates. Antisymmetric Laminates Symmetric Laminates Stiffness Characteristics of Selected Laminate Theory of Laminated Plates with Coupling... Theory of Laminated Beams in Pure Flexure........................ 5R0aEa005: Chapter 7 Analysis of Laminates................ 6.5.2 Modulus Analysis. Strength Analysis. Nanofibers and Nanotubes ··359 355 326 342 335 310 常 常 罩 常 紫 三 虽 的 的 芦 26L
三 常 点 3 器 彩 10.34 10.3.3 10.3.2 10.3.1 References.......... 2.23 922 9.21 References........ 8.3.3 8.32 8.2.6 8.2.5 3.2.4 8.2.3 3.2.2 821 Shear Tests....... 0520H0002050040. …T Measurement of Basic Composite Properties.................... 10.2.3 Constituent Volume Fraction Measurement................ 10.2.2 Neat Resin Matrix Tests 10.2.1 Fiber Tests.................. Measurement of Constituent Material Properties. Introduction....... and Their Constituents.... Chapter 10 Mechanical Testing of Composites Stress Fracture Criteria for Through-Thickness Notches.............. Virtual Crack Closure Technique. Strain Energy Release Rate Approach....................... Stress Intensity Factor Approach.. Fracture Mechanics Analyses of Through-Thickness Cracks........ Chapter 9 Analysis of Fracture........ 8.3.4 Analysis of Damping in Composites...... Transverse Vibration of Laminated Plates.................. Flexural Vibration of Composite Beams.... in Specially Orthotropic Composite Bars................. 8.3.1 Longitudinal Wave Propagation and Vibrations Dynamic Behavior of Composites... 8.1 Introduction............ : Temperature and Aging Bffects....... Blastic-Viscoelastic Correspondence Principle........... Sinusoidal Oscillations and Complex Modulus Quasi-Elastic Analysis......... Differential Equations and Spring-Dashpot Models...... and Relaxation....... Boltzmann Superposition Integrals for Creep Linear Viscoelastic Behavior of Composites Chapter 8 Analysis of Viscoelastic and Dynamic Behavior.....377 Principles of Composite Material Mechanics 密 3 513 贯 517 君 51O 君 爱 三 专 艺 5 紫 芬 雪 考 齿 发 书 E 发 邕 多 第 出 等 Appendix A References... 10.5 104. Contents Appendix B Strain-Displacement Equations .................... Problems........ Stress Equilibrium Equations ................... Measurement of Viscoelastic and Dynamic Properties. 10.3.6 Fiber/Matrix Interface Tests....... 图 ·569 两 罢 留 茶