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Updated and expanded coverage of the latest trends and developments in fiber composite materials, processes, and applications Analysis and Performance of Fiber Composites, Fourth Edition features updated and expanded coverage of all technical aspects of fiber composites, including the latest trends and developments in materials, manufacturing processes, and materials applications, as well as the latest experimental characterization methods. Fiber reinforced composite materials have become a fundamental part of modern product manufacturing. Routinely used in such high-tech fields as…mehr

Produktbeschreibung
Updated and expanded coverage of the latest trends and developments in fiber composite materials, processes, and applications Analysis and Performance of Fiber Composites, Fourth Edition features updated and expanded coverage of all technical aspects of fiber composites, including the latest trends and developments in materials, manufacturing processes, and materials applications, as well as the latest experimental characterization methods. Fiber reinforced composite materials have become a fundamental part of modern product manufacturing. Routinely used in such high-tech fields as electronics, automobiles, aircraft, and space vehicles, they are also essential to everyday staples of modern life, such as containers, piping, and appliances. Little wonder, when one considers their ease of fabrication, outstanding mechanical properties, design versatility, light weight, corrosion and impact resistance, and excellent fatigue strength. This Fourth Edition of the classic reference--the standard text for composite materials courses, worldwide--offers an unrivalled review of such an important class of engineering materials. Still the most comprehensive, up-to-date treatment of the mechanics, materials, performance, analysis, fabrication, and characterization of fiber composite materials available, Analysis and Performance of Fiber Composites, Fourth Edition features: Expanded coverage of materials and manufacturing, with additional information on materials, processes, and material applications Updated and expanded information on experimental characterization methods--including many industry specific tests Discussions of damage identification techniques using nondestructive evaluation (NDE) Coverage of the influence of moisture on performance of polymer matrix composites, stress corrosion of glass fibers and glass reinforced plastics, and damage due to low-velocity impact New end-of-chapter problems and exercises with solutions found on an accompanying website Computer analysis of laminates No other reference provides such exhaustive coverage of fiber composites with such clarity and depth. Analysis and Performance of Fiber Composites, Fourth Edition is, without a doubt, an indispensable resource for practicing engineers, as well as students of mechanics, mechanical engineering, and aerospace engineering.
  • Produktdetails
  • Verlag: Wiley & Sons; Wiley
  • Artikelnr. des Verlages: 1W119389980
  • 4. Aufl.
  • Seitenzahl: 576
  • Erscheinungstermin: 12. Dezember 2017
  • Englisch
  • Abmessung: 244mm x 170mm x 33mm
  • Gewicht: 880g
  • ISBN-13: 9781119389989
  • ISBN-10: 1119389984
  • Artikelnr.: 48900090
Autorenporträt
Bhagwan D. Agarwal, PhD, is a former Vice President of engineering services at Bodycote Polymer--Broutman Laboratory, and Professor of Mechanical Engineering and Dean of Research and Development at the Indian Institute of Technology, Kanpur.

Lawrence J. Broutman, PhD, is an independent consultant and founder of L.J. Broutman & Associates.

K. Chandrashekhara, PhD, is Professor of Mechanical and Aerospace Engineering and Director of the Composite Manufacturing Laboratory at the Missouri University of Science and Technology.
Inhaltsangabe
Preface xv About the Companion Website xvii 1 Introduction 1 1.1 Definition / 1 1.2 Classification / 2 1.3 Particulate Composites / 2 1.4 Fiber-Reinforced Composites / 5 1.5 Applications of Fiber-Reinforced Polymer Composites / 7 Exercise Problems / 15 References / 16 2 Fibers, Matrices, and Fabrication of Composites 17 2.1 Reinforcing Fibers / 17 2.1.1 Glass Fibers / 19 2.1.2 Carbon and Graphite Fibers / 25 2.1.3 Aramid Fibers / 29 2.1.4 Boron Fibers / 30 2.1.5 Other Fibers / 31 2.2 Matrix Materials / 33 2.2.1 Polymers / 33 2.2.2 Metals / 44 2.3 Fabrication of Fiber Composite Products / 45 2.3.1 Fabrication with Thermosetting Resin Matrices / 45 2.3.2 Fabrication with Thermoplastic Resin Matrices / 59 2.3.3 Sandwich Composites / 61 2.3.4 Fabrication with Metal Matrices / 63 2.3.5 Fabrication with Ceramic Matrices / 64 Suggested Reading / 65 3 Micromechanics of Unidirectional Composites 67 3.1 Introduction / 67 3.1.1 Nomenclature / 68 3.1.2 Volume and Weight Fractions / 68 3.2 Longitudinal Loading: Deformation, Modulus, and Strength / 70 3.2.1 Model / 70 3.2.2 Deformation under Small Loads / 71 3.2.3 Load Sharing / 74 3.2.4 Behavior beyond Initial Deformation / 76 3.2.5 Failure Mechanism and Longitudinal Strength / 78 3.2.6 Factors Influencing Longitudinal Strength and Stiffness / 80 3.3 Transverse Loading: Modulus and Strength / 83 3.3.1 Model / 83 3.3.2 Elasticity Methods of Stiffness Prediction / 85 3.3.3 Halpin-Tsai Equations for Transverse Modulus / 86 3.3.4 Transverse Strength / 89 3.4 Shear Modulus / 92 3.5 Poisson's Ratios / 96 3.6 Expansion Coefficients and Transport Properties / 97 3.6.1 Thermal Expansion Coefficients / 97 3.6.2 Moisture Absorption and Expansion Coefficients / 99 3.6.3 Transport Properties / 100 3.7 Failure of Unidirectional Composites / 105 3.7.1 Microscopic Failure Events / 105 3.7.2 Failure under Longitudinal Tensile Loads / 108 3.7.3 Failure under Longitudinal Compressive Loads / 111 3.7.4 Failure under Transverse Tensile Loads / 115 3.7.5 Failure under Transverse Compressive Loads / 116 3.7.6 Failure under In-Plane Shear Loads / 120 3.8 Typical Properties of Unidirectional Fiber Composites / 120 Exercise Problems / 121 References / 126 4 Short-Fiber Composites 129 4.1 Introduction / 129 4.2 Load Transfer to Fibers / 130 4.2.1 Simplified Analysis of Stress Transfer / 130 4.2.2 Stress Distributions from Finite-Element Analysis / 134 4.3 Predicting Modulus and Strength of Short-Fiber Composites / 136 4.3.1 Average Fiber Stress / 136 4.3.2 Longitudinal and Transverse Modulus of Aligned Short-Fiber Composites / 137 4.3.3 Modulus of Randomly Oriented Short-Fiber Composites / 138 4.3.4 Longitudinal Strength of Aligned Short-Fiber Composites / 142 4.3.5 Strength of Randomly Oriented Short-Fiber Composites / 143 4.4 Influence of Matrix Ductility on Properties / 144 Exercise Problems / 148 References / 149 5 Macromechanics Analysis of an Orthotropic Lamina 151 5.1 Introduction / 151 5.1.1 Orthotropic Materials / 151 5.2 Stress-Strain Relations for Unidirectional Composites / 153 5.2.1 Engineering Constants in Longitudinal and Transverse Directions / 153 5.2.2 Off-Axis Engineering Constants / 156 5.2.3 Transformation of Engineering Constants / 158 5.3 Hooke's Law and Stiffness and Compliance Matrices / 167 5.3.1 General Anisotropic Material / 167 5.3.2 Transformation of Stress, Strain, and Elasticity Constants / 169 5.3.3 Stress-Strain Relations for Orthotropic Materials / 169 5.3.4 Transversely Isotropic Material / 170 5.3.5 Isotropic Material / 171 5.3.6 Orthotropic Material under Plane Stress / 172 5.3.7 Compliance Tensor and Compliance Matrix / 173 5.3.8 Relations between Engineering Constants and Elements of Stiffness and Compliance Matrices