Description |
1 online resource (xv, 259 pages) : illustrations |
Contents |
Cover -- Overview -- Table of Contents -- 1 Introduction -- 1.1 Objectives of This Work -- 2 Classification of Composites -- 2.1 Volume Concentrations -- 2.2 Geometry at Fixed Phase Concentrations -- 2.3 Composites with Variable Geometry -- 3 Preliminaries on Stress/Strain -- 3.1 Stiffness -- 3.2 Stress -- 3.3 Composite Stiffness Estimated by SCS -- 4 Composite Stress and Geometry -- 4.1 Volumetric Stress -- 4.2 Deviatoric Stress -- 4.3 Summary on Stress and Geometry -- 5 Composite Stiffness and Geometry -- 5.1 Bulk Modulus and Shear Modulus -- 5.2 Young's Modulus and Poisson's Ratio -- 5.3 Special Composites and Observations -- 6 Composite Eigenstrain/Stress -- 6.1 Basics -- 6.2 General Geometry -- 7 Quantification of Geometry -- 7.1 Shape Factors -- 7.2 Shape Functions and Geo-Path -- 7.3 Geo-Paths -- 8 Composite Theory ... Elasticity -- 8.1 Illustrative Examples -- 8.2 Other Examples -- 8.3 FEM-Analysis versus Theory -- 8.4 Conclusion -- 9 Composite Theory ... Conductivity -- 9.1 Theory -- 9.2 Illustrative Examples -- 9.3 Theory versus Experiments -- 9.4 Theory versus SCS-Estimates -- 9.5 Conclusion -- 10 Simplified Composite Theory ... Elasticity -- 10.1 Basis of Analysis -- 10.2 Analysis -- 10.3 Illustrative Examples -- 10.4 Theory and Experiments -- 10.5 Conclusion -- 11 Simplified Composite Theory ... Conductivity -- 11.1 Illustrative Example -- 11.2 Applications -- 11.3 Conclusion -- 12 Diagnostic Aspects of Theory -- 12.1 Stiffness -- 12.2 Conductivity -- 12.3 Discussion -- 13 Aspects of Materials Design -- 13.1 Geometries versus Properties -- 13.2 Design -- 13.3 Illustrative Examples -- 13.4 Discussion -- 14 Viscoelasticity -- 14.1 Stress-Strain Relations -- 14.2 Models of Viscoelastic Materials -- 14.3 Summary, Analysis, and Approximate Analysis -- 15 Viscoelastic Composites -- 15.1 Composite Analysis -- 15.2 Applications -- 15.3 Discussion -- 16 Final Remarks -- A Elasticity -- A.1 Isotropy -- A.2 Cubic Elasticity -- B Dilute Particulate Composites -- B.1 Cubic Stiffness, Shape Parameters, and Stress -- C SCS-Analysis -- C.1 Stiffness -- C.2 Other Physical Properties -- D General Viscoelastic Models -- E HCP and Concrete -- E.1 Volume Models -- E.2 Porosity of Hardening Cement Paste -- Notations |
Summary |
This book deals with the mechanical and physical behavior of composites as influenced by composite geometry. The monograph provides a comprehensive introduction for researchers and students to modern composite materials research with a special emphasis on the influence of geometry to materials properties. Composite Materials enables the reader to a better understanding of the behavior of natural composites, improvement of such materials, and design of new materials with prescribed properties |
Analysis |
chemie |
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chemistry |
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materialen |
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materials |
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condenseren |
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condensation |
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mechanica |
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mechanics |
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polymeren |
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polymers |
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corrosie |
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corrosion |
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Chemistry (General) |
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Chemie (algemeen) |
Bibliography |
Includes bibliographical references |
Notes |
Print version record |
In |
Springer e-books |
Subject |
Composite materials.
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Mechanics.
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Polymers.
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Mechanics
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Chemistry, Inorganic
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Polymers
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composite material.
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mechanics (physics)
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inorganic chemistry.
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polymers.
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TECHNOLOGY & ENGINEERING -- Material Science.
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Composite materials.
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Chimie.
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Science des matériaux.
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Composite materials
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Verbundwerkstoff
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Physikalische Eigenschaft
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Mechanische Eigenschaft
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Form |
Electronic book
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LC no. |
2005920510 |
ISBN |
9783540276807 |
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3540276807 |
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3540243852 |
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9783540243854 |
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6610262624 |
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9786610262625 |
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