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Principles of composite material mechanics Fourth Edition by Ronald F Gibson ISBN 9781498720694 1498720694

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Principles of composite material mechanics Fourth Edition Gibson Digital Instant Download

Author(s): Gibson, Ronald F
ISBN(s): 9781523119066, 1523119063
Edition: Fourth edition
File Details: PDF, 6.28 MB
Year: 2016
Language: english
SKU: EB-12069016 Category: Tags: ,

Principles of composite material mechanics Fourth Edition by  Ronald F Gibson – Ebook PDF Instant Download/Delivery:  9781498720694, 1498720694
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Product details: 

ISBN 10:   1498720694

ISBN 13: 9781498720694

Author:  Ronald F Gibson

The document provides information about the ‘Principles of Composite Material Mechanics, Fourth Edition’ by Ronald F. Gibson, detailing its contents and structure. It includes links to various related engineering texts and emphasizes the mechanical behavior, analysis, and applications of composite materials. The book is published by CRC Press and serves as a comprehensive resource for understanding composite material mechanics.
 

Table of contents: 

1. Introduction

1.1 Basic Concepts.

1.2 Constituent Materials for Composites

1.2.1 Reinforcement Materials including Nanoreinforcements

1.2.2 Matrix and Filler Materials.

1.3 Structural Applications of Composites.

1.4 Multifunctional Applications of Composites.

1.5 Fabrication Processes.

1.6 Elements of Mechanical Behavior of Composites.

1.7 Review of Basic Mechanics of Materials Equations.

References

2. Lamina Stress-Strain Relationships.

2.1 Introduction

2.2 Effective Moduli in Stress-Strain Relationships.

2.3 Symmetry in Stress-Strain Relationships.

2.4 Orthotropic and Isotropic Engineering Constants

2.5 Specially Orthotropic Lamina.

2.6 Generally Orthotropic Lamina

References

3. Effective Moduli of a Continuous Fiber-Reinforced Lamina

3.1 Introduction

3.2 Elementary Mechanics of Materials Models.

3.2.1 Longitudinal Modulus.

3.2.2 Transverse Modulus.

3.2.3 Shear Modulus and Poisson’s Ratio

3.3 Improved Mechanics of Materials Models..

3.4 Elasticity Models.

3.4.1 Finite Difference Models..

3.4.2 Finite Element Models.

3.4.3 Closed-Form and Variational Models.

3.5 Semiempirical Models.

References

4. Strength of a Continuous Fiber-Reinforced Lamina

4.1 Introduction.

4.2 Multiaxial Strength Criteria

4.2.1 Maximum Stress Criterion

4.2.2 Maximum Strain Criterion.

4.2.3 Quadratic Interaction Criteria.

4.3 Micromechanics Models for Lamina Strength

4.3.1 Longitudinal Strength.

4.3.2 Transverse Strength….

4.3.3 In-Plane Shear Strength

4.3.4 Multiaxial Strength..

References

5. Analysis of Lamina Hygrothermal Behavior

Introduction 5.1

5.2 Hygrothermal Degradation of Properties.

5.3 Lamina Stress-Strain Relationships including Hygrothermal Effects.

5.4 Micromechanics Models for Hygrothermal Properties

References

6. Analysis of a Discontinuously Reinforced Lamina

6.1 Introduction

6.2 Aligned Discontinuous Fibers

6.2.1 Stress and Strength Analysis.

6.2.2 Modulus Analysis.

6.3 Off-Axis-Aligned Discontinuous Fibers.

6.3.1 Stress and Strength Analysis

6.3.2 Modulus Analysis.

6.4 Randomly Oriented Discontinuous Fibers

6.4.1 Stress and Strength Analysis

6.4.2 Modulus Analysis.

6.5 Nanofibers and Nanotubes.

6.5.1 Stress and Strength Analysis.

6.5.2 Modulus Analysis.

6.6 Particulates.

6.6.1 Stress and Strength Analysis

6.6.2 Modulus Analysis.

Hybrid Multiscale Reinforcements. 6.7

References

7. Analysis of Laminates

Introduction 7.1

7.2 Theory of Laminated Beams

7.2.1 Flexural Stresses and Deflections.

7.2.2 Shear Stresses and Deflections

7.3 Theory of Laminated Plates with Coupling.

7.4 Stiffness Characteristics of Selected Laminate Configurations.

7.4.1 Specially Orthotropic Laminates..

7.4.2 Generally Orthotropic Laminates.

7.4.3 Symmetric Laminates.

7.4.4 Antisymmetric Laminates..

7.4.5 Quasi-Isotropic Laminates

7.5 Derivation and Use of Laminate Compliances.

7.5.1 Inversion of Laminate Force-Deformation Equations

7.5.2 Determination of Lamina Stresses and Strains.

7.5.3 Determination of Laminate Engineering Constants.

7.5.4 Comparison of Measured and Predicted Compliances.

7.6 Hygrothermal Effects in Laminates.

7.6.1 Hygrothermal Degradation of Laminates.

7.6.2 Hygrothermal Stresses in Laminates..

7.6.3 Laminate Hygrothermal Expansion Coefficients.

7.7 Interlaminar Stresses.

7.8 Laminate Strength Analysis.

7.8.1 First Ply Failure and Subsequent Ply Failures Due to In-Plane Stresses.

7.8.2 Delamination Due to Interlaminar Stresses

7.9 Deflection and Buckling of Laminates

7.9.1 Analysis of Small Transverse Deflections.

7.9.2 Buckling Analysis.

7.10 Selection of Laminate Designs.

7.11 Application of Laminate Analysis to Composite Structures.

7.11.1 Composite Sandwich Structures

7.11.2 Composite Grid Structures.

References

8. Analysis of Viscoelastic and Dynamic Behavior.

8.1 Introduction

8.2 Linear Viscoelastic Behavior of Composites.

8.2.1 Boltzmann Superposition Integrals for Creep and Relaxation.

8.2.2 Differential Equations and Spring-Dashpot Models

8.2.3 Quasielastic Analysis.

8.2.4 Sinusoidal Oscillations and Complex Modulus Notation…

8.2.5 Elastic-Viscoelastic Correspondence Principle.

8.2.6 Temperature and Aging Effects.

8.3 Dynamic Behavior of Composites.

8.3.1 Longitudinal Wave Propagation and Vibrations in Specially Orthotropic Composite Bars.

8.3.2 Flexural Vibration of Composite Beams…

8.3.3 Transverse Vibration of Laminated Plates.

8.3.4 Analysis of Damping in Composites.

8.4 Nanoenhancement of Viscoelastic and Dynamic Properties..

References

9. Analysis of Fracture

9.1 Introduction

9.2 Fracture Mechanics Analyses of Through-Thickness Cracks..

9.2.1 Stress Intensity Factor Approach..

9.2.2 Strain Energy Release Rate Approach.

9.2.3 Virtual Crack Closure Technique.

9.3 Stress Fracture Criteria for Through-Thickness Notches.

9.4 Interlaminar Fracture

9.5 Nanoenhancement of Fracture Toughness

References

10. Mechanical Testing of Composites and Their Constituents

10.1 Introduction

10.2 Measurement of Constituent Material Properties..

10.2.1 Fiber Tests

10.2.2 Neat Resin Matrix Tests

10.2.3 Constituent Volume Fraction Measurement.

10.3 Measurement of Basic Composite Properties

10.3.1 Tensile Tests

10.3.2 Compressive Tests..

10.3.3 Shear Tests….

10.3.4 Flexure Tests

10.3.5 Interlaminar Fracture Tests

10.3.6 Fiber/Matrix Interface Tests

10.3.7 Open-Hole and Filled-Hole Tests

10.3.8 Bearing Tests..

10.3.9 Pull-Through Tests.

10.4 Measurement of Viscoelastic and Dynamic Properties.

10.4.1 Creep Tests.

10.4.2 Vibration Tests

10.5 Measurement of Hygrothermal Properties.

10.5.1 Glass Transition Temperature Tests.

10.5.2 Thermal Expansion Tests.

10.5.3 Moisture Absorption Tests.

References

11. Answers to Selected Problems

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