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Mechanical Behavior Of Materials

Mechanical Behavior Of Materials

Mechanical Behavior Of Materials

The Mechanical Behavior Of Materials is a comprehensive guide that delves into the fundamental principles and theories behind the behavior of materials under mechanical stress. This book is a valuable resource for students and professionals in the fields of engineering, materials science, and mechanics.

With detailed explanations and illustrations, this book covers topics such as elasticity, plasticity, fracture mechanics, and fatigue. It also includes real-world examples and case studies to help readers understand the practical applications of these concepts.

Written by experts in the field, this book is a reliable source of information for anyone looking to gain a deeper understanding of the mechanical behavior of materials. It is also a useful reference for those working in industries that involve the use of materials under mechanical stress, such as aerospace, automotive, and construction.

Get your copy of the Mechanical Behavior Of Materials today and enhance your knowledge in this crucial aspect of materials science and engineering. Available in both print and digital formats, this book is a must-have for anyone interested in the mechanical properties of materials.

9781292279350

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Table of Content

1 Introduction

1.1 Introduction

1.2 Types of Material Failure

1.3 Design and Materials Selection

1.4 Technological Challenge

1.5 Economic Importance of Fracture

1.6 Summary

References

Problems and Questions



2 Structure, Defects, and Deformation in Materials

2.1 Introduction

2.2 Bonding in Solids

2.3 Structure in Crystalline Materials

2.4 Defects in Materials

2.5 Elastic Deformation and Theoretical Strength

2.6 Inelastic Deformation

2.7 Summary

References

Problems and Questions



3 Mechanical Testing: Tension Test and Stress–Strain Mechanisms

3.1 Introduction

3.2 Introduction to Tension Test

3.3 Engineering Stress–Strain Properties

3.4 Materials Science Description of Tensile Behavior

3.5 Trends in Tensile Behavior

3.6 True Stress–Strain Interpretation of Tension Test

3.7 Materials Selection for Engineering Components

3.8 Summary

References

Problems and Questions



4 Mechanical Testing: Additional Basic Tests

4.1 Introduction

4.2 Compression Test

4.3 Hardness Tests

4.4 Notch-Impact Tests

4.5 Bending and Torsion Tests

4.6 Summary

References

Problems and Questions



5 Stress–Strain Relationships and Behavior

5.1 Introduction

5.2 Models for Deformation Behavior

5.3 Elastic Deformation

5.4 Anisotropic Materials

5.5 Summary

References

Problems and Questions



6 Review of Complex and Principal States of Stress and Strain

6.1 Introduction

6.2 Plane Stress

6.3 Principal Stresses and the Maximum Shear Stress

6.4 Three-Dimensional States of Stress

6.5 Stresses on the Octahedral Planes

6.6 Complex States of Strain

6.7 Summary

References

Problems and Questions



7 Yielding and Fracture under Combined Stresses

7.1 Introduction

7.2 General Form of Failure Criteria

7.3 Maximum Normal Stress Fracture Criterion

7.4 Maximum Shear Stress Yield Criterion

7.5 Octahedral Shear Stress Yield Criterion

7.6 Discussion of the Basic Failure Criteria

7.7 Coulomb–Mohr Fracture Criterion

7.8 Modified Mohr Fracture Criterion

7.9 Additional Comments on Failure Criteria

7.10 Summary

References

Problems and Questions



8 Fracture of Cracked Members

8.1 Introduction

8.2 Preliminary Discussion

8.3 Mathematical Concepts

8.4 Application of K to Design and Analysis

8.5 Additional Topics on Application of K

8.6 Fracture Toughness Values and Trends

8.7 Plastic Zone Size, and Plasticity Limitations on LEFM

8.8 Discussion of Fracture Toughness Testing

8.9 Extensions of Fracture Mechanics Beyond Linear Elasticity

8.10 Summary

References

Problems and Questions



9 Fatigue of Materials: Introduction and Stress-Based Approach

9.1 Introduction

9.2 Definitions and Concepts

9.3 Sources of Cyclic Loading

9.4 Fatigue Testing

9.5 The Physical Nature of Fatigue Damage

9.6 Trends in S-N Curves

9.7 Mean Stresses

9.8 Multiaxial Stresses

9.9 Variable Amplitude Loading

9.10 Summary

References

Problems and Questions



10 Stress-Based Approach to Fatigue: Notched Members

10.1 Introduction

10.2 Notch Effects

10.3 Notch Sensitivity and Empirical Estimates of kf

10.4 Estimating Long-Life Fatigue Strengths (Fatigue Limits)

10.5 Notch Effects at Intermediate and Short Lives

10.6 Combined Effects of Notches and Mean Stress

10.7 Estimating S-N Curves

10.8 Use of Component S-N

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