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Mechanical Behavior of Materials : Engineering Methods for Deformation, Fracture and Fatigue
ISBN: 9780135790465 | 0135790468
Format: HardcoverPublisher: Prentice Hall Professional Technical Reference
Pub. Date: 1/1/1993
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Covers stress-strain equations, mechanical testing, yielding and fracture under stress, fracture of cracked members, and fatigue of materials
| Preface | |
| Introduction | p. 1 |
| Types of Material Failure | p. 2 |
| Design and Materials Selection | p. 10 |
| Technological Challenge | p. 15 |
| Economic Importance of Fracture | p. 18 |
| Structure and Deformation in Materials | p. 23 |
| Bonding in Solids | p. 26 |
| Structure in Crystalline Materials | p. 30 |
| Elastic Deformation and Theoretical S... MORE | p. 35 |
| Inelastic Deformation | p. 39 |
| A Survey of Engineering Materials | p. 49 |
| Alloying and Processing of Metals | p. 50 |
| Irons and Steels | p. 56 |
| Nonferrous Metals | p. 64 |
| Polymers | p. 68 |
| Ceramics and Glasses | p. 79 |
| Composite Materials | p. 85 |
| Stress-Strain Equations and Models | p. 96 |
| Rheological Models | p. 97 |
| Elastic Deformation | p. 99 |
| Plastic Deformation | p. 110 |
| Creep Deformation | p. 117 |
| Anisotropic Materials | p. 123 |
| Mechanical Testing: Tension Test and Other Basic Tests | p. 139 |
| Introduction to Tension Test | p. 145 |
| Engineering Stress-Strain Properties | p. 148 |
| Trends in Tensile Behavior | p. 156 |
| True Stress-Strain Interpretation of Tension Test | p. 162 |
| Compression Test | p. 173 |
| Hardness Tests | p. 176 |
| Notch-Impact Tests | p. 184 |
| Bending and Torsion Tests | p. 190 |
| Review of Complex and Principal States of Stress and Strain | p. 201 |
| Plane Stress | p. 202 |
| Three-Dimensional States of Stress | p. 211 |
| Plane Stress Reconsidered as a Three-Dimensional Case | p. 219 |
| Stresses on the Octahedral Planes | p. 223 |
| Complex States of Strain | p. 224 |
| Yielding and Fracture under Combined Stresses | p. 233 |
| General Form of Failure Criteria | p. 235 |
| Maximum Normal Stress Fracture Criterion | p. 237 |
| Maximum Shear Stress Yield Criterion | p. 240 |
| Octahedral Shear Stress Yield Criterion | p. 245 |
| Discussion and Comparison of the Basic Failure Criteria | p. 251 |
| Coulomb-Mohr Fracture Criterion | p. 255 |
| Modified Mohr Fracture Criterion | p. 261 |
| Additional Comments on Failure Criteria | p. 265 |
| Fracture of Cracked Members | p. 276 |
| Preliminary Discussion | p. 278 |
| Mathematical Concepts | p. 285 |
| Application of K to Design and Analysis | p. 291 |
| Fracture Toughness Values and Trends | p. 302 |
| Plastic Zone Size, and Plasticity Limitations on LEFM | p. 313 |
| Discussion of Fracture Toughness Testing | p. 320 |
| Extensions of Fracture Mechanics Beyond Linear Elasticity | p. 322 |
| Fatigue of Materials: Introduction and Stress-Based Approach | p. 339 |
| Definitions and Concepts | p. 340 |
| Sources of Cyclic Loading | p. 348 |
| Fatigue Testing | p. 351 |
| The Physical Nature of Fatigue Damage | p. 355 |
| Trends in S-N Curves | p. 358 |
| Mean Stresses | p. 370 |
| Multiaxial Stresses | p. 377 |
| Variable Amplitude Loading | p. 382 |
| Stress-Based Approach to Fatigue: Notched Members | p. 397 |
| Causes of the k[subscript f] [ k[subscript t] Effect | p. 401 |
| Notch Sensitivity and Empirical Estimates of k[subscript f] | p. 404 |
| Notch Effects at Intermediate and Short Lives | p. 408 |
| Combined Effects of Notches and Mean Stress | p. 411 |
| Estimating Long Life Fatigue Strengths (Fatigue Limits) | p. 418 |
| Estimating S-N Curves | p. 422 |
| Designing to Avoid Fatigue Failure | p. 432 |
| Fatigue Crack Growth | p. 456 |
| Preliminary Discussion | p. 457 |
| Fatigue Crack Growth Rate Testing | p. 464 |
| Effects of R = S[subscript min]/S[subscript max] on Fatigue Crack Growth | p. 470 |
| Trends in Fatigue Crack Growth Behavior | p. 477 |
| Life Estimates for Constant Amplitude Loading | p. 483 |
| Life Estimates for Variable Amplitude Loading | p. 495 |
| Design Considerations | p. 498 |
| Plasticity Aspects and Limitations of LEFM for Fatigue Crack Growth | p. 501 |
| Environmental Crack Growth | p. 508 |
| Plastic Deformation Behavior and Models for Materials | p. 525 |
| Stress-Strain Curves | p. 528 |
| Three-Dimensional Stress-Strain Relationships | p. 536 |
| Unloading and Cyclic Loading Behavior from Rheological Models | p. 544 |
| Cyclic Loading Behavior of Real Materials | p. 552 |
| Stress-Strain Analysis of Plastically Deforming Members | p. 570 |
| Plasticity in Bending | p. 571 |
| Residual Stresses and Strains for Bending | p. 584 |
| Plasticity of Circular Shafts in Torsion | p. 589 |
| Notched Members | p. 593 |
| Cyclic Loading | p. 605 |
| Strain-Based Approach to Fatigue | p. 621 |
| Strain Versus Life Curves | p. 623 |
| Mean Stress Effects | p. 633 |
| Multiaxial Stress Effects | p. 641 |
| Life Estimates for Structural Components | p. 645 |
| Discussion | p. 659 |
| Time-Dependent Behavior: Creep and Damping | p. 678 |
| Creep Testing | p. 680 |
| Physical Mechanisms of Creep | p. 687 |
| Time-Temperature Parameters and Life Estimates | p. 696 |
| Creep Failure under Varying Stress | p. 705 |
| Stress-Strain-Time Relationships | p. 708 |
| Creep Deformation under Varying Stress | p. 714 |
| Creep under Multiaxial Stress | p. 721 |
| Component Stress-Strain Analysis | p. 725 |
| Energy Dissipation (Damping) in Materials | p. 728 |
| Bibliography | p. 752 |
| Index | p. 762 |
| Table of Contents provided by Blackwell. All Rights Reserved. |
