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200 14$aThe theory of critical distances$b[electronic resource] $ea new perspective in fracture mechanics /$fDavid Taylor
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215   $a1 online resource (307 p.)
300   $aDescription based upon print version of record.
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320   $aIncludes bibliographical references and index.
327   $aFront Cover; The Theory of Critical Distances: A New Perspective in Fracture Mechanics; Copyright Page; Contents; Preface; Nomenclature; Chapter 1. Introduction; 1.1 Stress-Strain Curves; 1.2 Failure Mechanisms; 1.3 Stress Concentrations; 1.4 Elastic Stress Fields for Notches and Cracks; 1.5 Fracture Mechanics; 1.6 The Failure of Notched Specimens; 1.7 Finite Element Analysis; 1.8 Concluding Remarks: Limitations and Challenges in Failure Prediction; Chapter 2. The Theory of Critical Distances: Basics; 2.1 Introduction; 2.2 Example 1: Brittle Fracture in a Notched Specimen
327   $a2.3 Example 2: Fatigue Failure in an Engineering Component2.4 Relating the TCD to LEFM; 2.5 Finding Values for the Material Constants; 2.6 Some Other TCD Methods: The LM, AM and VM; 2.7 Example 3: Predicting Size Effects; 2.8 Concluding Remarks; Chapter 3. The Theory of Critical Distances in Detail; 3.1 Introduction; 3.2 History; 3.3 Related Theories; 3.4 What is the TCD? Towards a General Definition; Chapter 4. Other Theories of Fracture; 4.1 Introduction; 4.2 Some Classifications; 4.3 Mechanistic Models; 4.4 Statistical Models; 4.5 Modified Fracture Mechanics
327   $a4.6 Plastic-Zone and Process-Zone Theories4.7 Damage Mechanics; 4.8 Concluding Remarks; Chapter 5. Ceramics; 5.1 Introduction; 5.2 Engineering Ceramics; 5.3 Building materials; 5.4 Geological Materials; 5.5 Nanomaterials; 5.6 Concluding Remarks; Chapter 6. Polymers; 6.1 Introduction; 6.2 Notches; 6.3 Size Effects; 6.4 Constraint and the Ductile-Brittle Transition; 6.5 Strain Rate and Temperature Effects; 6.6 Discussion; Chapter 7. Metals; 7.1 Introduction; 7.2 Predicting Brittle Fracture Using the TCD; 7.3 Discussion; Chapter 8. Composites; 8.1 Introduction
327   $a8.2 Early Work on the TCD: Whitney and Nuismer8.3 Does L Vary with Notch Size?; 8.4 Non-damaging Notches; 8.5 Practical Applications; 8.6 Other Theoretical Models; 8.7 Fracture of Bone; 8.8 Values of L for Composite Materials; 8.9 Concluding Remarks; Chapter 9. Fatigue; 9.1 Introduction; 9.2 Fatigue Limit Predictions; 9.3 Finite Life Predictions; 9.4 Multiaxial and Variable Amplitude Loading; 9.5 Fatigue in Non-Metallic Materials; 9.6 Other Recent Theories; 9.7 Concluding Remarks; Chapter 10. Contact Problems; 10.1 Introduction; 10.2 Contact Situations; 10.3 Contact Stress Fields
327   $a12.4 Failure Analysis of a Marine Component
330   $aCritical distance methods are extremely useful for predicting fracture and fatigue in engineering components. They also represent an important development in the theory of fracture mechanics. Despite being in use for over fifty years in some fields, there has never been a book about these methods - until now. So why now? Because the increasing use of computer-aided stress analysis (by FEA and other techniques) has made these methods extremely easy to use in practical situations. This is turn has prompted researchers to re-examine the underlying theory with renewed interest. The book be
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