Cracks and Fracture
Cracks and Fracture
Cracks and Fracture
Why Cracks and Fracture ? Cracks and Fracture consists of nine chapters in logical sequence. In two introductory chapters, physical processes in the vicinity of the crack edge are discussed and the fracture process is described. Chapter 3 develops general basic concepts and relations in crack mechanics, such as path independent integrals, stress intensity factors and energy flux into the crack edge region. Chapters 4-7 deal with elastostatic cracks, stationary or slowly moving elastic-plastic cracks, elastodynamic crack mechanics and elastoplastic aspects of fracture, including dynamic fracture mechanics. Appendices include general formulae, the basic theory of analytic functions, introduction to Laplace and Hankel transforms and description of certain basic relations, for instance for stress waves in solids. There is an extensive bibliography, containing references to both classical and recent work, and a comprehensive index. Key Features * Presents an extensive bibliography containing references to both classical and recent works and a comprehensive index * Appendices include general formulas, the basic theory of analytic functions, introduction to Laplace and Hankel transforms, and descriptions of certain basic relations, for instance for stress waves in solids.to download Cracks and Fracture
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Engineering Books-- Fracture Mechanics and Failure Analysis-- Practical Fracture Mechanics in Design -- Stability Problems in Fracture Mechanics -- Cracks and Fracture-- Fracture Mechanics Mathematics & Its Applications -- Analysis of Cracks in Solids -- Elementary Engineering Fracture Mechanics -- Application of Fracture Mechanics to Polymers, Adhesives -- Dynamic Fracture Mechanics -- On Wave Propagation in Elastic Solids with Cracks -- Fracture Mechanics: Inverse Problems and Solutions -- Fracture Mechanics: An Introduction -- Biaxial/Multiaxial Fatigue and Fracture -- Extended Finite Element Method: for Fracture Analysis of Structures -- Failure Analysis Case Studies -- Root Cause Failure Analysis -- Practical Engineering Failure Analysis -- Damage Mechanics -- The Practical Use of Fracture Mechanics -- Engineering Damage Mechanics: Ductile, Creep, Fatigue and Brittle Failures -- Metal Failures: Mechanisms, Analysis, Prevention --