Advances in conservation laws and energy release rates :
Détails physiques : 1 online resource (xxi, 298 pages) : illustrations ISBN :9789401599085; 9401599084.Type de document | Site actuel | Cote | Statut | Date de retour prévue | Code à barres | Réservations |
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Livre | La bibliothèque des sciences de l'ingénieur | 620.1126 CHE (Parcourir l'étagère) | Disponible | 0000000025999 |
Survol La bibliothèque des sciences de l'ingénieur Étagères Fermer l'étagère
620.11232 LES Classical and generalized models of elastic rods | 620.1126 BAT Fatigue des matériaux et des structures / | 620.1126 BRO Cracks and fracture / | 620.1126 CHE Advances in conservation laws and energy release rates : | 620.1126 KIT Fracture nanomechanics / | 620.1126 SUN Fracture mechanics / | 620.1127 THO Review of progress in quantitative nondestructive evaluation : |
Includes bibliographical references and index.
List of Figures -- List of Tables -- Preface -- Acknowledgments -- 1. Historical Review and Fundamentals -- 2. Conservation Laws in Brittle Solids -- 3. The Projected Conservation Law of JK Vector in Microcrack Shielding Problems -- 4. Application of the Conservation Laws in Metal/Ceramic Bimaterials -- 5. Macrocrack Microcrack Interaction in Dissimilar Anisotropic Materials -- 6. Macrocrack Microcrack Interaction in Piezoelectric Materials -- 7. Microcrack Damage in Piezoelectric Materials -- 8. Some Other Developments of the Conservation Laws and Energy Release Rates.
This book summarizes two significant tendencies for application of conservation laws and energy release rates. The first is to establish a bridge between some famous invariant integrals and microcrack damage descriptions. The second is the direct extension from the understandings established in Fracture Mechanics for conventional materials to those for functional materials. In the first point it discusses the vanishing nature for both components of the Jk-integral vector when the closed contour encloses all discontinuities completely. Both mathematical manipulations and numerical examinations are given. Thus the M-integral and the L-integral are independent of coordinate shifts and, more significantly, the M-integral presents a new description for the damage level of a microcracking brittle solid. In the second point it discusses the direct extension from the basic understandings established in Linear Elastic Fracture Mechanics to those for functional materials, e.g., piezoelectric ceramics. Owing to the mechanical and electric coupling, some new insights of energy release rates are discussed in detail.
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