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This book introduces key ideas and principles in the theory of elasticity with symbolic computation.
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This book introduces key ideas and principles in the theory of elasticity with symbolic computation.
Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Produktdetails
- Produktdetails
- Verlag: Cambridge University Press
- Seitenzahl: 266
- Erscheinungstermin: 1. Juni 2016
- Englisch
- Abmessung: 260mm x 183mm x 19mm
- Gewicht: 703g
- ISBN-13: 9780521842013
- ISBN-10: 0521842018
- Artikelnr.: 23072211
- Verlag: Cambridge University Press
- Seitenzahl: 266
- Erscheinungstermin: 1. Juni 2016
- Englisch
- Abmessung: 260mm x 183mm x 19mm
- Gewicht: 703g
- ISBN-13: 9780521842013
- ISBN-10: 0521842018
- Artikelnr.: 23072211
Andrei Constantinescu is currently the directeur de Recherches at CNRS: The French National Center for Scientific Research in the Laboratoire de Mecanique des Solide, and Associated Professor at Ecole Polytechniuqe, Paris. He teaches courses on continuum mechanics, elasticity, fatigue, and inverse problems at engineering schools in the Paris area. His research is in applied mechanics and covers areas ranging from inverse problems and the identification of defects and constitutive laws to fatigue and lifetime prediction of structures under cyclic loading conditions. His research has been applied through collaboration and consulting for companies such as the car manufacturer Peugeot-Citroen, energy providers Électricite de France and Gaz de France, and the aeroengine manufacturer MTU.
Alexander Korsunsky is currently a professor in the Department of Engineering Science, University of Oxford. He is a Fellow and Dean at Trinity College, Oxford. He teaches courses in England and France on engineering alloys, fracture mechanics, applied elasticity, advanced stress analysis, and residual stresses. His research interests are in the field of experimental characterization and theoretical analysis of deformation and fracture of metals, polymers, and concrete, with emphasis on thermo-mechanical fatigue and damage. He is particularly interested in residual stress effects and their measurement by advanced diffraction techniques using neutrons and high-energy X-rays at Synchrotron sources and in the laboratory. He is a member of the Science Advisory Committee of the European Synchrotron Radiation Facility in Grenoble, and he leads the development of the new engineering instrument (JEEP) at Diamond Light Source near Oxford.
Alexander Korsunsky is currently a professor in the Department of Engineering Science, University of Oxford. He is a Fellow and Dean at Trinity College, Oxford. He teaches courses in England and France on engineering alloys, fracture mechanics, applied elasticity, advanced stress analysis, and residual stresses. His research interests are in the field of experimental characterization and theoretical analysis of deformation and fracture of metals, polymers, and concrete, with emphasis on thermo-mechanical fatigue and damage. He is particularly interested in residual stress effects and their measurement by advanced diffraction techniques using neutrons and high-energy X-rays at Synchrotron sources and in the laboratory. He is a member of the Science Advisory Committee of the European Synchrotron Radiation Facility in Grenoble, and he leads the development of the new engineering instrument (JEEP) at Diamond Light Source near Oxford.
Preface
1. Kinematics: displacements and strains
2. Dynamics and statics: stresses and equilibrium
3. Linear elasticity
4. General principles in problems of elasticity
5. Stress functions
6. Displacement potentials
7. Energy principles and variational formulations
Appendix 1. Differential operators
Appendix 2. Mathematica tricks
Appendix 3. Plotting parametric meshes
Bibliography
Index.
1. Kinematics: displacements and strains
2. Dynamics and statics: stresses and equilibrium
3. Linear elasticity
4. General principles in problems of elasticity
5. Stress functions
6. Displacement potentials
7. Energy principles and variational formulations
Appendix 1. Differential operators
Appendix 2. Mathematica tricks
Appendix 3. Plotting parametric meshes
Bibliography
Index.
Preface
1. Kinematics: displacements and strains
2. Dynamics and statics: stresses and equilibrium
3. Linear elasticity
4. General principles in problems of elasticity
5. Stress functions
6. Displacement potentials
7. Energy principles and variational formulations
Appendix 1. Differential operators
Appendix 2. Mathematica tricks
Appendix 3. Plotting parametric meshes
Bibliography
Index.
1. Kinematics: displacements and strains
2. Dynamics and statics: stresses and equilibrium
3. Linear elasticity
4. General principles in problems of elasticity
5. Stress functions
6. Displacement potentials
7. Energy principles and variational formulations
Appendix 1. Differential operators
Appendix 2. Mathematica tricks
Appendix 3. Plotting parametric meshes
Bibliography
Index.