Structure, Deformation, and Integrity of Materials: Volume I: Fundamentals and Elasticity / Volume II: Plasticity, Visco-elasticity, and Fracture, 2 Volumes

Structure, Deformation, and Integrity of Materials: Volume I: Fundamentals and Elasticity / Volume II: Plasticity, Visco-elasticity, and Fracture, 2 Volumes

Author: Gijsbertus de With
ISBN 978-3-527-31426-3 

Published: 2006 
Hardcover
894 pages

$239.00
This first integrated approach to thermomechanics deals equally with the atomic scale, the mesoscale of microstructures and morphology, as well as the macroscopic level of actual components and workpieces for applications. With some 85 examples and 150 problems, it covers the three important material classes of ceramics, polymers, and metals in a didactic manner. The renowned author surveys mechanical material behavior at both the introductory and advanced level, providing a reading incentive to both students as well as specialists in such disciplines as materials science, chemistry, physics, and mechanical engineering. Backed by five appendices on symbols, abbreviations, data sheets, materials properties, statistics, and a summary of contact mechanics.
Volume I: Fundamentals and Elasticity.

A. Overview.

Introduction.

Constitutive Behaviour.

B. Basics.

Mathematical Preliminaries.

Kinematics.

Kinetics.

Thermodynamics.

C, Q and S Mechanics.

Structure and Bonding.

C. Elasticity.

Continuum Elasticity.

Elasticity of Structures.

Molecular Basis of Elasticity.

Microstructural Aspects of Elasticity.

Appendix A: Units, Physical Constants, and Conversion Factors.

Appendix B: Properties of Structural Materials.

Appendix C: Properties of Plane Areas.

Volume II: Plasticity and Fracture.

D. Plasticity.

Continuum Plasticity.

Applications of Plasticity Theory.

Dislocations.

Dislocations and Plasticity.

Mechanisms in Polymers

Continuum Visco-elasticity

Applications of Visco-elasticity Theory

Structural Aspects of Visco-elasticity

E. Fracture.

Continuum Fracture.

Applications of Fracture Theory.

Structural Aspects of Fracture.

Fatigue.

Perspective and Outlook.

Appendix D: Statistics.

Appendix E: Contact Mechanics.

Gijsbertus de With is full professor in materials science. He graduated from Utrecht State University and received his Ph.D. in 1977 from the University of Twente on the 'Structure and charge distribution of molecular crystals'. In the same year, he joined Philips Research Laboratories, Eindhoven. In 1985 he was appointed part-time professor and in 1996 he became full professor at the Eindhoven University of Technology. His research interests include the chemical and mechanical processing as well as the chemo-mechanical behaviour of multi-phase materials and he holds about 10 patents.