Deformation & Fracture
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Towards Innovation in Superplasticity I
This publication presents the proceedings of the International Symposium towards Innovation in Superplasticity. The research project, "Innovation in Superplasticity", was chosen to be one of the priority scientific research efforts in 1996, of the Ministry of Education, Science and Culture, Japan. -
Engineering Plasticity from Macroscale to Nanoscale
These proceedings comprise 139 papers presented at the 6th Asia-Pacific Symposium on Engineering Plasticity and Its Applications (AEPA2002), held from the 2nd to the 6th of December 2002 at the University of Sydney, Australia. -
Advanced Materials Forum I
This First International Materials Symposium in Portugal was organised in order to provide a forum within which material scientists and engineers, drawn from a very wide range of specialties, could present and discuss new research findings and compare points of view concerning advanced materials. -
Modeling of Materials
This book contains the proceedings of Symposium L of the International Conference on Materials for Advanced Technologies, held from the 1st to the 6th of July , 2001 in Singapore. The aim of this important meeting was to bring together researchers and engineers having very different backgrounds, and thus promote free discussion and the exchange of ideas across many interdisciplinary boundaries. -
High Pressure Effects in Chemistry, Biology and Materials Science
The aim of the celebrated High Pressure School (HPS) is to provide a platform where both young and experienced researchers can meet and exchange their experiences in high-pressure research and techniques. Since 1996, four schools have been held in Warsaw and the tradition has developed of combining the topic of high pressure techniques with workshops which are related to the rapidly developing fields of high pressure science and technology: chemistry, biology and materials science; with particular attention being paid to nanostructured materials. -
Damage Assessment of Structures IV
Understanding the manner in which damage evolves in engineering materials, systems or structures is currently the focus of extensive research. The object of the present book is to report recent advances in the areas of damage detection, assessment and quantification. -
Advances in Abrasive Processes
Extensive research during the past 30 years has provided a relatively complete understanding of the many diverse aspects of abrasive processes which are suitable for the final machining of components that require smooth surfaces and precise tolerances. Although widely used in industry, abrasive treatments remain perhaps the least understood of all machining processes. Advances in the field of abrasive processes are therefore of great fundamental and practical interest. -
Probabilistic Methods in Fatigue and Fracture
The present book presents an in-depth report on probabilistic methods used to study fatigue and fracture of engineering materials. It is divided into three sections: fatigue; reliability modeling; and statistical methods. The book will serve as a useful new reference on probabilistic methods in fatigue and fracture. It should be of interest to researchers and engineers in industry and academia. -
Functional Biomaterials
There is now a tremendous worldwide interest in functional biomaterials. The present book covers the major aspects of the field. It is divided into four parts. The first section (A) covers various aspects of joint replacement. Section B presents the topic of dental ceramics, while Section C describes the microstructural aspects of biomaterials. Finally, some of the recent innovations in biomechanics are discussed (Section D), together with some features of bioengineering. -
Fracture and Strength of Solids IV
Fracture, Fatigue and Strength are among the most important properties of engineering materials. The present volume covers all aspects of Fracture Mechanics, Computational Mechanics, Dynamic Fracture, Damage Mechanics, Fracture Physics, Fatigue and Creep of advanced materials, special emphasis being placed on Polymer and Polymer Composites, Metal Matrix and Ceramic Matrix Composites, Advanced Ferrous and Nonferrous Alloys and Nonmetallic Materials. Also covered are various Structural Aspects, Welding and Joining Properties, Stress Corrosion, Dynamic Loading Effects and other aspects limiting the Application of High-Tech Materials.