Mechanical behaviour of nanostructured materials
Author(s)
Bibliographic Information
Mechanical behaviour of nanostructured materials
(Materials science foundations, 2)
Trans Tech Publications, c1998
Available at 13 libraries
  Aomori
  Iwate
  Miyagi
  Akita
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Note
Bibliography: p. 75-84
Description and Table of Contents
Description
The investigation of nanocrystalline materials has been an extremely active field during the past two decades as it promises to yield new and exciting properties, which will both test the scientific understanding of the behaviour of materials in general, and offer new scope for applications. While considerable progress has been made in basic understanding, the shift from fundamental science to technological application has been slow, especially with regard to exploitation of the mechanical behaviour of these materials.
Table of Contents
Preface
CONTENTS
GLOSSARY OF SYMBOLS USED
1. Methods of Prepatation - Typical Microstructures
1.1 Powder Methods
1.2 Multilayers and Laminates
1.3 Severe Plastic Deformation
1.4 Coating Methods
2. Theoretical Considerations and Modelling. 2.1 Grain Size Dependence of Strength and Hardness: Dislocation Models
2.2 The Importance of Diffusion on Grain Boundaries, Creep, and Grain Boundary Sliding
2.3 Atomistic Modelling of Mechanical Behaviour
2.4 Ductility and Toughness
3. Experimental Studies of Mechanical Behaviour. 3.1 Elastic Properties. 3.2 Strength and Hardness
3.3 High Temperature Behaviour
3.4 Ductility and Toughness
3.5 Fatigue Behaviour
3.6 Wear Properties
4. Conclusions
ACKNOWLEDGEMENTS
REFERENCES
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