Defect Structure in Nanomaterials (e-bog) af Gubicza, J
Gubicza, J (forfatter)

Defect Structure in Nanomaterials e-bog

25,00 DKK (inkl. moms 31,25 DKK)
Nanomaterials exhibit unique mechanical and physical properties compared to their coarse-grained counterparts, and are consequently a major focus of current scientific research. Defect structure in nanomaterials provides a detailed overview of the processing methods, defect structure and defect-related mechanical and physical properties of a wide range of nanomaterials. The book begins with a r...
E-bog 25,00 DKK
Forfattere Gubicza, J (forfatter)
Udgivet 1 juni 2012
Længde 388 sider
Genrer Metals technology / metallurgy
Sprog English
Format epub
Beskyttelse LCP
ISBN 9780857096142
Nanomaterials exhibit unique mechanical and physical properties compared to their coarse-grained counterparts, and are consequently a major focus of current scientific research. Defect structure in nanomaterials provides a detailed overview of the processing methods, defect structure and defect-related mechanical and physical properties of a wide range of nanomaterials. The book begins with a review of the production methods of nanomaterials, including severe plastic deformation, powder metallurgy and electrodeposition. The lattice defect structures formed during the synthesis of nanomaterials are characterised in detail. Special attention is paid to the lattice defects in low stacking fault energy nanomaterials and metal - carbon nanotube composites. Topics covered in the second part of the book include a discussion of the thermal stability of defect structure in nanomaterials and a study of the influence of lattice defects on mechanical and hydrogen storage properties.Gives in-depth, physically based explanations for the relationships between the defect structure and mechanical properties of nanomaterialsCovers a wide range of nanomaterials including metals; alloys; ceramics; diamond; carbon nanotubes and their compositesProvides a detailed characterization of the lattice defect structure in nanomaterials