Structure, Thermodynamics and Diffusion Properties of Grain Boundaries and Interfaces

Structure, Thermodynamics and Diffusion Properties of Grain Boundaries and Interfaces

Description:

The majority of materials, especially metals, are used in the form of polycrystals. It is well recognized that many properties of polycrystalline materials are determined by grain boundaries (GBs). Grain boundaries appreciably affect many practically important mechanical and physical properties of construction materials. Grain-boundary diffusion plays a key role in such practically important processes as Coble creep, sintering, diffusion induced grain boundary migration (DIGM), various discontinuous reactions, recrystallization and grain growth. The purpose of this Volume is to provide a collection of recent contributions in the field of structure, thermodynamics and diffusion properties of grain boundaries and interfaces. The Volume includes reviews of both experimental and theoretical studies carried out by well-recognized scientists whose publications are well-known and widely cited.

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Info:

Editors:
Prof. Vladimir V. Popov and E.N. Popova
THEMA:
TGM
BISAC:
TEC021000
Details:
Special topic volume with invited peer reviewed papers only.
Pages:
286
Year:
2015
ISBN-13 (softcover):
9783038355175
ISBN-13 (CD):
9783038593027
ISBN-13 (eBook):
9783038269878
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Review from Ringgold Inc., ProtoView: Editors Popov and Popova present students, academics, researchers, and professionals working in a wide variety of contexts with a volume of peer-reviewed selected academic papers focused on contemporary research on the properties of grain boundaries and interfaces. The editors have organized the contributions that make up the main body of the text in thirteen chapters devoted to the analysis of local and global segregation occurring in grain boundary diffusion, unresolved issues in the grain boundary diffusion of severely deformed metals, the grain boundary design of bulk nanomaterials for advanced properties, and other related subjects.

Ringgold Subjects:

— Materials Science
— Nanomaterials
— Thermodynamics