Books by Keyword: Electron Backscatter Diffraction (EBSD)

Description: This immense 4 volume set comprises 495 peer-reviewed papers, divided into four parts: Magnesium (Part 1), Aluminum Alloys (Part 2), Aerospace Materials (Part 3) and Superconducting and Functional Materials (Part 4).

Description: Volume is indexed by Thomson Reuters CPCI-S (WoS).
This collection includes state-of-the-art papers by scientists and research groups working in fields encompassing metals and alloys, silicates, polymers and composites.

Description: The world production of primary and recycled aluminum continues to increase and, over the past twenty years, has risen from ~15 Mt/y in 1985 to ~32 Mt/y in 2005. The main consumers are transportation, beverage and other packaging, and building construction. The global primary aluminum production has been growing by about 2-3% per year. However, growth rates over the last decade have been much higher. In particular, during the past five years, China has played a critical role in aluminum production and has gone through a dramatic period of growth.

Description: This collection comprises invited and contributed papers which were presented at the Advanced Structural Materials Symposium held in Cancún, México during the Annual Conference of the Mexican Academy of Materials Science.
Volume is indexed by Thomson Reuters CPCI-S (WoS).

Description: This supplement contains further selected papers from the 5th International Conference on the Processing and Manufacturing of Advanced Materials – THERMEC’2006 - held from July 4-8, 2006 in Vancouver, Canada.

Description: To the materials science community, Texture is an important property which describes the relative orientations of the various material elements which constitute the microstructure. These elements are usually the crystalline grains; each with a different orientation of its crystal lattice. However, morphological textures, such as the arrangement of fibers in a composite material, also have to be considered. In rare cases, the texture is random; with all possible orientations being equally represented in the material. But, usually, processing of the material has caused the texture to become non-random; with a consequent anisotropy of the material properties. Thus, not only metallurgists and materials scientists take an interest in textures, but also physicists, mathematicians, geologists, mechanical engineers and others.

Description: Volume is indexed by Thomson Reuters CPCI-S (WoS).
Natural, as well as man-made, materials are often assumed to behave uniformly, exhibiting equal strength in all directions, because most of them have a polycrystalline structure. The anisotropy of the individual crystals, however, is smoothed out only in the presence of a large number of grains having a random distribution of orientations. In reality, there usually remains an anisotropy due to the existence of preferred orientations. Its magnitude depends upon the statistical distribution of grain orientations – the "crystallographic texture" or, more simply, the texture. –This governs the extremes, of the physical property of interest, which a single crystal of the material under consideration can exhibit in directional tests. Local variations in texture, as well as the arrangements and types of grain/phase boundaries, may give rise to inhomogeneous material properties. The texture also carries with it information on the history of a material’s processing, use and misuse. A knowledge of the texture is a prerequisite for all quantitative techniques of materials characterization, and is based upon the interpretation of diffraction-peak intensities. It is also necessary to model the relationships between microstructural features and physical or mechanical properties. Therefore, the texture is of great value for quality control in a wide range of industrial applications, and in basic materials research.

Description: Volume is indexed by Thomson Reuters CPCI-S (WoS).
The series, “Hungarian Conference and Exhibition on Materials Science, Testing and Informatics”, was founded in order to provide a forum in which Hungarian and foreign scientists and research groups - interested in metals and alloys, silicates, polymers and composites - would have the opportunity to exchange and publish ideas and to establish new integrated partnerships. The 4th Hungarian Conference and Exhibition on Materials Science, Testing and Informatics was held on the Balaton lakeside, at Balatonfüred, October 12-14th , 2003.

Description: Volume is indexed by Thomson Reuters CPCI-S (WoS).
Recrystallization and grain growth, together with phase transformations such as precipitation, are the fundamental processes of microstructural evolution which take place during the thermomechanical processing of engineering materials. They are of major scientific interest and are of great importance in a wide range of industrial applications. One of the main goals of this two-volume set is to show how to cover the entire set of reactions governing recrystallization and grain growth during industrial processing – termed through process modelling.

Description: Texture is a fundamental material characteristic which results from the microstructural evolution that takes place during various processes, including the thermomechanical deformation of materials. Therefore, texture-related phenomena will continue to be of great importance, because of their scientific interest as well as their effect upon industrial applications, in the 21st century.
Volume is indexed by Thomson Reuters CPCI-S (WoS).