Papers from a July 2000 symposium, reporting on major advances in the field, arranged in sections on bulk metallic glasses, nanocrystalline alloys, steels, intermetallics, nanostructured materials, mechanical alloying, reactive milling, devitrification, magnetic applications, and general applications. Among the specific topics: consolidation of dispersion strengthened nanostructured copper via hot extrusion, particle size evolution in non-adhered ductile powders during mechanical alloying, reactive milling under hydrogen of a Nd-Fe-B powder, nanometric architecture of SmC05 related magnetic properties, and precursors for Fe-based magnetic nanocrystalline phases in Ag matrix. Distributed by Enfield. c. Book News Inc.
ISMANAM-2000 Proceedings of the International Symposium on Metastable, Mechanical Alloyed and Nanocrystalline Materials (ISMANAM-2000). Oxford, UK, July 9-14, 2000
This books reports exciting new research results in the area of bulk metallic glasses and bulk nanocrystalline materials prepared by severe plastic deformation. Other major topics include synthesis and processing of metals, intermetallics and oxides, polymers, nanocomposites and others by different techniques, including mechanosynthesis and mechanochemistry. Also covered are the structural characterization of nanophase materials and the structural evolution caused by mechanical treatment.
Metastable and Nanocrystalline Materials offer enormous technological potential and, for this reason, they are the subject of intense world-wide research.
ISMANAM-2002 Proceedings of the 9th International Symposium on Metastable, Mechanically Alloyed and Nanocrystalline Materials ISMANAM-2002, held in Seoul, Korea, September 8-12, 2002
This book surveys the broad field of mechanical alloying from a scientific and technological perspective to form a timely and comprehensive resource valuable to both students and researchers. The treatment progresses from the historical background through a description of the process, the different metastable effects produced, and the mechanisms of
In spite of the large amount of research activity in this subfield of materials science and engineering, there is no single book available that provides background information, methods of synthesis, characterization procedures, properties, and potential and existing applications.of bulk metallic glasses. Written in an easy-to-understand style by pioneering researchers in this field, Bulk Metallic Glasses is one of the first books to coherently discuss the synthesis, processing, properties, and applications of these unique materials. The book explores the differences between nanocrystalline, glassy, and amorphous solids as well as the thermodynamics and kinetics and various processing methods of glass formation. It critically compares the different criteria for glass formation, describes the advantages and limitations of experimental methods for synthesizing bulk metallic glasses in assorted sizes and shapes, and examines the kinetics of crystallization/devitrification and the mechanisms of transformations. It also covers the density, diffusivity, thermal expansion, electrical resistivity, specific heat, viscosity, corrosion resistance, mechanical behavior, and magnetic properties of bulk metallic glasses. After presenting a wide array of applications, the book concludes with a discussion on the future of these materials. The adoption of bulk metallic glasses into existing systems is besieged by many obstacles but due to their interesting combination of properties, future applications may be unlimited. A one-stop resource on all aspects of bulk metallic glasses, this book demonstrates the immense potential of these novel materials. It clearly elucidates the background, detailed methods of synthesis and characterization, structure, and properties of bulk metallic glasses.
There is a growing interest in the field of Mechanically Alloyed, Metastable and Nanocrystalline Materials, especially with regard to linking basic research efforts to technological requirements of industrial applications.
