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Martensitic Transformation
Martensitic Transformation examines martensitic transformation based on the known crystallographical data. Topics covered range from the crystallography of martensite to the transformation temperature and rate of martensite formation. The conditions for martensite formation and stabilization of austenite are also discussed, along with the crystallographic theory of martensitic transformations. Comprised of six chapters, this book begins with an introduction to martensite and martensitic transformation, with emphasis on the basic properties of martensite in steels such as carbon steels. The next two chapters deal with the crystallography of martensite and discuss the martensitic transformatio...
Martensitic Transformations
Proceedings of the 6th International Conference on Martensitic Transformations, Sydney, Australia, 1989
European Symposium on Martensitic Transformations
ESOMAT 2012 Selected, peer reviewed papers from the 9th European Symposium on Martensitic Transformations ESOMAT 2012, September 9-16, 2012, Saint-Petersburg, Russia
Proceedings of the International Conference on Martensitic Transformations: Chicago
This collection is organized around the central theme of “Martensite by Design.” Contributions include design, microstructure, properties, advanced processing and manufacturing, performance, phase transformations, and characterization.
Phase Transformations
The terms phase transitions and phase transformations are often used in an interchangeable manner in the metallurgical literature. In Phase Transformations, transformations driven by pressure changes, radiation and deformation and those occurring in nanoscale multilayers are brought to the fore. Order-disorder transformations, many of which constitute very good examples of continuous transformations, are dealt with in a comprehensive manner. Almost all types of phase transformations and reactions that are commonly encountered in inorganic materials are covered and the underlying thermodynamic, kinetic and crystallographic aspects elucidated. - Shows readers the advancements in the field - due to enhanced computing power and superior experimental capability - Drawing upon the background and the research experience of the authors, bringing together a wealth of experience - Written essentially from a physical metallurgists view point
Martensitic Transformations
Part 1 . 1. PREMARTENSITIC BEHAVIOUR. 2. TRANSFORMATION THERMODYNAMICS AND MECHANISMS. 3. Transformations in ferrous Alloys. 4. BAINITE TRANSFORMATIONS . 5. NON-FERROUS ALLOYS. 6. MARTENSITIC TRANSFORMATIONS IN CERAMICS. Part 2 . 7. SHAPE MEMORY ALLOYS. 8. COPPER-BASED SME ALLOYS . 9. TITANIUM-NICKEL SME ALLOYS. 10.FERROUS SME ALLOYS. 11. MECHANICAL PROPERTIES AND APPLICATIONS OF SHAPE MEMORY ALLOYS .
International Conference on Martensitic Transformations (ICOMAT) 2008
During the week of June 29 - July 5, 2008, over 300 scientists and engineers from 30 countries spanning five continents converged at the historic La Fonda Hotel in the city of Santa Fe, New Mexico, USA to participate in the 12th International Conference on Martensitic Transformations (ICOMAT-08) to fathom the peculiar world of certain crystalline materials that undergo structural change when cooled or stressed. Many of these materials can restore their original shape when reheated, thus the name "Shape Memory Alloys". In the spirit of Santa Fe, a central theme of ICOMAT-08 was INTEGRATION across many dimensions.
Transformations Selected Works of G.B. Olson on Materials, Microstrucutre, and Design
ASM International and The Minerals, Metals and Materials Society (TMS) have collaborated to present a collection of the selected works of Dr. Greg B. Olson in honor of his 70th birthday in 2017. This collection highlights his influential contributions to the understanding of martensite transformations and the development and application of a systems design approach to materials. Part I: Martensite, with an Introduction by Sir Harry Bhadeshia, emphasizes Dr. Olson's work to develop a dislocation theory for martensite transformations, to improve the understanding of the statistical nature of martensite nucleation, and to expand use of quantitative microscopy to characterize phase transformations. Part II: Materials Design, with an Introduction by Dr. Charles Kuehmann, focuses on the application of a systems design approach to materials and the development of integrated computational design curriculum for undergraduate education. Part II includes several examples of the systems design approach to a variety of applications. The papers chosen for this collection were selected by the editors with input from Dr. Olson.
Physical Metallurgy
This compact overview on physical metallurgy provides a detailed coverage of phase equilibria and phase transformations in metals and alloys. It presents the broad range of topics from processes of crystallization and diffusion mechanisms to plastic deformations and structural transformations especially in iron alloys and steels. As an introductory work it is valuable to Material Scientists and Engineers.
