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Books by Keyword: Ferromagnetic Shape Memory Alloys (FSMAs)
Books
Edited by:
Danuta Stróż and Grzegorz Dercz
Online since: June 2013
Description: The goal of this collection is to provide the opportunity for researchers working in many different fields to showcase their latest achievements in the arena of structural studies, as applied to the materials commonly used in industry. Emphasis is placed on the methods and techniques used in structural studies, as well as on the structures and properties of divers materials including: metals and alloys, ceramics, polymers, quasicrystals, nanomaterials and thin films.
Volume is indexed by Thomson Reuters CPCI-S (WoS).
The book comprises 98 peer-reviewed papers which provide excellent up-to-date coverage of the subject.
Volume is indexed by Thomson Reuters CPCI-S (WoS).
The book comprises 98 peer-reviewed papers which provide excellent up-to-date coverage of the subject.
Edited by:
Sergey Prokoshkin and Natalia Resnina
Online since: January 2013
Description: Volume is indexed by Thomson Reuters CPCI-S (WoS).
The special collection of peer reviewed papers tends to present to the reader recent advances in martensitic transformations; thermodynamics and kinetics of martensitic transformations; crystal structure, texture and defects in materials with martensitic transformations; mechanical behavior, shape memory effect, pseudoelasticity and other functional properties in TiNi-based alloys, Cu-based alloys, Fe-based and other alloys; magnetic shape memory alloys; non-metallic materials; theory and modeling of mechanical and functional properties; martensitic transformations in nanostructured alloys; medical applications and technological applications.
The special collection of peer reviewed papers tends to present to the reader recent advances in martensitic transformations; thermodynamics and kinetics of martensitic transformations; crystal structure, texture and defects in materials with martensitic transformations; mechanical behavior, shape memory effect, pseudoelasticity and other functional properties in TiNi-based alloys, Cu-based alloys, Fe-based and other alloys; magnetic shape memory alloys; non-metallic materials; theory and modeling of mechanical and functional properties; martensitic transformations in nanostructured alloys; medical applications and technological applications.
Edited by:
Hardev Singh Virk and Wolfgang Kleemann
Online since: June 2012
Description: Volume is indexed by Thomson Reuters BCI (WoS).
Multiferroics: that is, materials which simultaneously exhibit both ferromagnetism and ferroelectricity - and also often ferroelasticity - now attract considerable attention because of the interesting physics involved and their promise for important practical applications. Typical multiferroics belong to the perovskite group of transition metal oxides, and include rare-earth manganites and ferrites. Several new multiferroic systems have been developed, during recent years, which exhibit very strong coupling between the ferroelectric and magnetic degrees of freedom. The present volume comprises both review articles, and research papers on various themes; with very little overlap. The authors of the review papers have generally kept in mind the unfamiliarity, of the field of ‘Ferroics and Multiferroics’, to newcomers. They cover the historical development of the field, and add their own contributions.
Multiferroics: that is, materials which simultaneously exhibit both ferromagnetism and ferroelectricity - and also often ferroelasticity - now attract considerable attention because of the interesting physics involved and their promise for important practical applications. Typical multiferroics belong to the perovskite group of transition metal oxides, and include rare-earth manganites and ferrites. Several new multiferroic systems have been developed, during recent years, which exhibit very strong coupling between the ferroelectric and magnetic degrees of freedom. The present volume comprises both review articles, and research papers on various themes; with very little overlap. The authors of the review papers have generally kept in mind the unfamiliarity, of the field of ‘Ferroics and Multiferroics’, to newcomers. They cover the historical development of the field, and add their own contributions.
Edited by:
V.A. Chernenko
Online since: May 2011
Description: Volume is indexed by Thomson Reuters BCI (WoS).
This second Special Topic edition follows the success of the first one: edited and published by TTP in 2008. It is intended to communicate the latest progress and research advances made in the theory, research and development of MSMMs. It comprises a collection of fifteen invited peer-reviewed papers; each detailing a particular aspect of fundamental and/or practical investigations of MSMMs and related phenomena. The comprehensive overview provided by these contributions strikingly reflects the diverse facets of this materials science field. The papers show how research is continuing to evolve and to address new challenges, and are a source of the most up-to-date information on ongoing studies of MSMMs.
This second Special Topic edition follows the success of the first one: edited and published by TTP in 2008. It is intended to communicate the latest progress and research advances made in the theory, research and development of MSMMs. It comprises a collection of fifteen invited peer-reviewed papers; each detailing a particular aspect of fundamental and/or practical investigations of MSMMs and related phenomena. The comprehensive overview provided by these contributions strikingly reflects the diverse facets of this materials science field. The papers show how research is continuing to evolve and to address new challenges, and are a source of the most up-to-date information on ongoing studies of MSMMs.
Edited by:
V. A. Chernenko and J. M. Barandiaran
Online since: December 2009
Description: Volume is indexed by Thomson Reuters CPCI-S (WoS).
This work on Ferromagnetic Shape Memory Alloys contains selected peer-reviewed papers. Such materials belong to the most exciting and fastest-growing group of martensitic multifunctional materials.
The selected papers cover the following topics of: Basic phenomena and theory; Structure and magnetic properties; Magnetomechanics and magnetocaloric effect; Thin films and composites; Modeling and simulations and Processing and engineering.
This work on Ferromagnetic Shape Memory Alloys contains selected peer-reviewed papers. Such materials belong to the most exciting and fastest-growing group of martensitic multifunctional materials.
The selected papers cover the following topics of: Basic phenomena and theory; Structure and magnetic properties; Magnetomechanics and magnetocaloric effect; Thin films and composites; Modeling and simulations and Processing and engineering.
Edited by:
Lluis Mañosa, P.K. Mukhopadhyay and S.R. Barman
Online since: June 2008
Description: Volume is indexed by Thomson Reuters CPCI-S (WoS).
Multiferroic shape-memory alloys that exhibit both ferroelastic and ferromagnetic properties have recently attracted much attention. They belong to the family of so-called “smart materials” and are future-generation materials that are likely to be useful in cutting-edge technologies. Apart from the theoretical challenge of understanding their fascinating properties, the quest to harness them for practical use is also attracting many scientists and engineers from all over the world.
Multiferroic shape-memory alloys that exhibit both ferroelastic and ferromagnetic properties have recently attracted much attention. They belong to the family of so-called “smart materials” and are future-generation materials that are likely to be useful in cutting-edge technologies. Apart from the theoretical challenge of understanding their fascinating properties, the quest to harness them for practical use is also attracting many scientists and engineers from all over the world.
Edited by:
V.A. Chernenko
Online since: May 2008
Description: This specialist book, the first of its kind, includes original and review articles which describe magnetic shape-memory alloys and the magnetic shape-memory effect.
Edited by:
Yukichi Umakoshi and Shinji Fujimoto
Online since: April 2006
Description: Volume is indexed by Thomson Reuters CPCI-S (WoS).
The Industrial Revolution showed that the development and improvement of new materials and functions could bring about social change, and benefit human society. However, one can be forgiven for feeling that more recent materials research, particularly in the domain of metals, has focused only upon individual elemental characteristics and narrow specialty fields, and that the original vision of materials research has thus been lost.
The Industrial Revolution showed that the development and improvement of new materials and functions could bring about social change, and benefit human society. However, one can be forgiven for feeling that more recent materials research, particularly in the domain of metals, has focused only upon individual elemental characteristics and narrow specialty fields, and that the original vision of materials research has thus been lost.
Showing 1 to 8 of 8 Books