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This book systematizes data on the heterophase states and their evolution in perovskite-type ferroelectric solid solutions. It also provides a general interpretation of heterophase and domain structures on changing temperature, composition or electric field, as well as the complete analysis of interconnections domain structures, unit-cell parameters changes, heterophase structures and stress relief. The description of numerous examples of heterophase states in lead-free ferroelectric solid solutions is also included. Domain state–interface diagrams contribute to the interpretation of…mehr
This book systematizes data on the heterophase states and their evolution in perovskite-type ferroelectric solid solutions. It also provides a general interpretation of heterophase and domain structures on changing temperature, composition or electric field, as well as the complete analysis of interconnections domain structures, unit-cell parameters changes, heterophase structures and stress relief. The description of numerous examples of heterophase states in lead-free ferroelectric solid solutions is also included. Domain state–interface diagrams contribute to the interpretation of heterophase states in perovskite-type ferroelectric solid solutions and describe the stress relief in the presence of polydomain phases, the behavior of unit-cell parameters of coexisting phases, the effect of external electric field etc. This 2nd edition generalizes the results on the heterophase ferroelectric solid solutions and the stress relief and presents new results on heterophase/domain structures and phase contents in lead-free ferroelectric solid solutions.
Vitaly Yuryevich Topolov received the the degrees “Candidate of Sciences (Physics and Mathematics)” and “Doctor of Sciences (Physics and Mathematics)” in 1987 and 2000, respectively from the Rostov State University, Russia. From 1987 to 1991, he worked as a Research Scientist of the Institute of Physics at the Rostov State University, from 1991 to 2000 as a Senior Lecturer (1991–1992) and an Associate Professor (1992–2000) of the Department of Physics at the Rostov State University. In 2000, he became an associate professor at the same Department. In 2011 he was appointed full professor of the Department of Physics and High Technologies at the Southern Federal University. He has been a Corresponding Member of the Russian Academy of Natural Science (Moscow, Russia9 since 2010). He was also a visiting scientist at the Moscow State University, Russia (former USSR, 1989), University of Saarland, Germany (1994–1995), Aachen University of Technology – RWTH Aachen, Germany (1998), Karlsruhe Research Center, Germany (2002 and 2003–2004), University of Bath, UK (2006, 2007, 2012, 2013, and 2014), and University of Roma “Tor Vergata”, Italy (2008). His research interests include heterogeneous ferroelectrics, smart materials, domain and heterophase structures, as well as electromechanical effects in ferroelectrics and related materials. He earned the special award from the International Science Foundation (1993) and the Soros and awards from the International Soros Science-Educational Program and the Open Society Institute in 1997, 1998, 2000, and 2001.He authored three monographs published by Springer, various chapters in books published by Nova Science Publishers (New York, USA),and about 370 scientific papers.
Christopher Rhys Bowen earned a BSc in Materials Science at the School of Materials, University of Bath, UK in 1990 and worked on his DPhil thesis in ceramics in the Department of Materials, University of Oxford, UK in 1990–1993 (PhD awarded in 1994). In 1993–1994, he worked as a Researcher in the Advanced Ceramics Group at the Technical University of Hamburg-Harburg (TUHH). From 1994 to 1996, he was research fellow at the School of Materials, University of Leeds, UK. From 1996 to 1998, he was a Senior Scientist at DERA, Functional Materials Group, UK. He joined the University of Bath in August 1998 and is now a Professor at the same University.
The research interests of Prof. C. R. Bowen are concerned with functional ceramics, including ferroelectric ceramics and composites for modern sensors and actuators, as well as with manufacturing and characterisation of these materials. He earned the Thornton and Hazelwood prizes for academic work (1986–1990), Institute of Materials National Lecture Competition award (1993), SET award (2002), and John Willis award for excellence in research and teaching (2003). He is the author two monographs published at Springer and chapters in monographs published at Nova Science. He has published approximately 200 scientific papers. He is currently supported by the European Research Council under the European Union's Seventh Framework Programme (FP/2007-2013) / ERC Grant Agreement no. 320963 on Novel Energy Materials, Engineering Science and Integrated Systems (NEMESIS).
Inhaltsangabe
Crystallographic Aspects of Interfaces in Ferroelectrics and Related Materials.- Two-Phase States.- Coexistence Under Electric Field.- Three-Phase States.- Overlapping Structures and Transition Regions.- Relations Between Domain States and Heterophase Structures in Lead-Free Ferroelectric Solid Solutions.- Conclusion.
Crystallographic Aspects of Interfaces in Ferroelectrics and Related Materials.- Two-Phase States.- Coexistence Under Electric Field.- Three-Phase States.- Overlapping Structures and Transition Regions.- Relations Between Domain States and Heterophase Structures in Lead-Free Ferroelectric Solid Solutions.- Conclusion.
Crystallographic Aspects of Interfaces in Ferroelectrics and Related Materials.- Two-Phase States.- Coexistence Under Electric Field.- Three-Phase States.- Overlapping Structures and Transition Regions.- Relations Between Domain States and Heterophase Structures in Lead-Free Ferroelectric Solid Solutions.- Conclusion.
Crystallographic Aspects of Interfaces in Ferroelectrics and Related Materials.- Two-Phase States.- Coexistence Under Electric Field.- Three-Phase States.- Overlapping Structures and Transition Regions.- Relations Between Domain States and Heterophase Structures in Lead-Free Ferroelectric Solid Solutions.- Conclusion.
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