Ferroelectric and ferroelectromagnetic ceramics in a view of possibilities to be used in electroacoustic

Czerwiec, M.; Zachariasz, R.; Brzezińska, D.; Ilczuk, J.

Artykuł - szczegóły

Tytuł artykułu

Ferroelectric and ferroelectromagnetic ceramics in a view of possibilities to be used in electroacoustic

Autorzy

Czerwiec M. , Zachariasz R. , Brzezińska D. , Ilczuk J.

Treść / Zawartość

Pełne teksty:

httpwww_pta-gdansk_plreferaty11czerwiec.pdf

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Języki publikacji

Abstrakty

Ferroelectric ceramics were born in the early 1940's with the discovery of the phenomenon of ferroelectricity as the source of the unusually high dielectric constant in ceramic barium titanate capacitors. Since that time, they have been the heart and soul several multibillion dollar industries, ranging from high-dielectric-constant capacitors to later developments in piezoelectric transducers, positive temperature coefficient devices, and electrooptic light valves. Various ceramic formulations, their form, fabrications, functions, and future are described in relation to their ferroelectric nature and specific areas of applications. This paper is intended to illustrate practical uses of ferroelectric and ferroelectromagnetic ceramics obtained and investigated by the authors.

Słowa kluczowe

ferroelectricity ferroelectromagnetic ceramics piezoelectric transducers

Wydawca

Polskie Towarzystwo Akustyczne. Oddział Gdański

Czasopismo

Hydroacoustics

Rocznik

2008

Tom

Vol. 11

Strony

63--70

Opis fizyczny

Bibliogr. 19 poz., rys., tab., wykr.

Twórcy

autor

Czerwiec M.

autor

Zachariasz R.

autor

Brzezińska D.

autor

Ilczuk J.

University of Silesia, Faculty of Computer Science and Materials Science, Department of Materials Science, marek.czerwiec@us.edu.pl

Bibliografia

1. J. Ilczuk, Ceramics, 103(1), 83-96, 2008.
2. J. Wallaschek, Piezoelectric ultrasonic motors, J. Intell. Mat. Syst. Structures, 6, 71-73, 1995.
3. Y. Yamayoshi, H. Hirose, Ultrasonic motors not using mechanical friction force, Int. J. Appl. Electr. Mat., 3,179-182, 1992.
4. A. Zarycka, R. Zachariasz, M. Czerwiec, J. Ilczuk, J. Rymarczyk, Journal de Physique IV 137, 193-196, 2006.
5. A. Kumada, A piezoelectric ultrasonic motor., Jap. J. Appl. Phys., 24, 739-741, 1985.
6. E. Flint, C. Liang, C. A. Rogers, Electromechanical analysis of piezoelectric stack active member power consumption, J. Intell. Mat. Syst. Structures, 6, 117-124, 1995.
7. F. P. Sun, Z. Chandhry, C. Liang, C. A. Rogers, Truss structure integrity identification using PZT sensor actuator, J. Intell. Mat. Syst. Structures, 6, 134-139, 1995.
8. Y. Xu, Ferroelectric materials and their application, North-Holland, New York, 1991.
9. B. Noheda, D. E. Cox, G. Shirane, J. A. Gonzalo, L. E. Cross, S. E. Park, Applied Physics Letters, 74(14), 2059-2061, 1999.
10. M. Czerwiec, R. Zachariasz, J. Ilczuk, Archives of Acoustics 32(4), 59-64, 2007.
11. C. L. Hulang, B. H. Chen, Wu L., Solid State Comm., 130, 19, 2004.
12. E. M Bourim, H. Tanaka, M. Gabbay, G. Fantozzi, B. L. Cheng, J.Appl. Phys., 91, 6662, 2002.
13. K. Wójcik, K. Zieleniec, M. Mulata, Ferroelectrics, 289, 107, 2003.
14. O.N. Iwanov, E.A. Skriptchenko, M.E.Pryakhina, Ferroelectrics, 294, 145, 2004.
15. R. Zachariasz, J. Ilczuk, Archives of Acoustics 32(4), 111-116, 2007.
16. M. Jenhi, E.H.El. Ghagraoui, H. Balli, M.El. Aatmani, M. Rafiq, Ann. Chim. Sci. Mat, 23, 151, 1998.
17. R. Zachariasz, D. Bochenek, Journal de Physique IV 137, 189-192, 2006.

Typ dokumentu

Bibliografia

Identyfikator YADDA

bwmeta1.element.baztech-article-BWMA-0018-0008