The Stability of the Properties in PZT Based Ceramics

Zachariasz, R.; Czerwiec, M.; Bartkowska, J.; Ilczuk, J.

Artykuł - szczegóły

Tytuł artykułu

The Stability of the Properties in PZT Based Ceramics

Autorzy

Zachariasz R. , Czerwiec M. , Bartkowska J. , Ilczuk J.

Identyfikatory

Warianty tytułu

Języki publikacji

Abstrakty

Słowa kluczowe

Wydawca

Silesian Division of Polish Acoustical Society

Czasopismo

Molecular and Quantum Acoustics

Rocznik

2004

Tom

Vol. 25

Strony

249--256

Opis fizyczny

Bibliogr. 20 poz., rys.

Twórcy

autor

Zachariasz R.

rzachari@us.edu.pl

University of Silesia, Faculty of Computer and Material Sciences Department of Material Science Żeromskiego 3 St., 41-200 Sosnowiec, Poland

autor

Czerwiec M.

University of Silesia, Faculty of Computer and Material Sciences Department of Material Science Żeromskiego 3 St., 41-200 Sosnowiec, Poland

autor

Bartkowska J.

University of Silesia, Faculty of Computer and Material Sciences Department of Material Science Żeromskiego 3 St., 41-200 Sosnowiec, Poland
University of Silesia, Faculty of Computer and Material Sciences Department of Material Science Żeromskiego 3 St., 41-200 Sosnowiec, Poland

autor

Ilczuk J.

Bibliografia

1. B. Jaffe, W. R. Jr. Cook, H, Jaffe, Piezoelectric Ceramics, Academic Press, p.271, London and New York 1971.
2. J. Wallaschek, P iezoelectric u Itrasonic m otors, J. Intell. M at. S yst. S tructures 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. Y. Tomikawa, T. Ogasawa, Ultrasonic motors: construction, characteristics, applications, Ferroelectrics 91, 13-178,1989.
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. S. A. Gridnev, Ferroelectrics 112.107-127, 1990.
11. A. Puskar, Internal Friction of Materials, Cambridge International Science Publishing, Cambridge 2001.
12. R. Zachariasz, J. Ilczuk, A. Chrobak, Ceramics 66,710-715, 2001.
13. B. L. Cheng, M. Gabbay, M. Maglione, Y. Jorand, G. Fantozzi, Journal de Physique IV 6, 647-650, 1996.
14. B. Brus, R. Zachariasz, J. Ilczuk, Physica Stat. Solidi (a) 201. 798-802,2004.
15. J. Ilczuk, Molecular & Quantum Acoustics 23,167-174,2002.
16. J. Ilczuk, J. Dudek, Z. Surowiak, Molecular & Quantum Acoustics 18, p. 101,1997.
17. A. S. Nowick, B. S. Berry, Anelastic Relaxation in Crystalline Solids, Academic Press, Chap. 3, New York 1972.
18. Y. N. Wang, W. Y. Sun, X. H. Chen, H. M. Shen, B. S. Lu, Physica Stat. Solidi (a) 102, p. 279, 1987.
19. J. Ilczuk, J. Dudek, Z. Surowiak, Molecular & Quantum Acoustics 19, p.108,1998.
20. E. M. Bourim, H. Idrissi, B. L. Cheng, M. Gabbay, G. Fantozzi, J. De Physique, IV, 6, C8, 633-636, 1996.

Typ dokumentu

Bibliografia

Identyfikator YADDA

bwmeta1.element.baztech-article-BUJ6-0008-0019