Vibration Damping Measurements in Piezoelectric Crystals by Surface Acoustic Waves

Filipiak, J.; Zubko, K.

Artykuł - szczegóły

Tytuł artykułu

Vibration Damping Measurements in Piezoelectric Crystals by Surface Acoustic Waves

Autorzy

Filipiak J. , Zubko K.

Identyfikatory

Warianty tytułu

Języki publikacji

Abstrakty

To model anisotropic crystals under the circumstances of dynamic force the numerical methods are used. However it is not allowed to compare in a simple way the usability of various materials to the sensors construction where the usable parameters are defined. It is possible when using the models, which describe the dynamic fo the work through evident dependencies of material and construcional parameters. The method of defining the piezoelectric crystal damping and results for ST quartz will be shown in the work. Surface Acoustic Waves (SAW) has been used as a measurement device.

Słowa kluczowe

ST quartz material damping surface acoustic waves

Wydawca

Silesian Division of Polish Acoustical Society

Czasopismo

Molecular and Quantum Acoustics

Rocznik

2001

Tom

Vol. 22

Strony

69--75

Opis fizyczny

Bibliogr. 23 poz., rys.

Twórcy

autor

Filipiak J.

Institute of Applied Physics, Military University of Technology, Kaliskiego Str. 2, 00-908 Warsaw, Poland

autor

Zubko K.

zubkonrad@mach3.polbox.pl

Institute of Applied Physics, Military University of Technology, Kaliskiego Str. 2, 00-908 Warsaw, Poland

Bibliografia

1. C. A. Grimes and all., Sensors & Actuators 84, 205-212 (2000)
2. F. E. H. Tay and all., Sensors & Actuators 86, 45-51 (2000)
3. J. Wilson “A practical approach to vibration detection and measurement”, part 1 “Phycical principles and detection techniques” February 1999, “Sensors” from http://www. sensorsmag.com
4. J. Filipiak, C. Kopycki, Sensors & Actuators 76, 318-322 (1999)
5. J. Filipiak, L. Solarz, C. Kopycki, K. Zubko, proceedings of the Navigation Symposium, Air Force Institute of Technology, Warsaw, 68-74 (1998)
6. W. Qu and all..Sensors & Actuators 77, 14-20 (1999)
7. M. D. Insalaco “The art of fabrication a rotational accelerometer” February 1999, “Sensors” from http://www.sensorsmag.com
8. J. F. Nye, „ Physical properties of crystals, their representation by tensors and matrices”, Claredon Press 1957, chapter 8
9. C. Kittel, „Introduction to solid state physic”, John Willey & Sons Inc. 1953, chapter 3
10. R. E. Oosterbrock and all., Sensors & Actuators 77, 167-177 (1999)
11. J. Hsieh and all., Sensors & Actuators 79, 64-70 (2000)
12. O. Ludtke and all., Sensors& Actuators 82, 149 - 154 (2000)
13. J. Thomas and all., Sensors & Actuators 85, 194 -201(2000)
14. G-S. Chen and all., Sensors & Actuators 86, 108-114 (2000)
15. J. Hietanen and all., Sensors & Actuators 86, 39-44 (2000)
16. Y. S. Cho and all., Sensors & Actuators 84, 140-148 (2000)
17. R. Shear, “Piezoelectric sensors for OEM applications”, February 1999, “Sensors” from http://www.sensorsmatz.com
18 . D. Hauden. Archives of Acoustics, 16. 1. 8 - 15 (1991)
19. R. H. Grace and all. “Silicon micromachined sensors”, September 1999. “Sensors” from http://vvww.sensorsmag.com
20. S. Kaliski, “Waves and vibrations”, Elsevier and PWN, Warsaw 1992, chapter 1
21. M. Hashimoto, “A 3-axis Silicon piezorezistive accelerometer” February 1999, “Sensors” from http://www.sensorsmag.com
22. M. Madi and all “A micromachined quartz angular rate sensor for automotive and advanced inertial applications: August 1999, “Sensors” from http://www.sensorsmag.com
23. G. L. Davis “Determining the kinematics of the Mars Pathfinder lander from acceleration data” January' 1998, “Sensors” from http://www.sensorsmau.coni

Typ dokumentu

Bibliografia

Identyfikator YADDA

bwmeta1.element.baztech-article-BUJ6-0008-0098