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Electric admittance analysis of quartz crystal resonator in thickness-shear mode induced by array of surface viscoelastic micro-beams

  • Published:2016-11-30 Issue:1 Volume:38 Page:29-38
  • ISSN:0253-4827
  • Container-title:Applied Mathematics and Mechanics
  • language:en
  • Short-container-title:Appl. Math. Mech.-Engl. Ed.

Author:

Xie Jiemin,Hu Yuantai

Publisher

Springer Science and Business Media LLC

Subject

Applied Mathematics,Mechanical Engineering,Mechanics of Materials

Reference18 articles.

1. Benes, E, Improved quartz crystal microbalance technique. Improved quartz crystal microbalance technique 56, 608–626 (1984)

2. Li, F., Wang, J. H. C., and Wang, Q. M, Thickness shear mode acoustic wave sensors for characterizing the viscoelastic properties of cell monolayer. Thickness shear mode acoustic wave sensors for characterizing the viscoelastic properties of cell monolayer 128, 399–406 (2008)

3. Li, N., Qian, Z., and Yang, J, Effects of nonlinearity on transient processes in AT-cut quartz thickness-shear resonators. Effects of nonlinearity on transient processes in AT-cut quartz thickness-shear resonators 28, 347–352 (2015)

4. Reed, C. E., Kanazawa, K. K., and Kaufman, J. H, Physical description of a viscoelastically loaded AT-cut quartz resonator. Physical description of a viscoelastically loaded AT-cut quartz resonator 68, 1993–2001 (1990)

5. Sauerbrey, G, Verwendung von Schwingquarzen zur Wägung dunner Schichten und zur Mikrowägung. Verwendung von Schwingquarzen zur Wägung dunner Schichten und zur Mikrowägung 155, 206–222 (1959)

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