The aim of the thesis is to carry out the theoretical investigation of the available or prospective methods for the viscosity sensing and based on the results to suggest and design the micro viscometer for the real applicants use.

Fig. 1. Sketch of the device for measurement of the micro viscosity

References:

1. A. Migliory and J. L. Sarrao, “Resonant ultrasound spectroscopy: applications to physics, material measurements, and non-destructive evaluation,” John Wiley & Sons, INC., New York, 1997.
2. W. Y Shih, X. Li, H. Gu, W.-H. Shih and I. A. Aksay, “Simultaneous liquid viscosity and density determination with piezoelectric unimorph cantilevers,” Journal of Applied Physics 89, 1497 – 1505, 2001.
3. M. Papi, G. Arcovito, M. De Spirito, M. Vassalli and B. Tiribilli, “Fluid viscosity determination by means of uncalibrated atomic force microscopy cantilevers,” Applied Physics Letters 88, 194102-1 - 194102-3, 2006.
4. N. McLoughlin, S. L. Lee and G. Hähner, “Simultaneous determination of density and viscosity of liquids based on resonance curves of uncalibrated microcantilevers,” Appl. Phys. Lett. 89 (2006) 184102-1 - 184102-3.
5. M. Papi, G. Maulucci, G. Arcovito, P. Paoletti, M. Vassalli and M. De Spirito, “Detection of microviscosity by using uncalibrated atomic force microscopy,” Applied Physics Letters, 93, 124102-1 - 124102-3, 2008.