Title :
Viscosity sensor utilizing a piezoelectric thickness shear sandwich resonator
Author :
Thalhammer, Rudolf ; Braun, Stefan ; Devcic-Kuhar, Branka ; Gröschl, Martin ; Trampler, Felix ; Benes, Ewald ; Nowotny, Helmut ; Kostal, Milan
Author_Institution :
Inst. fur Allgemeine Phys., Tech. Univ. Wien, Austria
Abstract :
This paper describes a novel quartz crystal sensor for measurement of the density-viscosity product of Newtonian liquids. The sensor element consists of two piano-convex AT-cut quartz crystals vibrating in a thickness-shear mode with the liquid sample in between. This special set-up allows suppression of disturbing resonances in the liquid layer. Such resonances are generated in the common single-plate arrangements due to compressional waves caused by spurious out-of-plane displacements of the shear vibrating finite plate. The primary measurands of the sensor are the fundamental resonance frequency and the associated resonance Q-value, which are influenced by the viscously entrained liquid contacting the quartz surface. The sensor allows the measurement of samples with viscosities from almost zero (air!) up to 200 cP with a sample volume of 130 /spl mu/l.
Keywords :
crystal resonators; electric sensing devices; quartz; viscosity measurement; Newtonian liquids; disturbing resonance suppression; out-of-plane displacements; piano-convex AT-cut quartz; piezoelectric sandwich resonator; piezoelectric thickness shear mode; quartz crystal sensor; resonance Q-value; viscosity sensor; viscously entrained liquid; Acoustic sensors; Density measurement; Frequency measurement; Resonance; Resonant frequency; Sensor phenomena and characterization; Surface acoustic waves; Surface impedance; Thickness measurement; Viscosity;
Journal_Title :
Ultrasonics, Ferroelectrics, and Frequency Control, IEEE Transactions on
