Affiliation:
1. Aselsan Defense Industries, Mehmet Akif Ersoy Mh., 296. Cad. No. 16, Yenimahalle, 06370 Ankara, Turkey
Abstract
Ultrasonic-guided wave sensing relies on perturbation of wave propagation by changing physical properties of the target media. Solid waveguides, through which guided waves can be transduced between the transducer and the target media, are frequently employed for liquid sensing and several other applications. In this manuscript, liquid sensing sensitivity of dispersive quasi-Scholte waves, which are guided interface waves that travel at the solid-liquid boundary, is investigated. Dispersion analysis of quasi-Scholte waves is done and sensitivities of quasi-Scholte waves to changes in fluid density and speed of sound in a dipstick configuration are analyzed. An experimentally verified analytical model based on a global matrix approach is employed in a nondimensional manner to generate representative dispersion and sensitivity surfaces. Optimum configurations with respect to the material properties of the liquid and of the waveguide are illustrated, which would enable optimal quasi-Scholte liquid sensing.
Funder
Izmir Yüksek Teknoloji Enstitüsü
Subject
Electrical and Electronic Engineering,Instrumentation,Control and Systems Engineering
Cited by
3 articles.
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