Simultaneous measurements of ultrasound attenuation, phase velocity, thickness, and density spectra of polymeric sheets

•Ultrasonic attenuation, velocity, density and thickness were simultaneously examined.•The polymeric sheets having various acoustical properties were analyzed.•The frequency spectra of the suspension were reproduced by the obtained parameters. The size distribution and mechanical properties of micro...

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Veröffentlicht in:	Ultrasonics 2019-11, Vol.99, p.105974-105974, Article 105974
Hauptverfasser:	Tsuji, Kazuto, Norisuye, Tomohisa, Nakanishi, Hideyuki, Tran-Cong-Miyata, Qui
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Sprache:	eng
Schlagworte:	Attenuation coefficient Phase velocity Ultrasonic spectroscopy Ultrasound scattering
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creator	Tsuji, Kazuto Norisuye, Tomohisa Nakanishi, Hideyuki Tran-Cong-Miyata, Qui
description	•Ultrasonic attenuation, velocity, density and thickness were simultaneously examined.•The polymeric sheets having various acoustical properties were analyzed.•The frequency spectra of the suspension were reproduced by the obtained parameters. The size distribution and mechanical properties of microparticle dispersed in liquid can be characterized by ultrasonic spectroscopy with the aid of acoustic scattering theories. In order to carry out the accurate analysis of the particles, the basic properties, such as the density, viscosity, longitudinal and shear velocities and intrinsic attenuation coefficient of the particle must be known prior to the analysis. Particularly, for soft elastomers or rubbers which exhibit complex mechanical properties with comparable real and imaginary parts, such fundamental information should be provided prior to the particle analysis to minimize the uncertainty of estimation associated with the number of adjustable parameters. In this study, we examined the acoustical properties of poly(methyl methacrylate)(PMMA) and cross-linked poly(dimethyl siloxane) sheets having different cross-linker concentrations by Multiple-Echo Reflection Ultrasonic Spectroscopy which simultaneously enabled us to acquire 4 fundamental properties, the ultrasound attenuation coefficient, phase velocity, density, and thickness (MERUS4 for solid plate). In addition, it was confirmed that the acoustic spectra of PMMA particles dispersed in water were reproduced well with the physical properties determined by MERUS4 using the PMMA plates.
doi_str_mv	10.1016/j.ultras.2019.105974
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The size distribution and mechanical properties of microparticle dispersed in liquid can be characterized by ultrasonic spectroscopy with the aid of acoustic scattering theories. In order to carry out the accurate analysis of the particles, the basic properties, such as the density, viscosity, longitudinal and shear velocities and intrinsic attenuation coefficient of the particle must be known prior to the analysis. Particularly, for soft elastomers or rubbers which exhibit complex mechanical properties with comparable real and imaginary parts, such fundamental information should be provided prior to the particle analysis to minimize the uncertainty of estimation associated with the number of adjustable parameters. In this study, we examined the acoustical properties of poly(methyl methacrylate)(PMMA) and cross-linked poly(dimethyl siloxane) sheets having different cross-linker concentrations by Multiple-Echo Reflection Ultrasonic Spectroscopy which simultaneously enabled us to acquire 4 fundamental properties, the ultrasound attenuation coefficient, phase velocity, density, and thickness (MERUS4 for solid plate). 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In this study, we examined the acoustical properties of poly(methyl methacrylate)(PMMA) and cross-linked poly(dimethyl siloxane) sheets having different cross-linker concentrations by Multiple-Echo Reflection Ultrasonic Spectroscopy which simultaneously enabled us to acquire 4 fundamental properties, the ultrasound attenuation coefficient, phase velocity, density, and thickness (MERUS4 for solid plate). 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In this study, we examined the acoustical properties of poly(methyl methacrylate)(PMMA) and cross-linked poly(dimethyl siloxane) sheets having different cross-linker concentrations by Multiple-Echo Reflection Ultrasonic Spectroscopy which simultaneously enabled us to acquire 4 fundamental properties, the ultrasound attenuation coefficient, phase velocity, density, and thickness (MERUS4 for solid plate). In addition, it was confirmed that the acoustic spectra of PMMA particles dispersed in water were reproduced well with the physical properties determined by MERUS4 using the PMMA plates.</abstract><cop>Netherlands</cop><pub>Elsevier B.V</pub><pmid>31430702</pmid><doi>10.1016/j.ultras.2019.105974</doi><tpages>1</tpages></addata></record>
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subjects	Attenuation coefficient Phase velocity Ultrasonic spectroscopy Ultrasound scattering
title	Simultaneous measurements of ultrasound attenuation, phase velocity, thickness, and density spectra of polymeric sheets
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