Experimental verification of nanofluid shear-wave reconversion in ultrasonic fields

Here we present the verification of shear-mediated contributions to multiple scattering of ultrasound in suspensions. Acoustic spectroscopy was carried out with suspensions of silica of differing particle sizes and concentrations in water to find the attenuation at a broad range of frequencies. As t...

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Veröffentlicht in:	Nanoscale 2016-03, Vol.8 (1), p.5497-556
Hauptverfasser:	Forrester, Derek Michael, Huang, Jinrui, Pinfield, Valerie J, Luppé, Francine
Format:	Artikel
Sprache:	eng
Schlagworte:	Acoustics Attenuation Nanofluids Nanostructure Particle size Physics Scattering Spectra Spectroscopy Ultrasound
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creator	Forrester, Derek Michael Huang, Jinrui Pinfield, Valerie J Luppé, Francine
description	Here we present the verification of shear-mediated contributions to multiple scattering of ultrasound in suspensions. Acoustic spectroscopy was carried out with suspensions of silica of differing particle sizes and concentrations in water to find the attenuation at a broad range of frequencies. As the particle sizes approach the nanoscale, commonly used multiple scattering models fail to match experimental results. We develop a new model, taking into account shear mediated contributions, and find excellent agreement with the attenuation spectra obtained using two types of spectrometer. The results determine that shear-wave phenomena must be considered in ultrasound characterisation of nanofluids at even relatively low concentrations of scatterers that are smaller than one micrometre in diameter. Experimental verification of shear-wave reconversion phenomena in ultrasonic fields is conducted using two kinds of ultrasonic spectrometer alongside a computationally efficient multiple scattering model for nanofluids.
doi_str_mv	10.1039/c5nr07396k
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subjects	Acoustics Attenuation Nanofluids Nanostructure Particle size Physics Scattering Spectra Spectroscopy Ultrasound
title	Experimental verification of nanofluid shear-wave reconversion in ultrasonic fields
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