Journal Article


Characterization of ultrasonic bubble clouds in a liquid metal by synchrotron x-ray high speed imaging and statistical analysis

Abstract

Quantitative understanding of the interactions of ultrasonic waves with liquid and solidifying metals is essential for developing optimal processing strategies for ultrasound processing of metal alloys in the solidification processes. In this research, we used the synchrotron X-ray high-speed imaging facility at Beamline I12 of the Diamond Light Source, UK to study the dynamics of ultrasonic bubbles in a liquid Sn-30wt%Cu alloy. A new method based on the X-ray attenuation for a white X-ray beam was developed to extract quantitative information about the bubble clouds in the chaotic and quasi-static cavitation regions. Statistical analyses were made on the bubble size distribution, and velocity distribution. Such rich statistical data provide more quantitative information about the characteristics of ultrasonic bubble clouds and cavitation in opaque, high-temperature liquid metals.

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Authors

Wang Chuangnan
Connolley, Thomas
Tzanakis, Iakovos
Eskin, Dmitry
Mi Jiawei

Oxford Brookes departments

School of Engineering, Computing and Mathematics

Dates

Year of publication: 2019
Date of RADAR deposit: 2020-01-08


Creative Commons License This work is licensed under a Creative Commons Attribution 4.0 International License


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