Issue 4, 2024

High-speed ultrasound imaging of bubbly flows and shear waves in soft matter

Abstract

In this methods paper, we explore the capabilities of high-speed ultrasound imaging (USI) to study fast varying and complex multi-phase structures in liquids and soft materials. Specifically, we assess the advantages and the limitations of this imaging technique through three distinct experiments involving rapid dynamics: the underwater flow induced by an external jet, the dissolution of sub-micron bubbles in water, and the propagation of shear waves in a soft elastic material. The phenomena were simultaneously characterized using optical microscopy and USI. In water, we use compounded USI for tracking a multi-phase flow produced by a jetting bubble diving into a liquid pool at speeds around 20 m s−1. These types of jets are produced by focusing a single laser pulse below the liquid surface. Upon breakup, they create a bubbly flow that exhibits high reflectivity to the ultrasound signal, enabling the visualization of the subsequent turbulent flow. In a second experiment, we demonstrate the potential of USI for recording the diffusive shrinkage of micro- and nanobubbles in water that could not be optically resolved. Puncturing an elastic material with a liquid jet creates shear waves that can be utilized for elastography measurements. We analysed the shape and speed of shear waves produced by different types of jetting bubbles in industrial gelatin. The wave characteristics were simultaneously determined by implementing particle velocimetry in optical and ultrasound measurements. For the latter, we employed a novel method to create homogeneously distributed micro- and nanobubbles in gelatin by illuminating it with a collimated laser beam.

Graphical abstract: High-speed ultrasound imaging of bubbly flows and shear waves in soft matter

Supplementary files

Article information

Article type
Paper
Submitted
14 Nov 2023
Accepted
21 Dec 2023
First published
25 Dec 2023
This article is Open Access
Creative Commons BY license

Soft Matter, 2024,20, 823-836

High-speed ultrasound imaging of bubbly flows and shear waves in soft matter

J. M. Rosselló, S. Izak Ghasemian and C. Ohl, Soft Matter, 2024, 20, 823 DOI: 10.1039/D3SM01546G

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