Journal article
Non-linear and cyclical collisions between drops and bubbles: Using AFM to understand droplet interactions in micro-scale flows
RF Tabor, C Wu, F Grieser, DYC Chan, RR Dagastine
Soft Matter | ROYAL SOC CHEMISTRY | Published : 2013
DOI: 10.1039/c2sm27463a
Abstract
Understanding the mechanics and outcome of droplet and bubble collisions is central to a range of processes from emulsion stability to mineral flotation. The atomic force microscope has been shown to be sensitive and accurate in measuring the forces during such interactions; in combination with a suitable model framework, a powerful tool is obtained for understanding surface forces and droplet stability in dynamic systems. Here we demonstrate for the first time that this process is not limited to linear motion, and that accelerating, decelerating and cyclical droplet velocities can be used to explore the collisions between droplets and bubbles in ways that much more closely mimic real system..
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Funding Acknowledgements
This project is funded in part by the Australian Research Council through a Discovery Project Grant. C.W. is supported by an Australian Postgraduate Research Award. The PFPC is thanked for infrastructure support.