Complex Fluids under High Stress
Dr. Michelle Driscoll is an Associate Professor and soft condensed matter experimentalist in the Department of Physics and Astronomy at Northwestern University.
Abstract: Why does ketchup flow better when you whack the bottle? Why is oobleck able to transform from a flowing liquid to a solid when you squeeze it? Complex fluids, such as ketchup and oobleck, have mesoscale structure on the scale of tens of microns, and it is local changes to this structure which lead to dramatic changes in flow properties. In my lab, we try to understand these materials using free-surface flows such as drop impact and sheet breakup. We use high speed imaging, and work with model systems to gain new insight into complex behavior such as solidification under stress. In this talk, I will discuss how I have used this approach to unde stand both dynamical behavior as well to reveal the in-situ microstructure of these materials. I will discuss two classes of complex fluids, yield stress fluids and shear-thickening fluids, and demonstrate how our measurements offer a new window into the transient behavior of these materials under high stress.
About: Professor Driscoll is a soft condensed matter experimentalist, and her research lies at the junction between soft-matter physics and fluid dynamics. The Driscoll lab focuses on understanding how structure and patterns emerge in a driven system, and how to use this structure formation as a new way to probe nonequillibrium systems. The lab studies emergent structures in a diverse array of driven systems, from the microscopic to larger-scale. By developing a deeper understanding of patterns and structures which emerge dynamically in a driven material, we can learn not only how these structures can be controlled, but also how to use them to connect macroscopic behavior to microscopic properties. Before coming to Northwestern, Prof. Driscoll was a postdoctoral associate at New York University, working with Paul Chaikin in the Center for Soft Matter Research. She completed her PhD in 2014 with Sid Nagel at the University of Chicago.