Rheology of a soft jammed interfacial solid

POSTER

Abstract

Particles adsorbed at an oil-water interface form a soft jammed solid, due to their long-range electrostatic repulsion. We measure the rheology of this material with a sensitive custom-built interfacial shear rheometer. The device uses permanent magnets to trap and control a needle that is adsorbed at the interface [Tajuelo et al., J. Rheol. 2016], with simultaneous microscopy that tracks the motions of individual particles in the material. We describe the instrument and present preliminary results on the evolution of the system's rheological properties as we "train" a memory in the system through oscillatory shear.

*This work was supported by NSF Grants 1708870 and 1702352.

Presenters

  • Dani Medina

    • Cal Poly, San Luis Obispo
    • California State Polytechnic University

Authors

  • Dani Medina

    • Cal Poly, San Luis Obispo
    • California State Polytechnic University

  • Benjamin Kauffman

    • Cal Poly, San Luis Obispo

  • Brian Kroger

    • Cal Poly, San Luis Obispo
    • California State Polytechnic University

  • Juan A. Ortiz Salazar

    • Cal Poly, San Luis Obispo
    • California State Polytechnic University

  • Chen Fan

    • Cal Poly, San Luis Obispo

  • Xiang Cheng

    • Department of Chemical Engineering and Materials Science, University of Minnesota
    • University of Minnesota
    • University of Minnesota, Twin Cities

  • Nathan C. Keim

    • Cal Poly, San Luis Obispo
    • California State Polytechnic University