Elastocapillary Wetting: Square Holes and Square Droplets

ORAL

Abstract

We present experiments examining wetting and dewetting of liquids capped by thin elastomeric films. In the dewetting experiments, increasing the isotropic tension of the capping elastomeric layer leads to flatter dewetting rims, and consequently, a slower dewetting speed. This result is consistent with an analogue experiment wherein partially wetting droplets are capped by thin elastic films, and increasing the tension decreases the contact angle. We show that using thin elastic films to cap a liquid presents a new avenue for patterning. By suitable choices of the elastic boundary conditions, holes and droplets can assume elliptical and square morphologies.

*The financial support by the Natural Science and Engineering Research Council of Canada is gratefully acknowledged.

Presenters

  • Rafael Schulman

    • Physics & Astronomy, McMaster Univ
    • McMaster University

Authors

  • Rafael Schulman

    • Physics & Astronomy, McMaster Univ
    • McMaster University

  • John Niven

    • Physics and Astronomy, McMaster University
    • Physics & Astronomy, McMaster University
    • McMaster University

  • Michiel Hack

    • McMaster University

  • Christian DiMaria

    • McMaster University

  • Kari Dalnoki-Veress

    • Physics and Astronomy, McMaster University
    • Physics, McMaster University
    • Department of Physics and Astronomy, McMaster University
    • 1280 Main Street W, McMaster Univ
    • Physics & Astronomy, McMaster Univ
    • Physics & Astronomy, McMaster University
    • McMaster University
    • McMaster Univ