Your search keyword '"Jensen, Katharine E."' showing total 3 results

1. Singular dynamics in the failure of soft adhesive contacts

Author

Berman, Justin D., Randeria, Manjari, Style, Robert W., Xu, Qin, Nichols, James R., Duncan, Aidan J., Loewenberg, Michael, Dufresne, Eric R., and Jensen, Katharine E.

Subjects

Condensed Matter - Soft Condensed Matter, Condensed Matter - Materials Science

Abstract

We characterize the mechanical recovery of compliant silicone gels following adhesive contact failure. We establish broad, stable adhesive contacts between rigid microspheres and soft gels, then stretch the gels to large deformations by pulling quasi-statically on the contact. Eventually, the adhesive contact begins to fail, and ultimately slides to a final contact point on the bottom of the sphere. Immediately after detachment, the gel recoils quickly with a self-similar surface profile that evolves as a power law in time, suggesting that the adhesive detachment point is singular. The singular dynamics we observe are consistent with a relaxation process driven by surface stress and slowed by viscous flow through the porous, elastic network of the gel. Our results emphasize the importance of accounting for both the liquid and solid phases of gels in understanding their mechanics, especially under extreme deformation., Comment: 8 pages, 4 figures

Published

2018

2. Strain-dependent solid surface stress and the stiffness of soft contacts

Author

Jensen, Katharine E., Style, Robert W., Xu, Qin, and Dufresne, Eric R.

Subjects

Condensed Matter - Soft Condensed Matter, Condensed Matter - Materials Science

Abstract

Surface stresses have recently emerged as a key player in the mechanics of highly compliant solids. The classic theories of contact mechanics describe adhesion with a compliant substrate as a competition between surface energies driving deformation to establish contact and bulk elasticity resisting this. However, it has recently been shown that surface stresses provide an additional restoring force that can compete with and even dominate over elasticity in highly compliant materials, especially when length scales are small compared to the ratio of the surface stress to the elastic modulus, $\Upsilon/E$. Here, we investigate experimentally the contribution of surface stresses to the force of adhesion. We find that the elastic and capillary contributions to the adhesive force are of similar magnitude, and that both are required to account for measured adhesive forces between rigid silica spheres and compliant, silicone gels. Notably, the strain-dependence of the solid surface stress contributes significantly to the stiffness of soft solid contacts., Comment: 6 pages, 3 figures

Published

2017

3. Direct Measurement of Strain-dependent Solid Surface Stress

Author

Xu, Qin, Jensen, Katharine E., Boltyanskiy, Rostislav, Sarfati, Raphael, Style, Robert W., and Dufresne, Eric R.

Subjects

Condensed Matter - Materials Science

Abstract

Surface stress, also known as surface tension, is a fundamental material property of any interface. However, measurements of solid surface stress in traditional engineering materials, such as metals and oxides, have proven to be very challenging. Consequently, our understanding relies heavily on untested theories, especially regarding the strain dependence of this property. Here, we take advantage of the high compliance and large elastic deformability of a soft polymer gel to directly measure solid surface stress as a function of strain. As anticipated by theoretical work for metals, we find that the surface stress depends on the strain via a surface modulus. Remarkably, the surface modulus of our soft gels is many times larger than the zero-strain surface tension. This suggests that surfaces stresses can play a dominant role in solid mechanics at much larger length scales than previously anticipated.

Published

2017