We study the effect of film density on the uniaxial compression of thin elastic films at a liquid-fluid interface. Using a combination of experiments and theory, we show that dense films first wrinkle and then fold as the compression is increased, similarly to what has been reported when the film density is neglected. However, we highlight the changes in the shape of the fold induced by the film's own weight and extend the model of Diamant and Witten [Phys. Rev. Lett., 2011, 107, 164302] to understand these changes. In particular, we suggest that it is the weight of the film that breaks the up-down symmetry apparent from previous models, but elusive experimentally. We then compress the film beyond the point of self-contact and observe a new...
Subject to a compressive membrane stress, an elastic film bonded on a substrate can become unstable,...
Thin elastic solids are easily deformed into a myriad of three-dimensional shapes, which may contain...
The protein hydrophobin HFBII self-assembles into very elastic films at the surface of water; these ...
Thin elastic solids are easily deformed and will readily collapse into complex buckling modes. They ...
A thin film confined to a liquid interface responds to uniaxial compression by wrinkling, and then b...
A thin film at a liquid interface responds to uniaxial confinement by wrinkling and then by folding;...
We study the indentation of a thin elastic film floating at the surface of a liquid. We focus on the...
This thesis examines two situations in the buckling of thin films subjected to compression: the buck...
An ultrathin polymer sheet floating on a fluid forms a periodic pattern of parallel wrinkles when su...
There is an emerging trend towards the fabrication of microcapsules at liquid interfaces. In order t...
We present a physically-based model for the deformation of a floating elastic membrane caused by the...
Cette thèse porte sur le flambement d'une interface chargée en particules: une monocouche de grains ...
AbstractA drop placed under a solid thin film causes it to bulge due to the action of liquid surface...
The protein hydrophobin HFBII self-assembles into very elastic films at the surface of water; these ...
We address the partial wetting of liquid drops on ultrathin solid sheets resting on a deformable fou...
Subject to a compressive membrane stress, an elastic film bonded on a substrate can become unstable,...
Thin elastic solids are easily deformed into a myriad of three-dimensional shapes, which may contain...
The protein hydrophobin HFBII self-assembles into very elastic films at the surface of water; these ...
Thin elastic solids are easily deformed and will readily collapse into complex buckling modes. They ...
A thin film confined to a liquid interface responds to uniaxial compression by wrinkling, and then b...
A thin film at a liquid interface responds to uniaxial confinement by wrinkling and then by folding;...
We study the indentation of a thin elastic film floating at the surface of a liquid. We focus on the...
This thesis examines two situations in the buckling of thin films subjected to compression: the buck...
An ultrathin polymer sheet floating on a fluid forms a periodic pattern of parallel wrinkles when su...
There is an emerging trend towards the fabrication of microcapsules at liquid interfaces. In order t...
We present a physically-based model for the deformation of a floating elastic membrane caused by the...
Cette thèse porte sur le flambement d'une interface chargée en particules: une monocouche de grains ...
AbstractA drop placed under a solid thin film causes it to bulge due to the action of liquid surface...
The protein hydrophobin HFBII self-assembles into very elastic films at the surface of water; these ...
We address the partial wetting of liquid drops on ultrathin solid sheets resting on a deformable fou...
Subject to a compressive membrane stress, an elastic film bonded on a substrate can become unstable,...
Thin elastic solids are easily deformed into a myriad of three-dimensional shapes, which may contain...
The protein hydrophobin HFBII self-assembles into very elastic films at the surface of water; these ...