Michael Ortiz and Gustavo Gioia showed in the 90s that the complex patterns arising in compressed elastic films can be analyzed within the context of the calculus of variations. Their initial work focused on films partially debonded from the substrate, subject to isotropic compression arising from the difference in thermal expansion coefficients between film and substrate. In the following two decades different geometries have been studied, as for example anisotropic compression. We review recent mathematical progress in this area, focusing on the rich phase diagram of partially debonded films with a lateral boundary condition
a b s t r a c t Wrinkling of thin stiff films on thick compliant elastomeric substrates subject to p...
We examine the problem of an elastic film bonded to an elastic substrate and subjected to compressiv...
The stability of compressed thin films on substrates is discussed in the frame of the Föppl-Von Kar...
In this article, we specifically concern ourselves with the buckling-driven delamination mechanism, ...
Subject to a compressive membrane stress, an elastic film bonded on a substrate can become unstable,...
We derive an optimal scaling law for the energy of thin elastic films under isotropic compression, s...
We perform experiments to elucidate how the folding patterns of thin-film diaphragms subject to in-p...
AbstractNonlinear buckling of elastic thin films on compliant substrates is studied by modeling and ...
Thin elastic sheets under isotropic compression, such as for example blisters formed by thin films wh...
We study the effect of film density on the uniaxial compression of thin elastic films at a liquid-fl...
When a polymer film that is weakly attached to a rigid substrate is exposed to solvent, swelling-ind...
Compressed thin films bonded to a substrate have a tendency to buckle and subsequently debond from t...
We study pattern formation in a compressed elastic film which delaminates from a substrate. Our key ...
The objective of this dissertation is to present analytical solutions to the problem of a circular d...
In situ atomic force microscopy observations have been carried out of thin films under external com...
a b s t r a c t Wrinkling of thin stiff films on thick compliant elastomeric substrates subject to p...
We examine the problem of an elastic film bonded to an elastic substrate and subjected to compressiv...
The stability of compressed thin films on substrates is discussed in the frame of the Föppl-Von Kar...
In this article, we specifically concern ourselves with the buckling-driven delamination mechanism, ...
Subject to a compressive membrane stress, an elastic film bonded on a substrate can become unstable,...
We derive an optimal scaling law for the energy of thin elastic films under isotropic compression, s...
We perform experiments to elucidate how the folding patterns of thin-film diaphragms subject to in-p...
AbstractNonlinear buckling of elastic thin films on compliant substrates is studied by modeling and ...
Thin elastic sheets under isotropic compression, such as for example blisters formed by thin films wh...
We study the effect of film density on the uniaxial compression of thin elastic films at a liquid-fl...
When a polymer film that is weakly attached to a rigid substrate is exposed to solvent, swelling-ind...
Compressed thin films bonded to a substrate have a tendency to buckle and subsequently debond from t...
We study pattern formation in a compressed elastic film which delaminates from a substrate. Our key ...
The objective of this dissertation is to present analytical solutions to the problem of a circular d...
In situ atomic force microscopy observations have been carried out of thin films under external com...
a b s t r a c t Wrinkling of thin stiff films on thick compliant elastomeric substrates subject to p...
We examine the problem of an elastic film bonded to an elastic substrate and subjected to compressiv...
The stability of compressed thin films on substrates is discussed in the frame of the Föppl-Von Kar...