We perform experiments to elucidate how the folding patterns of thin-film diaphragms subject to in-plane isotropic and anisotropic compressive strains depend on the shape, thickness and size of the diaphragms. We then use a constrained von Kaármaán model to relate the experimental results to the energetics of folding. We show that the differences between the isotropic and the anisotropic cases can be traced back to the structure of the membraneous energy density function. In the isotropic case, we find foldings which satisfy the boundary conditions and minimize the membraneous energy. In the anisotropic case, no such foldings exist, but we are able to construct sequences of increasingly fine foldings which satisfy the boundary conditions an...
The aim of this paper is to describe buckling deformations of hollow cylinders whose buckled configu...
The aim of this paper is to describe buckling deformations of hollow cylinders whose buckled configu...
Thin strips or sheets with in-plane curvature have a natural tendency to adopt highly symmetric shap...
We perform experiments to elucidate how the folding patterns of thin-film diaphragms subject to in-p...
We perform experiments to elucidate how the folding patterns of thin- lm dia-phragms subject to in-...
Thin elastic sheets under isotropic compression, such as for example blisters formed by thin films wh...
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 derive an optimal scaling law for the energy of thin elastic films under isotropic compression, s...
We work with two different mechanisms to generate geometric frustration on thin elastic sheets; isot...
Michael Ortiz and Gustavo Gioia showed in the 90s that the complex patterns arising in compressed el...
We consider the elastic energy of a hanging drape – a thin elastic sheet, pulled down by the force o...
International audienceWe consider the interaction between a liquid drop and a flexible membrane, a f...
The aim of this paper is to describe buckling deformations of hollow cylinders whose buckled configu...
The aim of this paper is to describe buckling deformations of hollow cylinders whose buckled configu...
Thin strips or sheets with in-plane curvature have a natural tendency to adopt highly symmetric shap...
We perform experiments to elucidate how the folding patterns of thin-film diaphragms subject to in-p...
We perform experiments to elucidate how the folding patterns of thin- lm dia-phragms subject to in-...
Thin elastic sheets under isotropic compression, such as for example blisters formed by thin films wh...
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 derive an optimal scaling law for the energy of thin elastic films under isotropic compression, s...
We work with two different mechanisms to generate geometric frustration on thin elastic sheets; isot...
Michael Ortiz and Gustavo Gioia showed in the 90s that the complex patterns arising in compressed el...
We consider the elastic energy of a hanging drape – a thin elastic sheet, pulled down by the force o...
International audienceWe consider the interaction between a liquid drop and a flexible membrane, a f...
The aim of this paper is to describe buckling deformations of hollow cylinders whose buckled configu...
The aim of this paper is to describe buckling deformations of hollow cylinders whose buckled configu...
Thin strips or sheets with in-plane curvature have a natural tendency to adopt highly symmetric shap...