Add to ORKGA theoretical model is analyzed to investigate the adhesion of thin shell structures to both rigid and deformable substrates under a variety of surface conditions. The thermodynamic forces driving the adhesive process are determined from an interfacial free energy, which is described within a classical thermodynamics framework. Deformations of the thin, elastic shells are studied using a geometrically nonlinear shell theory. Finite-range adhesive tractions, chemical segregation, substrate compliance, and substrate topography all are considered over a wide range of geometric and material parameters. Equilibrium adhesion states are characterized by a shell flatness parameter, the contact radius, and the adhesive and elastic energies. The nonl...
We study variational problems modeling the adhesion interaction with a rigid substrate for elastic ...
We study variational problems modeling the adhesion interaction with a rigid substrate for elastic s...
A mathematical model is proposed to describe the interaction between graphite, polyester and silica ...
A theoretical model is analyzed to investigate the adhesion of thin shell structures to both rigid a...
A theoretical model is analyzed to investigate the adhesion of thin shell structures to both rigid a...
A theoretical model is analyzed to investigate the adhesion of thin shell structures to both rigid a...
Equilibrium adhesion states are analyzed for nonlinear spherical caps adhered to a rigid substrate u...
Using a thermodynamical approach, we calculate the deformation of a spherical elastic particle place...
A two-dimensionally adhesive contact model is established, in which a gas-filled elastic membrane ad...
We review the adhesion fundamentals and related physical aspects occurring from the nanoscale up to ...
This present study investigates the effect of membrane tension on the molecular-mediated adhesion be...
Chapter 6International audienceIn this chapter, a review of theoretical and numerical asymptotic stu...
The authors develop a numerical procedure to analyze the adhesive contact between a soft elastic lay...
The adhesive contact between elastic solids with randomly rough, self-affine fractal surfaces is stu...
Various adhesion mechanisms that have been understood in the field of synthetic adhesives are descri...
We study variational problems modeling the adhesion interaction with a rigid substrate for elastic ...
We study variational problems modeling the adhesion interaction with a rigid substrate for elastic s...
A mathematical model is proposed to describe the interaction between graphite, polyester and silica ...
A theoretical model is analyzed to investigate the adhesion of thin shell structures to both rigid a...
A theoretical model is analyzed to investigate the adhesion of thin shell structures to both rigid a...
A theoretical model is analyzed to investigate the adhesion of thin shell structures to both rigid a...
Equilibrium adhesion states are analyzed for nonlinear spherical caps adhered to a rigid substrate u...
Using a thermodynamical approach, we calculate the deformation of a spherical elastic particle place...
A two-dimensionally adhesive contact model is established, in which a gas-filled elastic membrane ad...
We review the adhesion fundamentals and related physical aspects occurring from the nanoscale up to ...
This present study investigates the effect of membrane tension on the molecular-mediated adhesion be...
Chapter 6International audienceIn this chapter, a review of theoretical and numerical asymptotic stu...
The authors develop a numerical procedure to analyze the adhesive contact between a soft elastic lay...
The adhesive contact between elastic solids with randomly rough, self-affine fractal surfaces is stu...
Various adhesion mechanisms that have been understood in the field of synthetic adhesives are descri...
We study variational problems modeling the adhesion interaction with a rigid substrate for elastic ...
We study variational problems modeling the adhesion interaction with a rigid substrate for elastic s...
A mathematical model is proposed to describe the interaction between graphite, polyester and silica ...