Add to ORKGWe propose a statistical model for static and sliding friction between rough surfaces. Approximating the contact between rough surfaces by the contact of an ensemble of one-dimensional viscoelastic elements with a rough rigid surface, we study the collective behavior of the elements. We find that collective response of the contacts can lead to macroscopic behavior very different from the microscopic behavior. Specifically, various observed features of friction emerge as collective phenomena, without postulating them directly at the microscale. We discuss how parameters in our model can be related to material and surface properties of the contacting surfaces. We compare our results to commonly used rate and state phenomenological models, and...
We study the sliding friction for viscoelastic solids, e.g., rubber, on hard flat substrate surfaces...
Contact between rough surfaces occurs in numerous engineering systems and in many instances influenc...
Although, a lot is known about the factors contributing to friction, a complete physical understandi...
We propose a statistical model for static and sliding friction between rough surfaces. Approximating...
Friction in static and sliding contact of rough surfaces is important in numerous physical phenomena...
Contact mechanics-based models for the friction of nominally flat rough surfaces have not been able ...
We generalize the Persson contact mechanics and rubberfrictiontheory to the case where both surfaces...
International audienceThe frictional properties of a rough contact interface are controlled by its a...
Frictional contacts between solids exist in nature and in a wide range of engineering applications. ...
Dry-friction forces have been shown to depend not only on the characteristics of the surface in con...
Macroscale friction behaviour originates from microscale asperity interactions. However, it is still...
A macroscopically nominal flat surface is rough at the nanoscale level and consists of nanoasperitie...
We investigate the persistence of micro-contacts between two elastic random rough surfaces by means ...
In this paper we extend the theory of contact mechanics and rubber friction developed by one of us (...
A static friction model for contact between rough rubber and metal surfaces is developed. This model...
We study the sliding friction for viscoelastic solids, e.g., rubber, on hard flat substrate surfaces...
Contact between rough surfaces occurs in numerous engineering systems and in many instances influenc...
Although, a lot is known about the factors contributing to friction, a complete physical understandi...
We propose a statistical model for static and sliding friction between rough surfaces. Approximating...
Friction in static and sliding contact of rough surfaces is important in numerous physical phenomena...
Contact mechanics-based models for the friction of nominally flat rough surfaces have not been able ...
We generalize the Persson contact mechanics and rubberfrictiontheory to the case where both surfaces...
International audienceThe frictional properties of a rough contact interface are controlled by its a...
Frictional contacts between solids exist in nature and in a wide range of engineering applications. ...
Dry-friction forces have been shown to depend not only on the characteristics of the surface in con...
Macroscale friction behaviour originates from microscale asperity interactions. However, it is still...
A macroscopically nominal flat surface is rough at the nanoscale level and consists of nanoasperitie...
We investigate the persistence of micro-contacts between two elastic random rough surfaces by means ...
In this paper we extend the theory of contact mechanics and rubber friction developed by one of us (...
A static friction model for contact between rough rubber and metal surfaces is developed. This model...
We study the sliding friction for viscoelastic solids, e.g., rubber, on hard flat substrate surfaces...
Contact between rough surfaces occurs in numerous engineering systems and in many instances influenc...
Although, a lot is known about the factors contributing to friction, a complete physical understandi...