Add to ORKGThe coefficient of static friction between solids generally depends on the time they have remained in static contact before the measurement. Such frictional aging is at the origin of the difference between static and dynamic friction coefficients, but has remained difficult to understand. It is usually attributed to a slow increase in the area of atomic contact as the interface changes under pressure. This is however very difficult to quantify as surfaces have roughness at all length scales, and friction is not always proportional to the contact area. Here, we show that plastic flow of surface irregularities within a polymer-on-glass frictional interface exhibits identical relaxation dynamics as that of the bulk, allowing to predict the rat...
Friction plots of polymers sliding on smooth metal surfaces are generally characterized by two regio...
Understanding the time evolution of contact strength in silica nanocontacts is of great fundamental ...
We study the thermal effects on the frictional properties of atomically thin sheets. We simulate a s...
When two objects are in contact, the force necessary for one to start sliding over the other is larg...
International audienceThe frictional properties of a rough contact interface are controlled by its a...
We study the low-velocity (0.1–100 $\mu$m s$^{-1}$) frictional properties of interfaces between a r...
Dry friction between macroscopic solids can be understood in terms of the elastic (static regime) ve...
8 pages, 5 figures, final version, to appear in Phys. Rev. EInternational audienceThe dry frictional...
We study time-strengthening and velocity-weakening friction of poly(methyl methacrylate) from room t...
Extensive experimental results are presented to reveal the relaxations of polystyrene surface deform...
We report an experiment about the aging properties of the static coefficient of friction under moist...
Friction plots of polymers sliding on smooth metal surfaces are generally characterized by two regio...
The dewetting dynamics of ultrathin polymer films, e.g., in the model system of polystyrene on a po...
When two solid objects slide over each other, friction results from the interactions between the asp...
In this paper, we discuss the nature of the static and kinetic friction, and of (thermally activated...
Friction plots of polymers sliding on smooth metal surfaces are generally characterized by two regio...
Understanding the time evolution of contact strength in silica nanocontacts is of great fundamental ...
We study the thermal effects on the frictional properties of atomically thin sheets. We simulate a s...
When two objects are in contact, the force necessary for one to start sliding over the other is larg...
International audienceThe frictional properties of a rough contact interface are controlled by its a...
We study the low-velocity (0.1–100 $\mu$m s$^{-1}$) frictional properties of interfaces between a r...
Dry friction between macroscopic solids can be understood in terms of the elastic (static regime) ve...
8 pages, 5 figures, final version, to appear in Phys. Rev. EInternational audienceThe dry frictional...
We study time-strengthening and velocity-weakening friction of poly(methyl methacrylate) from room t...
Extensive experimental results are presented to reveal the relaxations of polystyrene surface deform...
We report an experiment about the aging properties of the static coefficient of friction under moist...
Friction plots of polymers sliding on smooth metal surfaces are generally characterized by two regio...
The dewetting dynamics of ultrathin polymer films, e.g., in the model system of polystyrene on a po...
When two solid objects slide over each other, friction results from the interactions between the asp...
In this paper, we discuss the nature of the static and kinetic friction, and of (thermally activated...
Friction plots of polymers sliding on smooth metal surfaces are generally characterized by two regio...
Understanding the time evolution of contact strength in silica nanocontacts is of great fundamental ...
We study the thermal effects on the frictional properties of atomically thin sheets. We simulate a s...