Add to ORKGasperities on the two surfaces come into contact. So it is necessary to relate the force acting on the asperities, and its deformation to the actual contact area (real pressure distribu subsur of an random numbe calcula and W the rea devised elastic approx defor
Discrete dislocation plasticity simulations are performed to investigate the role of interaction bet...
In this work, we discuss important improvements of asperity models. Specifically, we assess the pred...
A method is proposed to account for asperity interaction and bulk substrate deformation in models th...
A method is proposed to account for asperity interaction and bulk substrate deformation in models th...
A mathematical formulation for the contact of rough surfaces is presented. The derivation of the con...
When real engineering surfaces touch, contact occurs between the asperities of the surface roughness...
It is assumed that the influence of the remaining contacting asperities is equal to the action of th...
In a mechanical interface, the contact surface topography has an important influence on the contact ...
AbstractA theoretical study of elastic-plastic contact of rough surfaces is considered based on n-po...
Stresses generated due to contact between an ideally rough but flat surface and a smooth cylinder ar...
The work by Greenwood and Williamson (GW) has initiated a simple but effective method of contact mec...
Contact between curved rough bodies is an important engineering problem. The paper addresses the pro...
A new approach to the multiasperities contact interaction between two surfaces is presented. Each as...
Considering rough surface profiles in a contact model is of decisive importance. In the up-to-date r...
The Greenwood-Williamson (GW) model has been one of the commonly used contact models to study rough ...
Discrete dislocation plasticity simulations are performed to investigate the role of interaction bet...
In this work, we discuss important improvements of asperity models. Specifically, we assess the pred...
A method is proposed to account for asperity interaction and bulk substrate deformation in models th...
A method is proposed to account for asperity interaction and bulk substrate deformation in models th...
A mathematical formulation for the contact of rough surfaces is presented. The derivation of the con...
When real engineering surfaces touch, contact occurs between the asperities of the surface roughness...
It is assumed that the influence of the remaining contacting asperities is equal to the action of th...
In a mechanical interface, the contact surface topography has an important influence on the contact ...
AbstractA theoretical study of elastic-plastic contact of rough surfaces is considered based on n-po...
Stresses generated due to contact between an ideally rough but flat surface and a smooth cylinder ar...
The work by Greenwood and Williamson (GW) has initiated a simple but effective method of contact mec...
Contact between curved rough bodies is an important engineering problem. The paper addresses the pro...
A new approach to the multiasperities contact interaction between two surfaces is presented. Each as...
Considering rough surface profiles in a contact model is of decisive importance. In the up-to-date r...
The Greenwood-Williamson (GW) model has been one of the commonly used contact models to study rough ...
Discrete dislocation plasticity simulations are performed to investigate the role of interaction bet...
In this work, we discuss important improvements of asperity models. Specifically, we assess the pred...
A method is proposed to account for asperity interaction and bulk substrate deformation in models th...