4siFriction is an omnipresent phenomenon in all mechanical systems, inducing uncertainties and acting as a major disturbance in manufacturing technologies and in the field of the micro- and nanoelectromechanical systems (MEMS & NEMS). The effects of friction can generally be compensated in the macro- and mesoscale applications. Multiple concurrent effects of various atomic-scale phenomena in the asperity contacts hinder, however, the prospect of a satisfactory insight into the fundamental tribological behaviour in the micro- and nanoscales. An in-depth fundamental understanding of nanoscale frictional behaviour is, thus, of outmost technological importance. An approach using molecular dynamics (MD) simulations is, hence, proposed in this wo...
Wear is the loss or displacement of material due to contact or relative motion between bodies. Wear ...
This thesis presents a number of nanotribological problems investigated by means of classical molecu...
Contains fulltext : 72030.pdf (publisher's version ) (Open Access
Adhesion and dry sliding friction are modeled and simulated using molecular dynamics principles in t...
In this study, adhesion and friction are modeled and simulated for metal to metal interaction. The i...
Sliding friction at nanometer scale has become an important factor in the miniaturization of moving ...
In this work we present a molecular dynamics simulation of a FFM experiment. The tip-sample interact...
Tribology is the science and engineering of friction, adhesion, wear and lubrication of sliding/inte...
This paper reviews recent progress in molecular dynamics simulation of atomic-scale friction measure...
When large industries develop prod\ud ucts, the size and complexity of it impose \ud majo...
This study aims to clarify the friction and wear phenomena, which are of great importance in abrasiv...
Friction has long been the subject of research: the empirical da Vinci-Amontons friction laws have b...
The understanding of friction in soft materials is of increasing importance due to the demands of in...
Nanotechnology is leading to rapid development of mechanical components whose structure and function...
Tribology properties emerge from a variety of mechanisms occurring along the sliding surfaces, at di...
Wear is the loss or displacement of material due to contact or relative motion between bodies. Wear ...
This thesis presents a number of nanotribological problems investigated by means of classical molecu...
Contains fulltext : 72030.pdf (publisher's version ) (Open Access
Adhesion and dry sliding friction are modeled and simulated using molecular dynamics principles in t...
In this study, adhesion and friction are modeled and simulated for metal to metal interaction. The i...
Sliding friction at nanometer scale has become an important factor in the miniaturization of moving ...
In this work we present a molecular dynamics simulation of a FFM experiment. The tip-sample interact...
Tribology is the science and engineering of friction, adhesion, wear and lubrication of sliding/inte...
This paper reviews recent progress in molecular dynamics simulation of atomic-scale friction measure...
When large industries develop prod\ud ucts, the size and complexity of it impose \ud majo...
This study aims to clarify the friction and wear phenomena, which are of great importance in abrasiv...
Friction has long been the subject of research: the empirical da Vinci-Amontons friction laws have b...
The understanding of friction in soft materials is of increasing importance due to the demands of in...
Nanotechnology is leading to rapid development of mechanical components whose structure and function...
Tribology properties emerge from a variety of mechanisms occurring along the sliding surfaces, at di...
Wear is the loss or displacement of material due to contact or relative motion between bodies. Wear ...
This thesis presents a number of nanotribological problems investigated by means of classical molecu...
Contains fulltext : 72030.pdf (publisher's version ) (Open Access