Add to ORKGDespite the intertwining wear mechanisms involved in rolling-sliding contact under water it was possible to simulate wear using a simple model relying on a linear dependency between the wear volume and the sliding distance. Local geometrical changes directly affect contact pressure and tensile stresses. Due to progressive wear tensile stresses decrease and modify their distribution to follow the changes occurring to the contact zone. Crack propagation on the surface accordingly follows the tensile stress trajectory path
The effect of the changes in the micro-geometry in a rolling contact on wear processes like running-...
The paper describes modelling approach to computational simulation of surface crack growth subjected...
Bearing wear prognosis requires effective modelling and monitoring of rolling contact. Rolling conta...
The aim of this study is to characterize the wear in silicon nitride rolls undergoing rolling–slidin...
The focus of the work was to investigate crack initiation and propagation mechanisms in silicon nitr...
This study focuses on the damage mechanisms in silicon nitride rolling elements used in hybrid (cera...
Many engineering applications often involve contacting surfaces. The contact can be either in the fo...
Out of various structural ceramics, silicon nitride is considered to be the first choice of material...
Although many wear criteria have been proposed, none is intrinsic to the materials and to the struct...
Specimens of in-situ-reinforced silicon nitride (ISRSH) have been wear tested in lubricated, recipro...
A general approach to numerically simulating wear in rolling and sliding contacts is presented in th...
Although in terms of conservation wear is undesirable, however, running-in wear is encouraged rather...
In order to contribute to the design of full-ceramic rolling bearings, the mechanical behaviour of a...
Ceramic rolling elements of hybrid bearings may initially include surface imperfections. In order to...
Running-in of two fresh and unworn surfaces in contact is a transient phase where friction and wear ...
The effect of the changes in the micro-geometry in a rolling contact on wear processes like running-...
The paper describes modelling approach to computational simulation of surface crack growth subjected...
Bearing wear prognosis requires effective modelling and monitoring of rolling contact. Rolling conta...
The aim of this study is to characterize the wear in silicon nitride rolls undergoing rolling–slidin...
The focus of the work was to investigate crack initiation and propagation mechanisms in silicon nitr...
This study focuses on the damage mechanisms in silicon nitride rolling elements used in hybrid (cera...
Many engineering applications often involve contacting surfaces. The contact can be either in the fo...
Out of various structural ceramics, silicon nitride is considered to be the first choice of material...
Although many wear criteria have been proposed, none is intrinsic to the materials and to the struct...
Specimens of in-situ-reinforced silicon nitride (ISRSH) have been wear tested in lubricated, recipro...
A general approach to numerically simulating wear in rolling and sliding contacts is presented in th...
Although in terms of conservation wear is undesirable, however, running-in wear is encouraged rather...
In order to contribute to the design of full-ceramic rolling bearings, the mechanical behaviour of a...
Ceramic rolling elements of hybrid bearings may initially include surface imperfections. In order to...
Running-in of two fresh and unworn surfaces in contact is a transient phase where friction and wear ...
The effect of the changes in the micro-geometry in a rolling contact on wear processes like running-...
The paper describes modelling approach to computational simulation of surface crack growth subjected...
Bearing wear prognosis requires effective modelling and monitoring of rolling contact. Rolling conta...