Add to ORKGSome of the advances in tribology that have been associated with aerospace mechanisms are discussed. The needs of aerospace have been the dominant forces leading to improvements in understanding and applying tribology technology. In the past two decades improvements in understanding bearing torque, elastohydrodynamic lubrication, lubricant distribution, cage stability, and transfer film lubricants have been made. It is anticipated that further developments will be made in response to future aerospace requirements
The use of elastohydrodynamics in the analysis of rolling element bearings is discussed. Relationshi...
NASA has many high-technology programs plannned for the future, such as the space station, Mission t...
Future space missions will all require advanced mechanical moving components which will require wear...
A brief status report on bearing technology and present and near-term future problems that warrant r...
Some of the research conducted which has brought rolling-element technology to its present state is ...
The subject of tribology encompasses the friction, wear and lubrication of mechanical components suc...
Results of selected NASA research programs on rolling-element and fluid-film bearings, gears, and el...
Aircraft engine and transmission rolling-element bearing state-of-the-art is summarized
Research on large-bore ball and roller bearings for aircraft engines is described. Tapered roller be...
Tribological systems as applied to aircraft are reviewed. The importance of understanding the fundam...
Lubricant considerations for rolling-element bearings have within the last two decades taken on adde...
Trends in aircraft engine operating speeds have dictated the need for rolling-element bearings capab...
The speed capability of rolling element bearings has increased from speeds of less than two million ...
This chapter presents an introduction and historical background to the field of tribology, especiall...
This article presents an overview of the current state-of-the-art tribology, some current and future...
The use of elastohydrodynamics in the analysis of rolling element bearings is discussed. Relationshi...
NASA has many high-technology programs plannned for the future, such as the space station, Mission t...
Future space missions will all require advanced mechanical moving components which will require wear...
A brief status report on bearing technology and present and near-term future problems that warrant r...
Some of the research conducted which has brought rolling-element technology to its present state is ...
The subject of tribology encompasses the friction, wear and lubrication of mechanical components suc...
Results of selected NASA research programs on rolling-element and fluid-film bearings, gears, and el...
Aircraft engine and transmission rolling-element bearing state-of-the-art is summarized
Research on large-bore ball and roller bearings for aircraft engines is described. Tapered roller be...
Tribological systems as applied to aircraft are reviewed. The importance of understanding the fundam...
Lubricant considerations for rolling-element bearings have within the last two decades taken on adde...
Trends in aircraft engine operating speeds have dictated the need for rolling-element bearings capab...
The speed capability of rolling element bearings has increased from speeds of less than two million ...
This chapter presents an introduction and historical background to the field of tribology, especiall...
This article presents an overview of the current state-of-the-art tribology, some current and future...
The use of elastohydrodynamics in the analysis of rolling element bearings is discussed. Relationshi...
NASA has many high-technology programs plannned for the future, such as the space station, Mission t...
Future space missions will all require advanced mechanical moving components which will require wear...