The Effect of Slider Geometry on the Performance of a Powder Lubricated Bearing

“…An innovative promising approach has been recently identified as powder lubrication at which granular flow concept has to be applied and studied. The results of Heshmat [2] attests to powders' capability to generate ''quasi-hydrodynamic type'' pressure and thus yield positive load-carrying capacity. Heshmat's measurements reveal about ''powder pressure'' in the clearance space of a sliding bearing with very similar features to that of a liquid lubricated bearing.…”

“…Conventional liquid lubricants are completely ineffective under extremely hot operating conditions (at temperatures greater than 200°C) as they tend to lose their lubricating capability. At the high contact stresses and temperatures, conventional liquid lubricants are unable to withstand the temperatures because of its' destruction [2]. Some engine components suffer poor lubrication at elevated temperatures that presents a serious problem for many mechanical systems such as bearings and piston rings.…”

“…As shown by Heshmat [2], there are huge technological gains that can be achieved due to characterization of the powder lubricant behavior in high temperature sliding bearings and other friction units. Most lubrication schemes at these higher temperatures have centered on solid lubricants applied as coatings, generated as replenishing films, or introduced as flowing granules.…”

“…The surface engineering approach of solid lubrication with MoS2 and WS2 nanoparticles is discussed in this paper. The * METAL FORMING INSTITUTE, 14 JANA PAWŁA II STR., 61-139 POZNAŃ, POLAND # Corresponding author: weinert@inop.poznan.pl nanoparticle dichalcogenide powders chosen for lubrication are known to be attractive solid lubricants because they exhibit low values of friction coefficients [1,2]. For example, experimental results from a conventional pin-on disk apparatus at low speeds have suggested tungsten disulfide, WS2, as superior lubricant to molybdenum disulfide, MoS2, because it maintains a lower coefficient of friction and provides higher wear resistance of counterparts for a higher temperature conditions [2].…”

“…Heshmat's measurements reveal about ''powder pressure'' in the clearance space of a sliding bearing with very similar features to that of a liquid lubricated bearing. An improvement of sliding bearing performance with solid lubricant powders using Heshmat [2] quasi-hydrodynamic approach and Khonsary et al [5][6][7] theory of granular lubrication is still lacking in literature, in particular, for the high temperature conditions. the determination of influence of surface modification of high temperature sliding bearings with solid lubricant nanoparticles on the friction and wear properties of the is shown to be very important, and it is the main goal of this paper, which is continuation of analysis shown in [3].…”

Surface Modification Of The High Temperature Porous Sliding Bearings With Solid Lubricant Nanoparticles

“…An innovative promising approach has been recently identified as powder lubrication at which granular flow concept has to be applied and studied. The results of Heshmat [2] attests to powders' capability to generate ''quasi-hydrodynamic type'' pressure and thus yield positive load-carrying capacity. Heshmat's measurements reveal about ''powder pressure'' in the clearance space of a sliding bearing with very similar features to that of a liquid lubricated bearing.…”

“…Conventional liquid lubricants are completely ineffective under extremely hot operating conditions (at temperatures greater than 200°C) as they tend to lose their lubricating capability. At the high contact stresses and temperatures, conventional liquid lubricants are unable to withstand the temperatures because of its' destruction [2]. Some engine components suffer poor lubrication at elevated temperatures that presents a serious problem for many mechanical systems such as bearings and piston rings.…”

“…As shown by Heshmat [2], there are huge technological gains that can be achieved due to characterization of the powder lubricant behavior in high temperature sliding bearings and other friction units. Most lubrication schemes at these higher temperatures have centered on solid lubricants applied as coatings, generated as replenishing films, or introduced as flowing granules.…”

“…The surface engineering approach of solid lubrication with MoS2 and WS2 nanoparticles is discussed in this paper. The * METAL FORMING INSTITUTE, 14 JANA PAWŁA II STR., 61-139 POZNAŃ, POLAND # Corresponding author: weinert@inop.poznan.pl nanoparticle dichalcogenide powders chosen for lubrication are known to be attractive solid lubricants because they exhibit low values of friction coefficients [1,2]. For example, experimental results from a conventional pin-on disk apparatus at low speeds have suggested tungsten disulfide, WS2, as superior lubricant to molybdenum disulfide, MoS2, because it maintains a lower coefficient of friction and provides higher wear resistance of counterparts for a higher temperature conditions [2].…”

“…Heshmat's measurements reveal about ''powder pressure'' in the clearance space of a sliding bearing with very similar features to that of a liquid lubricated bearing. An improvement of sliding bearing performance with solid lubricant powders using Heshmat [2] quasi-hydrodynamic approach and Khonsary et al [5][6][7] theory of granular lubrication is still lacking in literature, in particular, for the high temperature conditions. the determination of influence of surface modification of high temperature sliding bearings with solid lubricant nanoparticles on the friction and wear properties of the is shown to be very important, and it is the main goal of this paper, which is continuation of analysis shown in [3].…”

Surface Modification Of The High Temperature Porous Sliding Bearings With Solid Lubricant Nanoparticles

Prediction of coefficient of friction of solid powder lubricants under high pressure conditions using machine learning algorithms

Particle Tribology: Granular, Slurry, and Powder Tribosystems