Andere Kunden interessierten sich auch für
![The design method of slide bearings with the floating ring bearing]( "The design method of slide bearings with the floating ring bearing")
The design method of slide bearings with the floating ring bearing26,99 €![Circulating Fluidized Bed Boiler (CFB)]( "Circulating Fluidized Bed Boiler (CFB)")
Circulating Fluidized Bed Boiler (CFB)36,99 €![Dynamic Reservoir Simulation for Carbonates]( "Dynamic Reservoir Simulation for Carbonates")
Dynamic Reservoir Simulation for Carbonates32,99 €![Reservoir Optimization & Performance Evaluation of Irrigation Systems]( "Reservoir Optimization & Performance Evaluation of Irrigation Systems")
Reservoir Optimization & Performance Evaluation of Irrigation Systems51,99 €![Reservoir Operation Considering Environmental Flows]( "Reservoir Operation Considering Environmental Flows")
Reservoir Operation Considering Environmental Flows32,99 €![Vibration Analysis of Rolling Element Bearing with Unbalanced Rotor]( "Vibration Analysis of Rolling Element Bearing with Unbalanced Rotor")
Vibration Analysis of Rolling Element Bearing with Unbalanced Rotor32,99 €![Rough Bearing Lubricated with Magnetic Fluid]( "Rough Bearing Lubricated with Magnetic Fluid")
Rough Bearing Lubricated with Magnetic Fluid50,99 €
All tribological systems consisting of moving/rotating parts need continuous lubrication, temperature control, reduced friction as means to ensure a smooth operation regime. Common for these systems is an external pressure source that carries lubricant to the system and withdraws the used and heated lubricant away from the system. This circuit usually consists of motor actuated pumps, pipes and tubes. The research herein offers a feasibility study for a new, revolutionary type of bearing, which excludes such an external circuit; instead, it is being characterized by a self-contained lubricating mechanism. This bearing has a stationary porous bushing whose inner diameter faces the bearing clearance, while the outer one faces a wrap-around reservoir. The eccentric shaft generates pressure difference ensuring the fluid to circulate naturally between these two regions.