The improvement of lubrication of piston ring-cyinder liner is always in demand, andsurface roughness behaviour plays a very important role. The present paper will explore this be-haviour and investigate how the inlet...The improvement of lubrication of piston ring-cyinder liner is always in demand, andsurface roughness behaviour plays a very important role. The present paper will explore this be-haviour and investigate how the inlet roughness of ring influences the lubrication of pistonring-cylinder. The quantitative results of this combination of surface roughness on friction force, oilfilm thickness and frictional power loss are given and discussed.展开更多
IT has been suggested that the use of synthetic oil lubricant may lower the energylosses in large bearings. Such claims are often based on the interpretation of temperature meas-urements in the lubricant and/or bearin...IT has been suggested that the use of synthetic oil lubricant may lower the energylosses in large bearings. Such claims are often based on the interpretation of temperature meas-urements in the lubricant and/or bearings of heavily loaded rotating machinery. Lower tempera-tures have been observed in synthetic oils as compared to mineral ones even when the bearingsare operating at the same film thickness. This has been attributed to intrinsic lubricating propertiesof certain synthetic oils.In the present paper temperatures and film thicknesses in large bearings in a hydroelectricpower station were monitored and recorded simultaneously. The results for a synthetic lubricantand a mineral oil were compared. The temperature readings were indeed rather different - that ofthe synthetic oil was several degrees C lower than for the mineral oil. Both had been recom-mended for the actual application, giving virtually identical film shapes and thickness in the twocases.A study of the behaviour of the bearings and the temperature differences, based upon Rey-nolds’ equation and simple heat balance considerations, showed that the lower temperature of thesynthetic lubricant was caused by its higher heat capacity, but gave no indication of the existenceof a special lubricating property.展开更多
文摘The improvement of lubrication of piston ring-cyinder liner is always in demand, andsurface roughness behaviour plays a very important role. The present paper will explore this be-haviour and investigate how the inlet roughness of ring influences the lubrication of pistonring-cylinder. The quantitative results of this combination of surface roughness on friction force, oilfilm thickness and frictional power loss are given and discussed.
文摘IT has been suggested that the use of synthetic oil lubricant may lower the energylosses in large bearings. Such claims are often based on the interpretation of temperature meas-urements in the lubricant and/or bearings of heavily loaded rotating machinery. Lower tempera-tures have been observed in synthetic oils as compared to mineral ones even when the bearingsare operating at the same film thickness. This has been attributed to intrinsic lubricating propertiesof certain synthetic oils.In the present paper temperatures and film thicknesses in large bearings in a hydroelectricpower station were monitored and recorded simultaneously. The results for a synthetic lubricantand a mineral oil were compared. The temperature readings were indeed rather different - that ofthe synthetic oil was several degrees C lower than for the mineral oil. Both had been recom-mended for the actual application, giving virtually identical film shapes and thickness in the twocases.A study of the behaviour of the bearings and the temperature differences, based upon Rey-nolds’ equation and simple heat balance considerations, showed that the lower temperature of thesynthetic lubricant was caused by its higher heat capacity, but gave no indication of the existenceof a special lubricating property.
