Add to ORKGStudies were conducted to determine the effect on rolling-element fatigue life of contact angle, material hardness, chemistry, heat treatment and processing, lubricant type and chemistry, elastohydrodynamic film thickness, deformation and wear, vacuum, and temperature as well as Hertzian and residual stresses. Correlation was established between the results obtained using the five-ball tester and those obtained with full scale rolling-element bearings
Hot-pressed silicon nitride was evaluated as a rolling-element bearing material. The five-ball fatig...
A ferrographic analysis was used to determine the types and quantities of wear debris generated duri...
Rolling element fatigue lives of AISI T-1, AISI M-42, AISI 52,100, and Halmo at 150
Four groups of 12.7 millimeter diameter vacuum-degassed AISI 52100 balls were tested, each at a maxi...
Rolling-element fatigue tests were run with three synthetic lubricants with and without antiwear add...
Rolling element fatigue lives of hollow and solid one-half inch diameter ball bearing
In order to rank bearing materials, lubricants and other design variables using rolling-element benc...
Rolling element fatigue studies were conducted with AISI M-50, EFR 18-4-1, and VAR 18-4-1. Groups of...
The rolling-contact fatigue spin rig was used to test groups of SAE 52100 9.16-inch-diameter balls l...
The types and quantities of wear particles generated during accelerated ball rolling contact fatigue...
High temperature fatigue tests of steel ball bearings with synthetic paraffinic oil lubricant in low...
The metallurgical results produced on balls tested in the rolling-contact fatigue spin rig were stud...
Subsurface residual stress on steel inner races from ball bearings during rolling contac
Rolling contact fatigue tests on ball bearings to determine relation between actual component hardne...
The rolling-element fatigue life of AMS 5900 12.7-mm (1/2-in.) dia was determined in five-ball fatig...
Hot-pressed silicon nitride was evaluated as a rolling-element bearing material. The five-ball fatig...
A ferrographic analysis was used to determine the types and quantities of wear debris generated duri...
Rolling element fatigue lives of AISI T-1, AISI M-42, AISI 52,100, and Halmo at 150
Four groups of 12.7 millimeter diameter vacuum-degassed AISI 52100 balls were tested, each at a maxi...
Rolling-element fatigue tests were run with three synthetic lubricants with and without antiwear add...
Rolling element fatigue lives of hollow and solid one-half inch diameter ball bearing
In order to rank bearing materials, lubricants and other design variables using rolling-element benc...
Rolling element fatigue studies were conducted with AISI M-50, EFR 18-4-1, and VAR 18-4-1. Groups of...
The rolling-contact fatigue spin rig was used to test groups of SAE 52100 9.16-inch-diameter balls l...
The types and quantities of wear particles generated during accelerated ball rolling contact fatigue...
High temperature fatigue tests of steel ball bearings with synthetic paraffinic oil lubricant in low...
The metallurgical results produced on balls tested in the rolling-contact fatigue spin rig were stud...
Subsurface residual stress on steel inner races from ball bearings during rolling contac
Rolling contact fatigue tests on ball bearings to determine relation between actual component hardne...
The rolling-element fatigue life of AMS 5900 12.7-mm (1/2-in.) dia was determined in five-ball fatig...
Hot-pressed silicon nitride was evaluated as a rolling-element bearing material. The five-ball fatig...
A ferrographic analysis was used to determine the types and quantities of wear debris generated duri...
Rolling element fatigue lives of AISI T-1, AISI M-42, AISI 52,100, and Halmo at 150