Effect of nine lubricants on rolling-contact fatigue life
Erwin V. Zaretsky, William J. Anderson, Richard J. Parker, United States. National Aeronautics and Space Administration
National Aeronautics and Space Administration, 1962 - Technology & Engineering - 41 pages
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7208-size bearings AISI M-2 steel Antlfoam agent ASLE Trans Ball Bearings ball specimen balls with various base stock Bearing Fatigue cants centistokes at l00 confidence number contact angle contact fatigue contact geometry contact temperature contact zone deformation and wear di-2-ethylhexyl sebacate differences in fatigue different lubricants dioctyl sebacate Effect of Lubricant Extreme-pressure additive failure index fatigue spin rig Figure five-ball fatigue tester full-scale bearings initial maximum Hertz inner-race revolutions load capacity lubricant tested Lubricant type Mineral Lubricant Viscosity M-2 steel balls maximum Hertz stress millions of stress Mineral oil Silicone NASA fatigue spin Newtonian fluid nine lubricants oil Silicone Ester Oxidation inhibitor plastic deformation pressure-viscosity coefficient profile radius pseudoplastic rheological properties rolling contact rolling-contact fatigue Rolling-Element Bearing room temperature running track shear rate silicone lubricant specimens run support balls surface trace Test in five-ball test specimen type Mineral oil various lubricants wear area York Naval Shipyard