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SEDL / STP / STP1542-EB
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STP1542
Rolling Element Bearings
Takeuchi Yoshimi, Mandler William
Pages: 200
Published: 2012
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Eight peer-reviewed papers provide an overview of the recent achievements in bearing technology. Topics cover:
• Test data on new materials
• Failure modes and their solutions
• A model to estimate separator forces during ball speed variations
• Bearing thermal conductance measurement and experimental design
• Alloys for aerospace mechanism applications
• Impact of lubricant impurities on performance
• And more! This new ASTM publication creates a technical knowledge base that enhances the bearing engineer’s capabilities and provides insight into ways this information can be used.
Table of Contents
White Etching Crack Failure Mode in Roller Bearings: From Observation via Analysis to Understanding and an Industrial Solution
Luyckx J.
A Universal Bivariate Weibull Model for Static and Dynamic Fatigue Reliability Forecasting
Robinson E.
Roller Profile Development for an Axially Loaded, Single Row Spherical Roller Bearing in an Oscillating Application
Cowles J., Houle C.
A Model to Estimate Separator Forces during Ball Speed Variations
Frantz P., Leveille A., Rosene G.
Bearing Thermal Conductance Measurement Test Method and Experimental Design
Davis S., Eby M., Fuller J., Rosado M., Takeuchi Y., Taylor D.
Steel and Hybrid Spacecraft Ball-Bearing Thermal Conductance Comparisons
Davis S., Eby M., Takeuchi Y.
Resilient and Corrosion-proof Rolling Element Bearings Made from Superelastic Ni-Ti Alloys for Aerospace Mechanism Applications
DellaCorte C., Noebe R., Padula S., Stanford M.
Evaluating the Impact of a Surprise Silicone Additive to a Synthetic Hydrocarbon Lubricant
Hanks J., Smith D., Stevens C., Winkel R.
Committee: F34
Paper ID: STP1542-EB
DOI: 10.1520/STP1542-EB
ISBN-EB: 978-0-8031-7561-7
 ASTM International is a member of CrossRef.
978-0-8031-7528-0
STP1542-EB
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