Rolling Contact Fatigue Observation of Radial PPS Bearings under Dry Condition

Koshiro Mizobe; Toshihiko Matsumura; Yuji Kashima; Katsuyuki Kida

doi:10.4028/www.scientific.net/KEM.703.197

Paper Titles

Crack Observation of PPS Polymer Thrust Bearings under RCF Test in Water
p.178

Relationship between Failure and Temperature of PTFE Thrust Bearings under Dry Condition
p.183

Backlash Evaluation of Hybrid UHMWPE-PEEK Bushes in a Small Robot Joint System
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Effect of New Pocket Design on the Failure of Thrust UHMWPE Bearings in Dry Condition
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Rolling Contact Fatigue Observation of Radial PPS Bearings under Dry Condition
p.197

Experimental Study on Evolution Process of Short Fatigue Crack in 2A12 Alloy under Complex Stress State
p.202

Application of Small Size Solar Furnace onto Preparation of Copper Oxide Thin Films by Sol-Gel Route
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Investigation of Structural, Optical an Electrical Characterization of AZO Films Used for Solar Cells
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The Effect of Reaction Time on Optical Trapping Nanostructure Formation on the Multi-Crystalline Silicon by Metal-Assisted Chemical Etching
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HomeKey Engineering MaterialsKey Engineering Materials Vol. 703Rolling Contact Fatigue Observation of Radial PPS...

Rolling Contact Fatigue Observation of Radial PPS Bearings under Dry Condition

Abstract:

Polyphenylene sulfide (PPS) is a suitable material for bearings which are used under dry conditions. We performed rolling contact fatigue tests using radial PPS bearings and investigated changes in the material structure and fatigue behavior under dry conditions. From these tests, we found that the bearings stop moving for two reasons: melting of wear tracks and build up of adhesion film on the surfaces in a race.

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Key Engineering Materials (Volume 703)

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197-201

DOI:

https://doi.org/10.4028/www.scientific.net/KEM.703.197

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Online since:

August 2016

Authors:

Koshiro Mizobe, Toshihiko Matsumura, Yuji Kashima, Katsuyuki Kida

Keywords:

Adhesion Film, Polymer Bearings, PPS (Polyphenylene Sulfide), Radial Bearings

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