Effect of precursor content and sintering temperature on the scuffing resistance of sintered self lubricating steel

Effect of precursor content and sintering temperature on the scuffing resistance of sintered self... Highlights ► In situ formation of graphite nodules due to the dissociation of precursor (SiC particles). ► The nodules of graphite (size ≤20 nm) presented a nanostructured stacking of graphite foils a few nanometers thick. ► The thermal debinding, as well as the sintering, was performed in a single thermal cycle using a Plasma Assisted Debinding and Sintering (PADS) process. ► Increasing the precursor content and, as a consequence, the number of graphite nodules, produced a clear increase in scuffing resistance. ► Friction coefficient was little affected by the sintering temperature. However, the scuffing resistance was greatly increased (5×) for the lower sintering temperature. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Wear Elsevier

Effect of precursor content and sintering temperature on the scuffing resistance of sintered self lubricating steel

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Publisher
Elsevier
Copyright
Copyright © 2011 Elsevier B.V.
ISSN
0043-1648
eISSN
1873-2577
D.O.I.
10.1016/j.wear.2010.11.038
Publisher site
See Article on Publisher Site

Abstract

Highlights ► In situ formation of graphite nodules due to the dissociation of precursor (SiC particles). ► The nodules of graphite (size ≤20 nm) presented a nanostructured stacking of graphite foils a few nanometers thick. ► The thermal debinding, as well as the sintering, was performed in a single thermal cycle using a Plasma Assisted Debinding and Sintering (PADS) process. ► Increasing the precursor content and, as a consequence, the number of graphite nodules, produced a clear increase in scuffing resistance. ► Friction coefficient was little affected by the sintering temperature. However, the scuffing resistance was greatly increased (5×) for the lower sintering temperature.

Journal

WearElsevier

Published: Jul 29, 2011

References

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