The Effect of Temperature on the Friction of a Carbon–Carbon Composite in Carbon Dioxide

The Effect of Temperature on the Friction of a Carbon–Carbon Composite in Carbon Dioxide

The antifriction properties have been determined experimentally for a carbon–carbon composite in the course of sliding friction against 40Kh13 steel in an environment of carbon dioxide. Changes in the friction coefficient upon heating to 800°C have been investigated in the velocity ranges from 0.05...

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Veröffentlicht in:Journal of machinery manufacture and reliability 2021, Vol.50 (1), p.88-91
Hauptverfasser: Alisin, V. V., Roshchin, M. N.
Format: Artikel
Sprache:eng
Schlagworte:
Antifriction
Carbon
Carbon dioxide
Coefficient of friction
Contact pressure
Diagnostics
Engineering
Experimental Mechanics
Machines
Manufacturing
Plain bearings
Processes
Sliding friction
Stainless steels
Temperature effects
Testing
Venus atmosphere
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Zusammenfassung:The antifriction properties have been determined experimentally for a carbon–carbon composite in the course of sliding friction against 40Kh13 steel in an environment of carbon dioxide. Changes in the friction coefficient upon heating to 800°C have been investigated in the velocity ranges from 0.05 to 0.25 m/s at a contact pressure ranging within 0.5–1 MPa. The novelty of the investigation consists in determining the tribotechnical properties of a little-studied friction pair that is promising for use in aerospace technology. Particular attention is paid to the tribotechnical properties of the friction pair at 500°C. Based on the studies, the friction coefficient is recommended for the design of plain bearings and hinges for spacecraft intended for operation in the atmosphere of Venus.
ISSN:1052-6188
1934-9394
DOI:10.3103/S1052618821010040