Effect of the Synergetic Action on Tribological Characteristics of Ni-Based Composites Containing Multiple-Lubricants

Ni-based self-lubricating composites with multiple-lubricants addition were prepared by a powder metallurgy technique, and the effect of multiple-lubricants on tribological properties was investigated from room temperature to 700 °C. The synergetic effects of graphite, MoS 2 , and metallic silver lu...

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Bibliographic Details
Published in:Tribology letters 2012-09, Vol.47 (3), p.399-408
Main Authors: Liu, Er-yong, Gao, Yi-min, Wang, Wen-zhen, Zhang, Xiao-liang, Wang, Xiu, Yi, Ge-wen, Jia, Jun-hong
Format: Article
Language:English
Subjects:
Chemistry and Materials Science
Coefficient of friction
Composite materials
Corrosion and Coatings
Friction
Graphite
Iron oxides
Lubricants
Lubricants & lubrication
Lubrication
Materials Science
Molybdenum disulfide
Nanotechnology
Nickel base alloys
Original Paper
Physical Chemistry
Powder metallurgy
Rubbing
Self lubrication
Silver
Sintering (powder metallurgy)
Superalloys
Surfaces and Interfaces
Theoretical and Applied Mechanics
Thin Films
Tribology
Wear rate
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Summary:Ni-based self-lubricating composites with multiple-lubricants addition were prepared by a powder metallurgy technique, and the effect of multiple-lubricants on tribological properties was investigated from room temperature to 700 °C. The synergetic effects of graphite, MoS 2 , and metallic silver lubricants on the tribological characteristics of composites were analyzed. XRD analysis showed that new Cr x S y and Mo 2 C phase were formed in the composites containing graphite, MoS 2 and metallic Ag lubricants during the sintering process. The average friction coefficients (0.69–0.22) and wear rates (11.90–0.09 × 10 −5  mm 3  N −1  m −1 ) were obtained when rubbing against Inconel 718 alloy from room temperature to 700 °C due to synergetic lubricating action of multiple-lubricants. A smooth lubricating was gradually generated on the worn surface, and the improving of tribological properties was attributed to the formation of lubricious glaze film on the worn surface and their partially transferred to the counterface. The graphite played the main role of lubrication at room temperature, while molybdate phase and graphite were responsible for low friction coefficients and wear rates at mid/high temperatures. The synergetic lubricating effect of molybdate (produced in the rubbing process at high temperatures) iron oxide (transfer from disk material to the pin) and remaining graphite multiple-lubricants play an important lubricating role during friction tests at a wide temperature range.
ISSN:1023-8883
1573-2711
DOI:10.1007/s11249-012-9991-y