SIMS2015 Session TC-TuP: Tribology and Corrosion Poster Session
Time Period TuP Sessions | Topic TC Sessions | Time Periods | Topics | SIMS2015 Schedule
TC-TuP-1 ToF-SIMS Investigation of MoS2 After Friction Test in Ultrahigh Vacuum
Guillaume Colas, Aurélien Saulot, David Philippon, Yves Berthier (Université de Lyon, CNRS, INSA – Lyon, LaMCoS UMR5259, France); Didier Léonard (Université de Lyon - Université Lyon 1 - CNRS, France) ToF-SIMS investigation of MoS2 after friction test in ultrahigh vacuum G. Colas (1,2), A. Saulot (2), D. Philippon (2), Y. Berthier (2), D. Leonard (3) (1) Department of Mechanical and Industrial Engineering, University of Toronto, Ontario M5S 3G8, Canada (2) Université de Lyon, CNRS, INSA – Lyon, LaMCoS UMR5259, F-69621, France (3)Institut des Sciences Analytiques, Université de Lyon, CNRS, Université Claude Bernard-Lyon 1, 5 rue de la Doua, 69100 Villeurbanne, France MoS2 is a well-known lubricant for vacuum application and especially long life space applications. However, the role of contamination in achieving low friction and long wear life in industrial applications remains unclear. A former study [1] performed in ultrahigh vacuum (UHV) showed that in a sliding macro contact, the origin of low friction was primarily due to the formation of a 3rd body layer, its trapping and its ability to flow plastically inside the contact. The study showed a homogenisation of the chemical composition and the internal coating contaminants throughout the contact and the 3rd body. A second study [2] was performed in 4 environments (UHV, high vacuum, dry nitrogen, humid air) with the MoS2 coating studied in the 1st study but also with a MoS2+Ti coating. It showed a similar homogenisation phenomenon (in UHV, dry nitrogen and humid air for MoS2) but also some chemical selection, or even segregation, of chemical elements to create a bi-phasic like 3rd body (in high vacuum for MoS2, in dry nitrogen and humid air for MoS2+Ti). To further substantiate these conclusions, Time-of-Flight Secondary Ion Mass Spectrometry analyses were performed on PVD MoS2 coatings after 3 tribological tests with exactly the same contact conditions but with different durations, i.e. after 3 cycles, 10 cycles and 150 cycles of friction, which were the main events and/or states of friction identified in previous work [1,2]. The analyses firstly showed that the MoS2 coating is a complex MoxSyOz structure. Secondly, they showed that a chemical rearrangement of the material with the internal contaminants occurred in UHV and led to a specific MoSxOy phase. Finally, by comparing all real time measurements (friction forces, mass spectra, video) and post-test results (ToF-SIMS, but also SEM-EDS), the most probable tribologically induced chemical reactions were identified, confirming that internal contamination appears to be somewhat beneficial to friction in UHV on MoS2. [1] Colas G, Saulot A, Godeau C, Michel Y, Berthier Y. Wear 305 issues 1-2 (2013) 192-204 [2] Colas G, Saulot A, Bouscharain N, Godeau C, Michel Y, Berthier Y. Tribo. Int. 65 (2013) 177-189 |