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2021
Journal Article
Title
Interplay of mechanics and chemistry governs wear of diamond-like carbon coatings interacting with ZDDP-additivated lubricants
Abstract
Friction and wear reduction by diamond-like carbon (DLC) in automotive applications can be affected by zinc-dialkyldithiophosphate (ZDDP), which is widely used in engine oils. Our experiments show that DLCs tribological behaviour in ZDDP-additivated oils can be optimized by tailoring its stiffness, surface nano-topography and hydrogen content. An optimal combination of ultralow friction and negligible wear is achieved using hydrogen-free tetrahedral amorphous carbon (ta-C) with moderate hardness. Softer coatings exhibit similarly low wear and thin ZDDP-derived patchy tribofilms but higher friction. Conversely, harder ta-Cs undergo severe wear and sub-surface sulphur contamination. Contact-mechanics and quantum-chemical simulations reveal that shear combined with the high local contact pressure caused by the contact stiffness and average surface slope of hard ta-Cs favour ZDDP fragmentation and sulphur release. In absence of hydrogen, this is followed by local surface cold welding and sub-surface mechanical mixing of sulphur resulting in a decrease of yield stress and wear.
Author(s)
Salinas Ruiz, V.R.
University of Lyon, Ecole Centrale de Lyon, Laboratory of Tribology and System Dynamics, CNRS UMR5513, Ecully, France; University of Lyon, INSA-Lyon,UCBL, MATEIS UMR CNRS, Villeurbanne, France; HEF/IREIS, Avenue Benoît Fourneyron, Andrézieux-Bouthéon, France.
Galipaud, J.
University of Lyon, Ecole Centrale de Lyon, Laboratory of Tribology and System Dynamics, CNRS UMR5513, Ecully, France; University of Lyon, INSA-Lyon,UCBL, MATEIS UMR CNRS, Villeurbanne, France
Ben Hassine, M.
University of Lyon, Ecole Centrale de Lyon, Laboratory of Tribology and System Dynamics, CNRS UMR5513, Ecully, France