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Temperature-Adaptive Ultralubricity of a WS<sub>2</sub>/a-C Nanocomposite Coating: Performance from Room Temperature up to 500 °C

Huatang Cao, Jamo Momand, Ali Syari’ati, Feng Wen, Petra Rudolf, Ping Xiao, J. Th. M. De Hosson, Yutao Pei

2021ACS Applied Materials & Interfaces40 citationsDOIOpen Access PDF

Abstract

High Resolution Image Download MS PowerPoint Slide This study reports on the ultralubricity of a high-temperature resilient nanocomposite WS 2 /a-C tribocoating. The coefficient of friction of this coating remains at around 0.02 independently of a thermal treatment up to ∼500 °C, as confirmed by high-temperature tribotests. Moreover, the coating annealed at 450 °C keeps exhibiting a similar ultralubricity when cooled back down to room temperature and tested there, implying a tribological self-adaptation over a broad temperature range. High-resolution TEM observations of the tribofilms on the wear track unveil that WS 2 nanoplatelets form dynamically via atomic rearrangement and extend via unfaulting geometrical defects (bound by partial climb dislocations). The (002) basal planes of the WS 2 nanoplatelets, reoriented parallel to the tribo-sliding direction, contribute to a sustainable ultralubricity. The declining triboperformance beyond 500 °C is associated with sulfur loss rather than the transformation of WS 2 into inferior WO 3 via oxidation as suggested earlier. This self-adaptive WS 2 /a-C tribocoating holds promise for a constant ultralubrication with excellent thermal performance.

Topics & Concepts

Materials scienceNanocompositeCoatingAtmospheric temperature rangeTribologyComposite materialClimbThermalThermodynamicsPhysicsMetal and Thin Film MechanicsLubricants and Their AdditivesDiamond and Carbon-based Materials Research
Temperature-Adaptive Ultralubricity of a WS<sub>2</sub>/a-C Nanocomposite Coating: Performance from Room Temperature up to 500 °C | Litcius