Athmani, MoussaKong, FanLinJu, HongboLuan, JingZhang, ChengkeMa, BingyangCavaleiro, AlbanoFernades, FilipeFernandes, Filipe2025-01-282025-01-282024Moussa Athmani, FanLin Kong, Hongbo Ju, Jing Luan, Chengke Zhang, Bingyang Ma, Albano Cavaleiro, Filipe Fernandes, RF magnetron sputtered Nb–V–N composite coatings for high-temperature self-lubricant applications, Vacuum, Volume 219, Part A, 2024, 112657, ISSN 0042-207X, https://doi.org/10.1016/j.vacuum.2023.112657.0042-207Xhttp://hdl.handle.net/10400.22/29306Enhancing the tribological properties of hard ceramic coatings for high temperature applications is one of the hot topics in the solid lubricant field. In this paper, a series of Nb–V–N coatings with different V concentrations were deposited using RF magnetron sputtering system, and the crystalline structure, mechanical and tribological properties were investigated. Results showed that the Nb–V–N coatings regardless of V concentrations exhibited two phase fcc-NbN with V in solid solution and hcp-NbN phase. The hardness and elastic modulus of the coatings were enhanced by adding 5.3 at.% of V. The room temperature tribological properties of the coatings were improved by the addition of V well due to the enhanced mechanical properties and the nature excellent self-lubricant characteristics. The evaluation of main tribophase from the wear track at elevated temperatures from the self-lubricant V2O3 at 400 °C to the V2O5 at 800 °C, contributed to the stable and excellent anti-frictional properties of the coating with a V concentration of 12.4 at.%. However, the wear rate of the coatings drops gradually with the increase of V concentrations due to the large amount of soft but lubricant tribophases at elevated temperatures.engRF magnetron sputteringNb-V-N coatingsMechanical propertiesTribological propertiesjournal article10.1016/j.vacuum.2023.112657