Effect of Zr Addition on the Microstructure and Multi-Environment Tribological Behavior of MoS2-Zr Composite Films
Qingye Wang, Shuang Liang, Jicheng Ding, Zhengxuan Lu, Dongcai Zhao, Xingguang Liu, Jun Zheng

TL;DR
Adding zirconium improves the durability and performance of MoS2 lubricant films in different environments like vacuum and humidity.
Contribution
Zr-doped MoS2 composite films show enhanced tribological performance across multiple environments due to structural and compositional changes.
Findings
Zr-doped MoS2 films have a more compact structure and higher hardness compared to pure MoS2 films.
Optimal Zr doping achieves low friction and wear rates in vacuum, atmospheric, and humid conditions.
Adjusting Zr content allows tailoring of mechanical and tribological properties of the composite films.
Abstract
Molybdenum disulfide (MoS2) films are promising solid lubricants for aerospace and other advanced applications, yet their tribological performance is highly sensitive to environmental conditions. To enhance environmental adaptability, Zr-doped MoS2 composite films were prepared by magnetron co-sputtering, and their composition, microstructure, mechanical properties, and tribological behavior were systematically investigated. The results showed that the as-deposited MoS2 films exhibited a nearly stoichiometric sulfur-to-molybdenum ratio (S/Mo ≈ 2), while the Zr-doped MoS2 composite films showed sulfur-deficient, sub-stoichiometric ratios (S/Mo < 2). Pure MoS2 films displayed a porous columnar structure, whereas with the incorporation of Zr, the columnar structure becomes progressively more compact. Moreover, the film structure transitions from a purely crystalline form to a two-phase…
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Taxonomy
TopicsTribology and Wear Analysis · Metal and Thin Film Mechanics · Lubricants and Their Additives
