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. 2025 Jan 15;17(2):4210-4217.
doi: 10.1021/acsami.4c18369. Epub 2025 Jan 6.

Microstructural Assessment of Molybdenum Disulfide Coatings Using Nanoindentation Hardness

Tomas F Babuska  1 Alexander Mings  1 Steven R Larson  1 Michael T Dugger  1 Mark A Rodriguez  1 John F Curry  1
Affiliations

Microstructural Assessment of Molybdenum Disulfide Coatings Using Nanoindentation Hardness

Tomas F Babuska et al. ACS Appl Mater Interfaces. .

Abstract

MoS2 coatings are used extensively in aerospace and defense applications due to their ultralow friction and high wear resistance. Burnished and resin-bonded MoS2 coatings are commonly used in these applications due to simplicity in deposition and history of use, despite issues with consistency in coating properties and performance. Physical vapor deposition (PVD) of MoS2 thin films has emerged as a process alternative in the past 50 years, promising far greater control over film structure and composition but at a greater cost. Despite PVD's benefits, hesitance to adoption persists in high-consequence applications, not only due to increased costs but variability in resulting coating properties. These variations in properties and subsequent performance are in part due to the complexity of the PVD process and the sensitive interplay between coating process-structure-property relationships. This work aims to demystify the remaining uncertainties of the process-structure-property relationships in PVD MoS2. The microstructure and mechanical and tribological properties of 61 different PVD pure MoS2 coatings are examined herein. Emphasis has been placed on developing performance-based (i.e., hardness, modulus) metrics that can assess microstructural changes (density, orientation, and crystallinity) and be utilized to accelerate process development and coating optimization. Relationships established within suggest that nanoindentation hardness can be used to infer coating performance (i.e., wear rate) and properties (i.e., density, crystalline texture, and stoichiometry). Furthermore, this work demonstrates that PVD MoS2 coatings close to the theoretical density of MoS2 consistently have the best tribological performance and can be reliably identified by their hardness.

Keywords: MoS2; PVD; crystallinity; density; friction; hardness; nanoindentation; wear.

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Conflict of interest statement

The authors declare no competing financial interest.

Figures

Figure 1
Figure 1
Role of MoS2 coating density on (a) nanoindentation hardness and (b) reduced modulus.
Figure 2
Figure 2
(a) X-ray diffractograms of pure MoS2 coatings with increasing density and (b) correlations between coating basal orientation, density, and hardness.
Figure 3
Figure 3
Interplay between stoichiometry (S/Mo) and density for pure MoS2 coatings.
Figure 4
Figure 4
Relationship between (a) coating density and the initial coefficient of friction (μi) and (b) coating density and the steady-state coefficient of friction (μss).
Figure 5
Figure 5
Correlations between coating density and the wear rate measured at (a) 10, (b) 100, (c) 1,000, and (d) 10,000 sliding cycles.
See this image and copyright information in PMC

References

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