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High-temperature solid lubricant coatings with decent lubrication performance are essential in critical processes of metal forming and aerospace. However, their preparation is formidably challenging due to the harsh working conditions. Here we successfully developed a solid lubricant coating via a facile and eco-friendly avenue by casting the homogeneous mixture of molybdenum disulfide (MoS2) and hexagonal boron nitride (h-BN) as lubricants, silicate as the binder, and water as the solvent onto the titanium alloy substrate. This solid lubricant coating exhibited excellent and stable tribological properties with a very low friction coefficient of 0.080 at 1000 °C, yet in an open-air atmosphere. This superior lubrication behavior is ascribed to the synergistic effect between base lubricants h-BN and MoS2, contributing to the formation of a coating for both lubrication and lubricant protection against oxidization at 1000 °C in an open-air environment. This report largely extends the operation temperature range of the crucial lubricant MoS2 under the open-air atmosphere and further sheds valuable light on the design of high-temperature solid lubricants via the synergistic effect between base lubricants.
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