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Self-lubricating fabric liners are the core functional materials of self-lubricating joint bearings and have garnered significant attention in the field of high-tech equipment lubrication because of their excellent characteristics, such as impact resistance, corrosion resistance, and high load-bearing capacity. This review summarizes recent progress in tribological research on self-lubricating fabric composites, covering external parameters, woven structures, reinforced fibers, resin matrix designs, and filler/interface modifications. The correlation between the dynamic response of the friction interface (friction coefficient (COF), wear rate) and the macroscopic mechanical behavior (load-carrying capacity, fatigue resistance) of the composites was systematically revealed through cross-scale analysis. Furthermore, the synergistic effects of multiscale factors on the tribological and mechanical properties of liner materials are elucidated. This provides a theoretical basis and technical guidance for developing high-performance self-lubricating fabric liners with high wear resistance and low friction fluctuations, effectively improving the efficiency of engineering applications of such materials under extreme load, temperature, and medium conditions.

This is an open access article under the terms of the Creative Commons Attribution 4.0 International License (CC BY 4.0, http://creativecommons.org/licenses/by/4.0/).
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