Synergistic effects of bionic fan-shaped texture and SnAgCu-Nb₂C to enhance the tribological and vibration reduction properties of TC4 alloy Available to Purchase

This paper aims to research the synergistic effects of bionic fan-shaped texture and SnAgCu-Nb₂C to enhance the tribological and vibration reduction properties of TC4 alloy.

Inspired by the structural characteristics of the scales of crucian carp, TC4 matrix bionic self-lubricating composites (TMBSC) were prepared by filling SnAgCu and MXene-Nb₂C in the bionic fan-shaped texture of TC4 alloy. The tribological, vibration and noise properties of the TMBSC are systematically studied.

Compared with TC4 alloy, the average friction coefficient, average wear loss and equivalent sound pressure level of TMBSC are reduced by 31.1%, 93.3% and 7.38%, respectively. The addition of Nb₂C can enhance the bearing capacity of lubricating film. The sliding effect of Nb₂C promotes the diffusion of SnAgCu on the worn surface. The excellent synergistic effects of bionic texture and SnAgCu-Nb₂C enable the TMBSC to acquire outstanding tribological and vibration reduction properties, which is primarily achieved by reducing rough contact, breaking the continuity of contact interface and facilitating the formation of a complete and stable lubrication film.

This work provides a valuable reference for the tribological and vibration reduction design of moving parts by the method of bionic self-lubricating.

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