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Enhancement of tribological properties in siliconized graphite via hierarchically hybrid SiC/C composite

Zilin Li, Zhaowei Zhu, Xianglong Yu, Kai Li, Zixi Wang, Zezhao Zhang, Yuming Wang

2021Progress in Natural Science Materials International13 citationsDOIOpen Access PDF

Abstract

This study aims to investigate tribological properties in a siliconized graphite (СГ-П-0.5) and hierarchically hybrid SiC/C composites at the load ranging from 10-40 ​N under dry air/water lubrication conditions. A feasible liquid silicon infiltration (LSI) was used to fabricate the SiC/C composites. Morphology and phase identification of two materials were characterized and analyzed by scanning electron microscope (SEM) and energy dispersive spectrometer (EDS). An image feature extraction was used to post-process the data of wear test, further to gain the wear properties of the samples. The results demonstrated that a lower coefficient of friction (COF) and wear rate can be achieved in the LSI SiC composites than that in the sample of СГ-П-0.5. Both COF decreased under water-lubricated conditions, compared with that under the dry air lubrication. The excellent tribological properties in two materials can be due mainly to the microstructure of the СГ-П-0.5 sample, showing much more graphite and Si dispersed on the matrix. The СГ-П-0.5 sample indicated the typical oxidative wear mechanism, whereas, the sample of LSI SiC demonstrated the combined oxidative and fatigue wear. This finding can provide a promising new siliconized graphite materials for ceramic rolling bearings.

Topics & Concepts

Materials scienceTribologyGraphiteComposite materialScanning electron microscopeLubricationMicrostructureComposite numberCeramicSilicon carbideAdvanced ceramic materials synthesisAdvanced materials and compositesTribology and Wear Analysis
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