Sliding Behavior of C/C and C/C-SiC Composites in Acidic Environment-Against High Chromium Steel Disc

American Journal of Materials Science Pub Date : 2012-08-31 DOI:10.5923/J.MATERIALS.20110102.17

V. Srivastava

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引用次数: 4

Abstract

The wear behaviour of carbon-carbon (C/C) and carbon-carbon-silicon-carbide (C/C-SiC) composites were studied using a pin-on-disc test rig under dry condition before and after immersion in 25% concentrated H2SO4. The influence of the weight loss and worn temperature against sliding distance and time were investigated. It was found that the weight loss increases with increasing of sliding distance and time, where worn surface temperature increases slowly up to 1.5 Km sliding distance and then tended to become constant. Also, weight loss and worn surface temperature reduces with the exposure of 25% concentrated sulphuric acid. However, the C/C-SiC composites exhibiting a lower weight loss but higher worn surface temperature compare to C/C composites at constant load. The wear and worn temperature of C/C composite gradually in- creases compare to C/C-SiC composite, with an average fading ratio of 7.7% (C/C composite) and 7.4% (C/C-SiC composite). Scanning electron microscope and projection microscope micrographs show that the graphite film was transferred on the test pin side, which stabilized the increase in test pin temperature after the formation of a thick film of graphite debris.

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C/C和C/C- sic复合材料在酸性环境下对高铬钢盘的滑动行为

采用针盘式试验装置，研究了碳-碳(C/C)和碳-碳-碳化硅(C/C- sic)复合材料在25%浓H2SO4浸泡前后在干燥条件下的磨损行为。研究了失重和磨损温度对滑动距离和滑动时间的影响。随着滑动距离和滑动时间的增加，磨损表面温度逐渐升高，直到滑动距离为1.5 Km时，磨损表面温度趋于稳定。此外，25%的浓硫酸降低了重量损失和磨损表面温度。然而，在恒定载荷下，与C/C复合材料相比，C/C- sic复合材料的重量损失更小，但磨损表面温度更高。与C/C- sic复合材料相比，C/C复合材料的磨损和磨损温度逐渐升高，平均衰落率分别为7.7% (C/C复合材料)和7.4% (C/C- sic复合材料)。扫描电镜和投影显微镜显微图显示，石墨膜被转移到测试销侧，石墨屑形成厚膜后稳定了测试销温度的升高。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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American Journal of Materials Science

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