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Tribology Letters

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01-06-2017 | Original Paper

Tribological Behaviors of 3D Needled C/C–SiC and FeSi75 Modified C/C–SiC Brake Pair

Authors: Juanli Deng, Na Li, Bohan Zheng, Shangwu Fan, Liuyang He, Chuan Yang, Haiping Liu, Litong Zhang, Laifei Cheng

Published in: Tribology Letters | Issue 2/2017

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Abstract

Tribological properties of FeSi75 modified C/C–SiC and C/C–SiC mutual-mated disks (FS–SI) were investigated; the results indicated that FS–SI can combine the advantages of FeSi75 modified C/C–SiC self-mated disks (FS–FS) and C/C–SiC self-mated disks (SI–SI). In dry condition, the average kinetic coefficient of friction (µ) of FS–SI is 0.55 ± 0.02, and it is about 83% higher than that of FS–FS. The average wear rate of disks in FS–SI is about 0.57 µm time⁻¹, which is much lower than that of SI–SI (~1.46 µm time⁻¹) and slightly higher than that of FS–FS (~ 0.36 µm time⁻¹). It seems that FS–SI can well meet the requirements of brake applications. Moreover, tribological properties of FS–FS and FS–SI in wet condition were firstly reported, and the µ of FS–FS is higher than that in dry condition. Lubrication effect of water just resulted in a small decrease in the µ of FS–SI in the pre-up braking stage, and it will recover rapidly in the later stage.

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Barney, D., Haley, D., Nikandros, G.: Calculating train braking distance. In The 6th Australian Workshop on Safety Critical Systems and Software (SCS’01). Brisbane, Australia (2001)

Krenkel, W., Berndt, F.: C/C–SiC composites for space applications and advanced friction systems [J]. Mater. Sci. Eng. A 412, 177–181 (2005)CrossRef

Krenkel, W., Heidenreich, B., Renz, R.: C/C–SiC composites for advanced friction systems. Adv. Eng. Mater. 4, 427–436 (2002)CrossRef

Vaidyaraman, S., Purdy, M., Walker, T., Horst, S.: C/SiC Material Evaluation for Aircraft Brake Applications, pp. 802–808. Wiley, Munich (2001)

Krenkel, W., Henke, T.: Design of high performance CMC brake disks. Key. Eng. Mater. 164, 421–424 (1999)CrossRef

Fan, S., Xu, Y., Zhang, L., Cheng, L., Yu, L., Yuan, Y.: Three-dimensional needled carbon/silicon carbide composites with high friction performance. Mater. Sci. Eng. A 467, 53–58 (2007)CrossRef

Fan, S., Zhang, L., Xu, Y., Cheng, L., Lou, J., Zhang, J., et al.: Microstructure and properties of 3D needle-punched carbon/silicon carbide brake materials. Compos. Sci. Technol. 67, 2390–2398 (2007)CrossRef

Krenkel, W.: C/SiC composites for hot structures and advanced friction systems. Ceram. Eng. Sci. Proc. 24, 583–592 (2003)CrossRef

Fan, S., Zhang, L., Xu, Y., Cheng, L., Tian, G., Ke, S., et al.: Microstructure and tribological properties of advanced carbon/silicon carbide aircraft brake materials. Compos. Sci. Technol. 68, 3002–3009 (2008)CrossRef

10.

Fan, S., Zhang, L., Cheng, L., Zhang, J., Yang, S., Liu, H.: Wear mechanisms of the C/SiC brake materials. Tribol. Int. 44, 25–28 (2011)CrossRef

11.

Fan, S., Du, Y., He, L., Yang, C., Liu, H., Cheng, L., et al.: Microstructure and properties of α-FeSi₂ modified C/C–SiC brake composites. Tribol. Int. 102, 10–18 (2016)CrossRef

12.

Yamashita, T., Hayes, P.: Effect of curve fitting parameters on quantitative analysis of Fe_0.94O and Fe₂O₃ using XPS. J. Electron. Spectrosc. Relat. Phenom. 152, 6–11 (2006)CrossRef

13.

Chao, S., Takagi, Y., Lucovsky, G., Lucovsky, G., Pai, P., Custer, R., et al.: Chemical states study of Si in SiO_x films grown by PECVD. Appl. Surf. Sci. 26, 575–583 (1986)CrossRef

14.

Saito, T., Yamamoto, H., Sasase, M., Nakanoya, T., Yamaguchi, K., Haraguchi, M., et al.: Surface chemical states and oxidation resistivity of ‘ecologically friendly’ semiconductor (β-FeSi₂) thin films. Thin Solid Films 415, 138–142 (2002)CrossRef

15.

Xu, X., Fan, S., Zhang, L., Du, Y., Cheng, L.: Tribological behavior of three-dimensional needled carbon/silicon carbide and carbon/carbon brake pair. Tribol. Int. 77, 7–14 (2014)CrossRef

16.

Hanawa, T., Asami, K., Asaoka, K.: Repassivation of titanium and surface oxide film regenerated in simulated bioliquid. Biomed. Mater. Res. 40, 530–538 (1998)CrossRef

Title: Tribological Behaviors of 3D Needled C/C–SiC and FeSi75 Modified C/C–SiC Brake Pair
Authors: Juanli Deng
Na Li
Bohan Zheng
Shangwu Fan
Liuyang He
Chuan Yang
Haiping Liu
Litong Zhang
Laifei Cheng
Publication date: 01-06-2017
Publisher: Springer US
Published in: Tribology Letters / Issue 2/2017
Print ISSN: 1023-8883
Electronic ISSN: 1573-2711
DOI: https://doi.org/10.1007/s11249-017-0816-x

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