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    Journals >Journal of Inorganic Materials >Volume 34 >Issue 6 >Page 673 > Article
    • Journal of Inorganic Materials
    • Vol. 34, Issue 6, 673 (2019)
    Friction-wear Properties and Mechanism of Hard Facing Pairs of SiC and WC
    Xiu-Min YAO, Xiao-Jie WANG, Xue-Jian LIU, Zhong-Ming CHEN, and Zheng-Ren HUANG*
    Author Affiliations
  • The State Key Laboratory of High Performance Ceramics and Superfine Microstructure, Shanghai Institute of Ceramics, Chinese Academy of Sciences, Shanghai 201899, China
    • show less
    DOI: 10.15541/jim20180435 Cite this Article
    Xiu-Min YAO, Xiao-Jie WANG, Xue-Jian LIU, Zhong-Ming CHEN, Zheng-Ren HUANG. Friction-wear Properties and Mechanism of Hard Facing Pairs of SiC and WC[J]. Journal of Inorganic Materials, 2019, 34(6): 673 Copy Citation Text show less
    References

    [1] O BORRERO-LÓPEZ, AL ORTIZ, F GUIBERTEAU et al. Effect of microstructure on sliding-wear properties of liquid-phase-sintered α-SiC.. Am. Ceram. Soc, 88, 2159-2163(2005).

    [2] O BORRERO-LÓPEZ, AL ORTIZ, F GUIBERTEAU et al. Sliding- wear resistant liquid-phase sintered SiC processed using α-SiC starting powders.. Am. Ceram. Soc, 90, 541-545(2007).

    [3] O BORRERO-LÓPEZ, AL ORTIZ, F GUIBERTEAU et al. Microstructural design of sliding-wear-resistant liquid-phase-sintered SiC: an overview.. Eur. Ceram. Soc, 27, 3351-3357(2007).

    [4] O BORRERO-LÓPEZ, AL ORTIZ, F GUIBERTEAU et al. Effect of the nature of the intergranular phase on sliding-wear resistance of liquid-phase-sintered α. -SiC. Scr. Mater, 57, 505-508(2007).

    [5] R ALLIEGRO, L COFFIN, J TINKLEPAUGH. Pressure-sintered silicon carbide.. Am. Ceram. Soc, 39, 386-389(1956).

    [6] M OMORI, H TAKEI. Pressureless sintering of SiC.. Am. Ceram. Soc, 65, c92-c92(1982).

    [7] Z SANG K, H JIN Z. Unlubricated friction of reaction-sintered silicon carbide and its composite with nickel. Wear, 246, 34-39(2000).

    [8] S SASAKI. The effect of the surrounding atmosphere on the friction and wear of alumina, zirconia, silicon carbide and silicon nitride. Wear, 134, 185-200(1989).

    [9] O BORRERO-LÓPEZA, AL ORTIZA, F GUIBERTEAUA et al. Effect of liquid-phase content on the contact-mechanical properties of liquid-phase-sintered α-SiC.. Eur. Ceram. Soc, 27, 2521-2527(2007).

    [10] O BORRERO-LÓPEZA, AL ORTIZA, F GUIBERTEAUA. Improved sliding-wear resistance in situ-toughened silicon carbide.. Am. Ceram. Soc, 88, 3531-3534(2005).

    [11] E CIUDAD. BORRERO-LÓPEZ O, RODRÍGUEZ-ROJAS F, et al. Effect of intergranular phase chemistry on the sliding-wear resistance of pressureless liquid-phase-sintered α-SiC.. Euro. Ceram. Soc, 32, 511-516(2012).

    [12] J CHO S, D UM C, S KIM S. Wear and wear transition in silicon carbide ceramics during sliding.. Am. Ceram. Soc, 79, 1247-1251(1996).

    [13] J LLORENTE, B ROMAN-MANSO, P MIRANZO et al. Tribological performance under dry sliding conditions of graphene/silicon carbide composites.. Euro. Ceram. Soc, 36, 429-435(2016).

    [14] S LAFON-PLACETTE, K DELBE, J DENAPE et al. Tribological characterization of silicon carbide and carbon materials.. Euro. Ceram. Soc, 35, 1147-1159(2015).

    [15] K NIIHARA, R MORENA, D HASSELMAN. Evaluation of KIC of brittle solids by the indentation method with low crack-to-indent ratios.. Mater. Sci. Lett, 1, 13-16(1982).

    [16] J CHO S, J HOCKEY B, R LAWN B et al. Grain-size and R-curve effects in the abrasive wear of alumina.. Am. Ceram. Soc, 72, 1249-1252(1989).

    [17] J CHO S, D UM C, S KIM S. Wear and wear transition mechanism in silicon carbide during sliding.. Am. Ceram. Soc, 78, 1076-1078(1995).

    [18] G DEWITH, J PARREN. Translucent Y3Al5O12 ceramics-mechanical- properties. Solid State Ionics, 16, 87-93(1985).

    [19] Z SANG K, L LIU, H JIN Z. Improvements on dry friction and wear properties for reaction-sintered silicon carbide by the matching size of SiC particles. Mater and Design, 28, 735-738(2007).

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    Xiu-Min YAO, Xiao-Jie WANG, Xue-Jian LIU, Zhong-Ming CHEN, Zheng-Ren HUANG. Friction-wear Properties and Mechanism of Hard Facing Pairs of SiC and WC[J]. Journal of Inorganic Materials, 2019, 34(6): 673
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