In support of efforts to apply ceramics to advanced heat engines, a study was performed of the wear mechanisms of ceramics at the ring/cylinder interface. A laboratory apparatus was constructed to reproduce most of the conditions of an actual engine, but used easily prepared ring and cylinder specimens to facilitate their fabrication. Plasma-sprayed coatings of Cr2O3 and hypersonic flame-sprayed coatings of cobalt-bonded WC performed particularly well as ring coatings. Similar performance was obtained with these coatings operating against SiC, Si3N4, SiC whisker-reinforced Al2O3, and Cr2O3 coatings. The study demonstrated the critical need for lubrication and evaluated the performance of two available lubricants.SIGNIFICANT EFFICIENCY IMPROVEMENTS have been predicted resulting from the practical application of low-heat-rejection engines (1,2). With associated predictions of top-ring-reversal temperatures exceeding 300 C and possibly reaching 650 C (3,4), these engines require solutions to wear problems for such sliding components as rings, cylinders, pistons, and valve mechanisms. Liquid lubricants, the traditional proven approach for controlling wear of metals used in conventional internal combustion engines, are not yet available for continuous service at the predicted temperatures to be encountered in low-heat-rejection engines. Therefore, ceramics as a class of materials are of interest to address the wear problems. High hardnesses, corrosion resistance, strength at elevated temperatures, and high elastic moduli are attractive properties not generally available in metals, which could be expected to compensate at least partially for the lack of availability of liquid lubricants. All-ceramic and part-ceramic engines have been assembled and evaluated on a limited basis (5,6). Basic studies of the friction and wear of ceramics in sliding contact have also been made, mostly using pin-on-disk apparatuses (7-9). However, few studies have been made to study the wear mechanisms of ceramics using a controlled laboratory apparatus to reproduce the important sliding parameters of actual engines without the problems associated with operating fired engines. The study described in this paper addressed the wear mechanisms of ceramics applied to the reciprocating sliding contact of the ring/cylinder interface in low-heat-rejection engines. The performance of two lubricants in reducing friction and wear at the interface was also evaluated. The approach was to use easily prepared ceramic specimens in a laboratory apparatus that reproduced the important parameters of actual engines. Models of She wear process were developed based on experimental data.


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    Title :

    Lubrication of Ceramics in Ring/Cylinder Applications


    Additional title:

    Sae Technical Papers


    Contributors:

    Conference:

    SAE International Congress and Exposition ; 1989



    Publication date :

    1989-02-01




    Type of media :

    Conference paper


    Type of material :

    Print


    Language :

    English




    Lubrication of ceramics in ring/cylinder applications

    Gaydos,P.A. / Dufrane,K.F. / Batelle Columbus Lab.,US | Automotive engineering | 1989


    Performance of Ceramics in Ring/Cylinder Applications

    Dufrane, K. F. / Glaeser, W. A. | SAE Technical Papers | 1987


    Performance of Ceramics in Ring/Cylinder Applications

    Dufrance,K.F. / Glaeser,W.A. / Battelle Columbus,US | Automotive engineering | 1987


    Cylinder lubrication

    Shaw, M.C. / Nussdorfer, T.J. | Engineering Index Backfile | 1946


    Engine-cylinder lubrication

    Wagner, L.T. | Engineering Index Backfile | 1927