1 Liang, W.J., Petroleum Chemistry, Petroleum University Press, Dongying (1995). (in Chinese) 2 Zhao, S.Q., Xu, Z.M, Wang, R.A., “Production of de-asphalted oil and fine asphalt particles by supercritical extraction”, Chin. J. Chem. Eng., 11(6), 691—695(2003). 3 Xu, C.M., Keng, C., Hu Y.X., Wang R.A., Lin S.X., “Characterization of bitumen pitch”, Chin. J. Chem. Eng., 4(4), 359—364(1996). 4 Benjamin, J.S., “ Dispersion-strengthened superalloys by mechanical alloying”, Metall. Trans., 1(10), 2943—2951(1970). 5 Benjamin, J.S., Volin, T.E., “The mechanism of me-chanical alloying”, Metall. Trans., 5(8), 1929(1974). 6 Suryanarayana, C., “Mechanical alloying and milling”, Prog. Mater. Sci., 46, 1—184(2001). 7 Koch, C.C., “Materials synthesis by mechanical alloy-ing”, Annu. Rev. Mater. Sci., 19, 121—143(1989). 8 Matteazzi, P., Le Caer, G., “Room-temperature mech-anosynthesis of carbides by grinding of elemental pow-ders”, J. Am. Ceram. Soc., 74(6), 1382—1390(1991). 9 Ye, L.L., Quan, M.X., “Synthesis of nanocrystalline TiC powders by mechanical alloying”, Nanostruct. Mater., 5(1), 25—31(1995). (in Chinese) 10 Cui, X.L., Wang, Y.H., Wang, L., Cui, L.S., Qi, M., “Synthesis of nanometer-sized TiC and SiC from petro-leum coke by reactive milling”, Pet. Sci. Technol., 19(7/8), 971—978(2001). (in Chinese) 11 Keskinen, J., Pogany, A., Rubin, J., Ruuskanen, P., “Car-bide and hydride formation during mechanical alloying of titanium and aluminium with hexane”, Mate. Sci. Eng. A, 196, 205—211(1995). 12 Liu, Z.G., Tsuchiya, K., Umemoto, M., “Mechanical milling of fullerene with carbide forming elements”, J. Mater. Sci., 37(6), 1229—1235(2002). 13 Liu, Z. G., Guo, J. T., Ye, L. L., Li, G. S., Hu, Z. Q., “Formation mechanism of TiC by mechanical alloying”, Appl. Phys. Lett., 65(21), 2666—2668(1994). 14 Sherif El-Eskandarany, M., Konno, T.J., Sumiyama, K., Suzuki, K., “Morphological and structural studies of mechanically alloyed Ti44C56 powders”, Mater. Sci. Eng. A, 217/218, 265—268(1996).
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