[1]ÁõÉÙ´æ¡¢ÐÜÓÀ».²»Í¬¹ý³Ì¿ØÖƼÁ¶ÔTiC»ù½ðÊôÌմɵÄÓ°Ïì[J].¸£½¨¹¤³ÌѧԺѧ±¨,2020,18(03):246-249.[doi:10.3969/j.issn.1672-4348.2020.03.008]
¡¡LIU Shaocun,XIONG Yonglu.Effects of different process control agents on TiC-based cermets[J].Journal of FuJian University of Technology,2020,18(03):246-249.[doi:10.3969/j.issn.1672-4348.2020.03.008]

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[1] ZACKRISSON J, ANDR¦IN H. Effect of carbon content on the microstructure and mechanical properties of (Ti, W, Ta, Mo)(C, N)-(Co, Ni) cermets[J]. International Journal of Refractory Metals and Hard Materials, 1999, 17(4): 265-273.[2] ФˮÇå, Áõ½Ü, Ф°×¾ü, µÈ. ʵÏÖTi(C,N)»ù½ðÊôÌÕ´ÉÇ¿ÈÍ»¯µÄ¼¼Êõ·¾¶[J]. ²ÄÁϵ¼±¨, 2018, 32(7): 1129-1138.ª¤[3] ÕÅÁ¢, SCHUBERT W, »Æ²®ÔÆ. ³¬Ï¸Ó²ÖʺϽð»ìºÏÁϵÄÖƱ¸ÓëÖÆÁ£¼¼Êõ[J]. Ó²ÖʺϽð, 2003, 20(3): 129-132.ª¤[4] XIONG H, LI Z, GAN X, et al. High-energy ball-milling combined with annealing of TiC powders and its influence on the microstructure and mechanical properties of the TiC-based cermets[J]. Materials Science and Engineering: A, 2017, 694: 33-40.[5] HUANG B, XIONG W, YANG Q, et al. Preparation, microstructure and mechanical properties of multicomponent Niª­3Al-bonded cermets[J]. Ceramics International, 2014, 40(9): 14073-14081.ª¤[6] LI Z, LIU X, GUO K, et al. Microstructure and properties of Ti(C,N)-TiBª­2-FeCoCrNiAl high-entropy alloys composite cermets[J]. Materials Science and Engineering: A, 2019, 767: 138427.ª¤[7] SHIBA D, YAMASUE E, ISHIHARA K, et al. Effect of process control agents (PCAs) on mechanochemical processes and contamination science[J]. Materials Science Forum, 2014, 783: 2665-2670.ª¤[8] ÁõÄþ, Áõ²ÓÂ¥, ÕÔÐËÖÐ, µÈ. Mo¡¢Niº¬Á¿ÓëTi(C,N)»ù½ðÊôÌÕ´É×éÖ¯ºÍÐÔÄÜÖ®¼äµÄ¹Øϵ[J]. Ó²ÖʺϽð, 1994,11(2): 74-78.ª¤[9] ÇØ¿­Ðý, ½¯Ñô, ³Â½ø, µÈ. Moº¬Á¿¶ÔTiC»ù½ðÊôÌÕ´É×éÖ¯ºÍÁ¦Ñ§ÐÔÄܵÄÓ°Ïì[J]. ½ðÊô¹¦ÄܲÄÁÏ, 2011, 18(4): 32-36.[10] ZHENG Y, LIU W, WANG S, et al. Effect of carbon content on the microstructure and mechanical properties of Ti(C, N)-based cermets[J]. Ceramics International, 2004, 30(8): 2111-2115.ª¤[11] ÁõÎÄ¿¡, Ö£ÓÂ, ÓÎÃô. ÉÕ½áζȶÔϸ¾§Á£Ti(C,N)»ùÌÕ´É×éÖ¯ºÍÐÔÄܵÄÓ°Ïì[J]. ÈýÏ¿´óѧѧ±¨(×ÔÈ»¿Æѧ°æ), 2003, 25(2):114-117.ª¤[12] LUTTEROTTI L, MATTHIES S, WENK H. Maud: a friendly Java program for material analysis using diffraction[J]. IUCr: Newsletter of the CPD, 1999, 21: 14-15.[13] SHETTY D, WRIGHT I, MINCER P, et al. Indentation fracture of WC-Co cermets[J]. Journal of Materials Science, 1985, 20(5): 1873-1882.ª¤[14] SAWAMA Y, NIIKAWA M, YABE Y, et al. Stainless-steel-mediated quantitative hydrogen generation from water under ball milling conditions[J]. ACS Sustainable Chemistry & Engineering, 2015, 3(4): 683-689.ª¤[15] Ö£ÓÂ, ·¶ÖÓÃ÷, ÕÔÐËÖÐ, µÈ. »ìÁÏ·½·¨¶ÔTi(C,N)»ù½ðÊôÌÕ´ÉÐÔÄܵÄÓ°Ïì[J]. Ó²ÖʺϽð, 1997, 14(1): 17-21.ª¤[16] YANG Q, XIONG W, LI S, et al. Effect of partial substitution of Cr for Ni on densification behavior, microstructure evolution and mechanical properties of Ti(C,N)-Ni||based cermets[J]. Journal of Alloys & Compounds, 2011, 509(14): 4828-4834.ª¤[17] ZHANG G, XIONG W, YANG Q, et al. Effect of Mo addition on microstructure and mechanical properties of (Ti,W)C solid solution based cermets[J]. International Journal of Refractory Metals and Hard Materials, 2014, 43: 77-82.ª¤[18] Ö£ÓÂ, ÐÜΩð©. ΢Ã×¼¶ºÍÑÇ΢Ã×¼¶Ti(C,N)»ù½ðÊôÌմɵÄ×éÖ¯ºÍÐÔÄÜ[J]. ²ÄÁϹ¤³Ì, 2001,29(5): 37-40.