Research Progress on the Preparation of Ceramic Materials by Hydrothermal Hot-pressing
LI Qiang, JIANG Yonggang, FENG Junzong, LI Liangjun, FENG Jian
Science and Technology on Advanced Ceramic Fibers and Composites Laboratory, College of Aerospace and Engineering, National University of Defense Techno-logy, Changsha 410073, China
Abstract: Due to the advantages of high temperature resistance, high hardness and corrosion resistance, ceramic materials have been widely used in high-tech fields such as aerospace, military and medical. However, the high temperature required by the traditional ceramic sintering process and high energy consumption directly lead to high material costs, which greatly limits the development of ceramic materials. The invention of hydrothermal hot-pressing has greatly reduced the preparation temperature of ceramic materials, and has become one of the most promising preparation methods in the field of ceramic materials. In this paper, based on the research progress of ceramic materials prepared by hydrothermal hot-pressing, functional ceramics, porous ceramics and their composites prepared by hydrothermal hot-pressing are reviewed, and their future development is prospected.
1 Yamasaki N, Yanagisawa K, Kanahara S. Journal of Nuclear Science and Technology, 1984, 21(1), 71. 2 Yanagisawa K, Nishioka M, Yamasaki N.Journal of Nuclear Science and Technology, 1987, 24(1), 51. 3 Yanagisawa K, Nishioka M, Yamasaki N.American Ceramic Society Bulletin, 1985, 64(12), 1563. 4 Yamasaki N, Nishioka M, Yanagisawa K.Journal of the Atomic Energy Society of Japan, 1988, 30(9), 815. 5 Yamasaki N, Yanagisawa K, Nishioka M.Journal of the Atomic Energy Society of Japan, 1986, 28(3), 266. 6 Yamasaki N, Yanagisawa K, Kinoshita K, et al.Journal of the Atomic Energy Society of Japan, 1988, 30(8), 714. 7 Udawatte C P, Yanagisawa K, Kamakura T, et al. Materials Letters, 2000, 45(6), 298. 8 Udawatte C P, Yanagisawa K, Kamakura T, et al. Materials Research Innovations, 2000, 3(5), 297. 9 Yanagisawa K, Nishioka M, Ioku K, et al. Journal of Materials Science Letters, 1990, 9(1), 7. 10 Yanagisawa K, Ioku K, Yamasaki N.Journal of the Ceramic Society of Japan, 1994, 102, 966. 11 Onoki T, Yamamoto S Y. Journal of the Ceramic Society of Japan, 2010, 118(1380), 749. 12 Onoki T, Yamamoto S Y, Onodera H, et al. Materials Science and Engineering C, 2011, 31(2),499. 13 Yanagisawa K, Zhu K, Fujino T, et al. Key Engineering Materials, 2006,(309-311), 57. 14 Li J G, Hashida T.Journal of the American Ceramic Society, 2006, 89(11), 3544. 15 Ishihara S, Matsumoto T, Onoki T, et al. Materials Science and Enginee-ring C, 2009, 29(6), 1885. 16 Katsuyama S, Kishida A, Ito M.Journal of Alloys and Compounds, 2006, 414(1-2), 215. 17 Katsuyama S, Ito M.In:25th International Conference on Thermoelectrics(ICT 2006). Vienna, Austria, 2006, pp. 539. 18 Katsuyama S, Ito M.In:ICT 2006 - 25th International Conference on Thermoelectrics, Vienna, Austria, 2006, pp. 543. 19 Katsuyama S, Takiguchi Y, Ito M.Materials Transactions, 2007, 48(8), 2073. 20 Katsuyama S, Takiguchi Y, Ito M.In:ICT 2007 - 26th International Conference on Thermoelectrics, Korea, 2007, pp. 103. 21 Katsuyama S, Takiguchi Y, Ito M. Journal of Materials Science, 2008,43, 3553. 22 高正亚, 史旭莲. 佛山陶瓷, 1999(4), 19. 23 何俊升, 冯小明. 铸造技术, 2010, 31(8), 1101. 24 陈华辉, 申轶男, 胡宇. 中央高校基本科研业务费项目研究成果学术交流会. 北京, 2011, pp. 846. 25 赵娇娇. 南方农机, 2019, 50(11), 166. 26 Akamine S.International Journal of Applied Ceramic Technology, 2020, 17(2), 616. 27 Malik R, Kim Y W, Song I H. Journal of the European Ceramic Society, 2020, 40(3), 594. 28 Zhang J, Wang L, Wu Z, et al.AIChE Journal, 2020, 66, 16929. 29 Das D, Nijhuma K, Gabriel A M, et al. Journal of the European Ceramic Society, 2020, 40(5), 2163. 30 Fukushima H.Funtai Oyobi Fummatsu Yakin/Journal of the Japan Society of Powder and Powder Metallurgy, 2009, 56(6), 299. 31 Han L, Deng X, Li F, et al. Ceramics International, 2018, 44(12), 14728. 32 Han L, Wang J, Li F, et al. Journal of the European Ceramic Society, 2018, 38(4), 1210. 33 Simonenko E P, Simonenko N P, Simonenko T L, et al. Materials Che-mistry and Physics, 2019,235, 121734. 34 Yanagisawa K, Nishioka M, Ioku K, et al. Journal of Materials Science Letters, 1993, 12(14), 1073. 35 Yanagisawa K, Ioku K, Yamasaki N.Journal of the American Ceramic Society, 1997, 80(5),1303. 36 Li M, Sun H, Liu X, et al. Materials Letters, 2006, 60(21), 2738. 37 孙海燕. 溶剂热压法制备氧化铝多孔固体及其介电性能研究. 硕士学位论文, 山东大学, 2008. 38 Liu X, Cui D, Wang Q, et al. Materials Chemistry and Physics, 2007, 105(2-3), 208. 39 Himoto I, Yamashita S, Kita H.Journal of the Ceramic Society of Japan, 2019, 127(5), 295. 40 Meille S, Lombardi M, Chevalier J, et al. Journal of the European Ceramic Society, 2012, 32(15), 3959. 41 Jiang Y, Feng J, Feng J.Journal of Sol-Gel Science and Technology, 2017, 83(1), 64. 42 Yang Z H, Li D X, Hou Y W, et al. Ceramics International, 2019, 45(14), 17344. 43 Xu H, Song Y, Cui D.Functional and Electronic Materials, 2011, 687, 55. 44 Wakayama H.Advances in Materials Science and Engineering, 2020, 2020,1. 45 Sun P, Wu H C. Cement and Concrete Composites, 2008, 30(1), 29.