氮化硅陶瓷由于具有优良的机械性能、化学性能和物理性能而被广泛应用于化工、冶金及航天等领域.催化氮化法制备氮化硅可以有效避免“硅芯”及“流硅”等不完全氮化形为的发生;并促进氮化硅晶须的原位反应合成,改善氮化硅基材料界面的显微结构,提高最终制品的力学性能.本文综述了金属及金属氧化物催化剂催化氮化反应生成氮化硅的最新进展及一维氮化硅的原位生成机理,并在此基础上展望了催化氮化制备氮化硅工艺今后的发展方向.
参考文献
| [1] | 李亚伟;张忻;田海兵;刘俊虎;李楠.硅粉直接氮化反应合成氮化硅研究[J].硅酸盐通报,2003(1):30-34. |
| [2] | 徐协文;刘其城;郑子樵.自蔓延法制备Si3N4粉时的氮气压力[J].中南工业大学学报(自然科学版),2003(1):58-62. |
| [3] | 刘德启.利用木质素-二氧化硅溶胶-凝胶合成纳米氮化硅的研究[J].材料导报,2000(11):57-58. |
| [4] | Koike J.;Kimura S..MECHANISM OF NITRIDATION OF SILICON POWDER IN A FLUIDIZED-BED REACTOR[J].Journal of the American Ceramic Society,19962(2):365-370. |
| [5] | 吕秀玮 .流态化合成氮化硅的鼓泡床热模试验与CFD模拟研究[D].南京工业大学,2004. |
| [6] | Huang, J.;Liu, Y.;Huang, Z.;Fang, M.;Zhang, S.;Xie, W.;Yang, J.;Huang, S.;Xu, Y..Ni(NO_3)_2-assisted catalytic synthesis and photoluminescence property of ultralong single crystal sialon nanobelts[J].Crystal growth & design,20131(1):10-14. |
| [7] | Varong Pavarajarn;Shoichi Kimura.Catalytic Effects of Metals on Direct Nitridation of Silicon[J].Journal of the American Ceramic Society,20018(8):1669-1674. |
| [8] | 古亚军;曹迎楠;李发亮;张海军;鲁礼林;张少伟.铁纳米颗粒催化氮化硅粉[J].硅酸盐学报,2014(12):1585-1590. |
| [9] | Varong Pavarajarn;Tananya Vongthavorn;Piyasan Praserthdam.Enhancement of direct nitridation of silicon by common metals in silicon nitride processing[J].CERAMICS INTERNATIONAL,20074(4):675-680. |
| [10] | Hideki Hyuga;Katsumi Yoshida;Naoki Kondo;Hideki Kita;Jun Sugai;Hiroaki Okano;Jiro Tsuchida.Nitridation enhancing effect of ZrO_2 on silicon powder[J].Materials Letters,200820(20):3475-3477. |
| [11] | Hai-Long Hu;Yu-Ping Zeng;Yong-Feng Xia.Rapid fabrication of porous Si_3N_4/SiC ceramics via nitridation of silicon powder with ZrO_2 as catalyst[J].CERAMICS INTERNATIONAL,20145(5):7579-7582. |
| [12] | Wanli Yang;Zhongqi Shi;Zhihao Jin.Effect of Oxide Additives on Catalysis and Microstructure of RBSN Using Low-purity Silicon Powder as Raw Materials[J].Materials Science Forum,2011TN.695(TN.695):409-412. |
| [13] | Chao-Sheng Zheng;Qing-Zhi Yan;Min Xia.In situ preparation of SiC/Si_3N_4-NW composite powders by combustion synthesis[J].CERAMICS INTERNATIONAL,20121(1):487-493. |
| [14] | Wang F;Jin GQ;Guo XY.Formation mechanism of Si3N4 nanowires via carbothermal reduction of carbonaceous silica xerogels[J].The journal of physical chemistry, B. Condensed matter, materials, surfaces, interfaces & biophysical,200630(30):14546-14549. |
| [15] | F. Wang;G.-Q. Jin;X.-Y. Guo.Sol-gel synthesis of Si_3N_4 nanowires and nanotubes[J].Materials Letters,20063(3):330-333. |
| [16] | Yang W;Zhang L;Xie Z;Li J;Miao H;An L.Growth and optical properties of ultra-long single-crystalline alpha-Si3N4 nanobelts[J].Applied physics, A. Materials science & processing,20057(7):1419-1423. |
| [17] | Yang, WY;Xie, ZP;Li, JJ;Miao, HZ;Zhang, LG;An, LN.Ultra-long single-crystalline alpha-Si3N4 nanowires: Derived from a polymeric precursor[J].Journal of the American Ceramic Society,20056(6):1647-1650. |
上一张
下一张
上一张
下一张
计量
- 下载量()
- 访问量()
文章评分
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%