Nb-Si基共晶体系超高温合金是目前最有希望应用于超高温环境的材料之一.目前的研究还仅仅停留在合金化改善其综合性能及抗氧化涂层的制备等方面,而对其共晶凝固机理等更深层次的研究还较少.从Nb基超高温合金铸态、定向凝固态组织及相组成等角度入手对该合金的微观组织变化规律进行了分析和总结;并对Nb基超高温合金共晶凝固机理的研究进展进行了综述;此外,还讨论了该合金目前仍需解决的问题.
参考文献
| [1] | Bewlay BP.;Jackson MR.;Reeder WJ.;Sutliff JA.;Lipsitt HA. .SOLIDIFICATION PROCESSING OF HIGH TEMPERATURE INTERMETALLIC EUTECTIC-BASED ALLOYS[J].Materials Science & Engineering, A. Structural Materials: Properties, Misrostructure and Processing,1995(0):534-543. |
| [2] | Geng J;Tsakiropoulos P;Shao G .The effects of Ti and Mo additions on the microstructure of Nb-Silicide based in situ composites[J].Intermetallics,2006,14:227. |
| [3] | Teppei Suzuki;Naoyuki Nomura .High-temperature Strength and Room-temperature Fracture Toughness of Mo-ZrC in-situ Composites with Hyper-eutectic Structure[J].日本金属学会誌,2000(11):1082-1088. |
| [4] | Mendiratta M G;Dimiduk D M .Strength and toughness of a Nb/Nb5Si3 composite[J].METALLURGICAL TRANSACTIONS A-PHYSICAL METALLURGY AND MATERIALS SCIENCE,1993,24(02):501. |
| [5] | M.R.Jackson;B.P.Bewlay .High-Temperature Refractory Metal-Intermetallic Composites[J].JOM,1996(1):39-44. |
| [6] | Subramanian P R;Mendiratta M G;Dimiduk D M .Advanced intermetaliic alloys-beyond gamma titanium aluminides[J].Materials Science and Engineering,1997,A239-240(12):1. |
| [7] | 张小明.日本Nb基超合金和复合材料研究新进展[J].稀有金属快报,2005(02):3-7. |
| [8] | 丁旭,周廉,郭喜平,周义刚,张廷杰,李中奎.凝固速率对铌基共晶自生复合材料定向凝固组织的影响[J].稀有金属材料与工程,2005(10):1605-1608. |
| [9] | 胡汉起.金属凝固原理[M].北京:机械工业出版社,2000:168. |
| [10] | Mendiratta M G;Dimiduk D M .Phase relation and transformation kinetics on the high Nb region of the Nb-Si system[J].Scripta Metallurgica et Materialia,1991,25(01):237. |
| [11] | 李伟,杨海波,单爱党,吴建生.Nb3Si对Nb-18Si原位复合材料微观组织的影响[J].机械工程材料,2004(04):33-35. |
| [12] | 曲士昱 .Nb/Nb_5Si_3复合材料基础研究[D].北京航空材料研究院,2002. |
| [13] | Nobuaki Sekido;Yoshisato Kimura;Seiji Miura et al.Fracture toughness and high temperature strength of unidirectionally solidified Nb-Si binary and Nb-Ti-Si ternary alloys[J].Journal of Alloys and Compounds,2006,425:223. |
| [14] | 郭喜平,高丽梅.电子束区熔定向凝固Nb基高温合金的组织和性能[J].航空材料学报,2006(03):47-51. |
| [15] | 潘冶,孙国雄.共晶凝固的研究进展[J].南京师大学报(工程技术版),2001(01):13-18. |
| [16] | 李建国;毛协民;傅恒志 等.Al-Cu合金高梯度定向凝固过程中的形态转变[J].材料科学进展,1991,5(06):461. |
| [17] | 姚向东,黄韬.稳态层片共晶长生模型-Ⅰ.理论分析[J].自然科学进展,1996(06):679. |
| [18] | Carlos Triveno Rios;Srdjan Milenkovic;Rubens Caram .A novel ternary eutectic in the Nb-Al-Ni system[J].Scripta materialia,2003(10):1495-1500. |
| [19] | Ferrandini P;Batista W W;Caram R .Influence of growth rate on the microstructure and mechanical behaviour of a NiAl-Mo eutectic alloy[J].Journal of Alloys and Compounds,2004,38:91. |
| [20] | 蒋成保;胡汉起;王佩君.细胞晶间距及其选择机制初探[A].北京:冶金工业出版社,2001:321. |
| [21] | P. Guan;X.P. Guo;X. Ding .DIRECTIONALLY SOLIDIFIED MICROSTRUCTURE OF AN ULTRA-HIGH TEMPERATURE Nb-Si-Ti-Hf-Cr-Al ALLOY[J].Acta metallurgica Sinica,2004(4):450-454. |
| [22] | Rios C T;Ferrandini P L;Milenkovic S et al.Growth and microstructure evolution of the Nb2 Al-Al3 Nb eutectic in situ composite[J].Materials Characterization,2005,154:187. |
| [23] | 马伯乐 .定向凝固Pb-Sn和Ni-Nb共晶合金跃迁变速下组织演化研究[D].西北工业大学,2005. |
| [24] | 刘忠元;李建国;傅恒志 .凝固速率对定向凝固合金DZ22枝晶臂间距和枝晶偏析和影响[J].金属学报,1995,31(7A):329. |
| [25] | 于金江 .高梯度定向凝固共晶高温合金的组织与性能[D].西北工业大学,2001. |
| [26] | 毛卫民,李树索,赵爱民,崔成林,钟雪友.电磁搅拌对过共晶Al-Si合金初生Si分布的影响[J].金属学报,2001(07):781-784. |
| [27] | 毛卫民;赵爱民;崔成林 等.电磁搅拌对半固态AlSi7Mg合金初生α-Si的影响规律[J].金属学报,1999,35(09):971. |
| [28] | 高丽梅 .Nb-Si基共晶自生复合材料的定向凝固组织特征及性能[D].西北工业大学,2005. |
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