Nb/Nb5Si3合金是未来最具潜力的超高温结构材料,实现该材料的结构微叠层化是一种新颖的材料设计思路和制备方法.Nb/Nb5Si3微叠层材料是将Nb和Nb5Si3按一定的层间距及层厚比以ABABAB型交互重叠结构形成的多层材料,其几种典型的制备技术包括热压、等离子喷涂、磁控溅射和电子束物理气相沉积(EB-PVD).其中EB-PVD是一种最适合工程应用的Nb/Nb5Si3微叠层材料制备方法,结构和功能复合、纳米化叠层、高韧化工艺是EB-PVD技术制备Nb/Nb5Si3微叠层材料的发展方向.
参考文献
| [1] | 傅恒志.未来航空发动机材料面临的挑战与发展趋向[J].航空材料学报,1998(04):52. |
| [2] | P.R.Subramanian;M.G.Mendiratta.The Development of Nb-Based Advanced Intermetallic Alloys for Structural Applications[J].JOM,19961(1):33-38. |
| [3] | 李爱民;董维芳;孙康宁.金属间化合物的研究现状及其最新发展趋势[J].现代技术陶瓷,2004(2):27-30,34. |
| [4] | 王镐.高温铌合金[J].稀有金属快报,1999(06):9-12. |
| [5] | 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. |
| [6] | 曲士昱;王荣明;韩雅芳.Nb-Si系金属间化合物的研究进展[J].材料导报,2002(4):31-34. |
| [7] | 曲士昱;王荣明;韩雅芳.热处理对Nb-10Si合金显微组织的影响[J].航空材料学报,2001(3):9-12. |
| [8] | 微叠层材料及其制备工艺研究进展[J].宇航材料工艺,2005(05):16-21. |
| [9] | 马培燕;傅正义.微叠层结构材料的研究现状[J].材料科学与工程,2002(4):589-593. |
| [10] | 陈哲;严有为.Nb/Nb5Si3复合材料的研究进展[J].材料导报,2004(2):49-51,68. |
| [11] | 马朝利;笠间昭夫;田中良平;花田修治;康沫狂.Nb/Nb5Si3原位复合材料的开发研究[J].金属热处理学报,2000(2):83-88. |
| [12] | Won-Yong Kim;Hisao Tanaka;Akio Kasama.Microstructure and room temperature deformation of Nb_(ss)/Nb_5Si_3 in situ composites alloyed with Mo[J].Intermetallics,20016(6):521-527. |
| [13] | Perdigao MNRV;Jordao JAR;Kiminami CS;Botta WJ.Phase transformation in Nb-16 at.% Si processed by high-energy ball milling[J].Journal of Non-Crystalline Solids: A Journal Devoted to Oxide, Halide, Chalcogenide and Metallic Glasses, Amorphous Semiconductors, Non-Crystalline Films, Glass-Ceramics and Glassy Composites,19970(0):170-175. |
| [14] | Won-Yong Kim;Hisao Tanaka;Shuji Hanada.Microstructure and high temperature strength at 1773K of Nb_(ss)/Nb_5Si_3 composites alloyed with molybdenum[J].Intermetallics,20026(6):625-634. |
| [15] | W.O. SOBOYEJO;F. YE;D.S. SCHWARTZ.Fatigue and Fracture Behavior of Nb Fiber-Reinforced MoSi_2 Composites[J].Metallurgical and Materials Transactions, A. Physical Metallurgy and Materials Science,19968(8):2263-2273. |
| [16] | 张传鑫;宋广平;孙跃;赵轶杰;赫晓东.电子束物理气相沉积技术研究进展[J].材料导报,2012(z1):124-126,146. |
| [17] | 关春龙;李垚;赫晓东.电子束物理气相沉积技术及其应用现状[J].航空制造技术,2003(11):35-37. |
| [18] | B.A.Movchan.EB-PVDE Technology in the Gas Turbine Industry: Present and Future[J].JOM,199611(11):40-45. |
| [19] | A. J. Gavens;D. Van Heerden;A. B. Mann.Effect of intermixing on self-propagating exothermic reactions in Al/Ni nanolaminate foils[J].Journal of Applied Physics,20003(3):1255-1263. |
| [20] | Robert Knepper;Murray R. Snyder;Greg Fritz;Kaitlynn Fisher;Omar M. Knio;Timothy P. Weihs.Effect of varying bilayer spacing distribution on reaction heat and velocity in reactive Al/Ni multilayers[J].Journal of Applied Physics,20098(8):083504-1-083504-9. |
| [21] | Gregory M. Fritz;Stephen J. Spey;Michael D. Grapes;Timothy P. Weihs.Thresholds for igniting exothermic reactions in Al/Ni multilayers using pulses of electrical, mechanical, and thermal energy[J].Journal of Applied Physics,20131(1):014901-1-014901-11. |
| [22] | P. Swaminathan;M. D. Grapes;K. Woll;S. C. Barron;D. A. LaVan;T. P. Weihs.Studying exothermic reactions in the Ni-Al system at rapid heating rates using a nanocalorimeter[J].Journal of Applied Physics,201314(14):143509-1-143509-8. |
| [23] | M. Vohra;M. Grapes;P. Swaminathan;T. P. Weihs;O. M. Knio.Modeling and quantitative nanocalorimetric analysis to assess interdiffusion in a Ni/Al bilayer[J].Journal of Applied Physics,201112(12):123521-1-123521-8. |
| [24] | J. C. Trenkle;L. J. Koerner;M. W. Tate;Noel Walker;S. M. Gruner;T. P. Weihs;T. C. Hufnagel.Time-resolved x-ray microdiffraction studies of phase transformations during rapidly propagating reactions in Al/Ni and Zr/Ni multilayer foils[J].Journal of Applied Physics,201011(11):113511-1-113511-12. |
| [25] | A S Rogachev.Exothermic reaction waves in multilayer nanofilms[J].Russian Chemical Reviews: Reviews on Current Topics in Chemistry,20081(1):21-37. |
| [26] | A. S. Rogachev;S. G. Vadchenko;A. S. Mukasyan.Self-sustained waves of exothermic dissolution in reactive multilayer nano-foils[J].Applied physics letters,20126(6):063119-1-063119-4. |
| [27] | A.S. Rogachev;S.G. Vadchenko;F. Baras.Structure evolution and reaction mechanism in the Ni/Al reactive multilayer nanofoils[J].Acta materialia,2014:86-96. |
| [28] | Judy S. Kim;Thomas LaGrange;Bryan W. Reed;Mitra L Taheri;Michael R. Armstrong;Wayne E. King;Nigel D. Browning;Geoffrey H. Campbell.Imaging of Transient Structures Using Nanosecond in Situ TEM[J].Science,20085895(5895):1472-1475. |
| [29] | J.S. Kim;T. LaGrange;B.W. Reed.Direct characterization of phase transformations and morphologies in moving reaction zones in Al/Ni nanolaminates using dynamic transmission electron microscopy[J].Acta materialia,20119(9):3571-3580. |
| [30] | Luis Sandoval;Geoffrey H Campbell;Jaime Marian.Thermodynamic interpretation of reactive processes in Ni-Al nanolayers from atomistic simulations[J].Modelling and simulation in materials science and engineering,20142(2):025022-1-025022-19. |
| [31] | 金雪松;毕晓昉;欧盛荃;宫声凯;徐惠彬.K18/Mo纳米多层材料的力学性能及高温稳定性[J].金属学报,2000(1):99-103. |
| [32] | 黄光宏;申造宇;牟仁德;何利民;常振东.Nb/Nb5Si3微叠层复合材料制备与其组织结构[J].航空材料学报,2014(6):47-53. |
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