金属间化合物Mo5SiB2(T2)具有高的熔点(~2160℃),突出的高温力学性能及良好的高温氧化抗力,使用温度达到1200 ~1600℃,被视为新一代超高温结构材料.本文综述了国内外T2相合金的最新研究现状,简单介绍了T2相合金的制备技术及其在工业中的应用,探讨了T2相合金的室温本征脆性、中温脆韧转变、高温塑性变形机理,最后,展望了T2相合金的未来研究方向及发展趋势.
参考文献
| [1] | Jin-Kook Yoon;Jong-Kwon Lee;Kyung-Hwan Lee.Microstructure and growth kinetics of the Mo_5Si_3 and Mo_3Si layers in MoSi_2/Mo diffusion couple[J].Intermetallics,20037(7):687-696. |
| [2] | Chu, F;McClellan, KJ;Peralta, P;Thoma, DJ.Mo sub 5 Si sub 3 single crystals: physical properties and mechanical behavior[J].Materials Science & Engineering. A, Structural Materials: Properties, Microstructure and Processing,19991-2(1-2):44-52. |
| [3] | I. Rosales;J. H. Schneibel;L. Heatherly;J. A. Horton;L. Martinez;B. Campillo.High temperature deformation of A15 Mo_3Si single crystals[J].Scripta materialia,20032(2):185-190. |
| [4] | Takayuki Watanabe;Hideaki Okumiya.Formation mechanism of silicide nanoparticles by induction thermal plasmas[J].Science and technology of advanced materials,20045/6(5/6):639-646. |
| [5] | Joachim H. Selineibel;M.J. Kramer.Processing and mechanical properties of a molybdenum silicide with the composition Mo-12Si-8.5B (at. percent)[J].Intermetallics,20011(1):25-31. |
| [6] | L. Liu;K. Cui.Mechanical alloying of refractory metal-silicon Systems[J].Journal of Materials Processing Technology,20031/3(1/3):394-398. |
| [7] | A.P. Alur;N. Chollacoop;K.S. Kumar.Creep effects on crack growth in a Mo-Si-B alloy[J].Acta materialia,20073(3):961-974. |
| [8] | J. H. Schneibel.High temperature strength of Mo-Mo_3Si-Mo_5SiB_2 molybdenum suicides[J].Intermetallics,20037(7):625-632. |
| [9] | J.J. KRUZIC;J.H. SCHNEIBEL;R.O. RITCHIE.Ambient- to Elevated-Temperature Fracture and Fatigue Properties of Mo-Si-B Alloys: Role of Microstructure[J].Metallurgical and Materials Transactions, A. Physical Metallurgy and Materials Science,20059(9):2393-2402. |
| [10] | Sharma Paswan;R. Mitra;S.K. Roy.Isothermal oxidation behaviour of Mo-Si-B and Mo-Si-B-Al alloys in the temperature range of 400-800℃[J].Materials Science & Engineering, A. Structural Materials: Properties, Misrostructure and Processing,20061/2(1/2):251-265. |
| [11] | 刘丰收;杨王玥;张来启.Mo-Si-B三元系复合材料的制备及室温断裂韧性[J].北京科技大学学报,2004(1):63-68. |
| [12] | T.G. Nieh;J.G. Wang.Deformation of a multiphase Mo-9.4Si-13.8B alloy at elevated temperatures[J].Intermetallics,20011(1):73-79. |
| [13] | A. P. Alur;N. Chollacoop;K. S. Kumar.High-temperature compression behavior of Mo-Si-B alloys[J].Acta materialia,200419(19):5571-5587. |
| [14] | Akinc M;Kramer MJ;Thom AJ;Huebsch JJ;Cook B;Meyer MK.Boron-doped molybdenum silicides for structural applications[J].Materials Science & Engineering, A. Structural Materials: Properties, Misrostructure and Processing,19991/2(1/2):16-23. |
| [15] | R.D. Field;D.J. Thoma;J.C. Cooley.Dislocations in Mo_5SiB_2 T2 phase[J].Intermetallics,200110/11(10/11):863-868. |
| [16] | H. L. Zhao;M. J. Kramer;M. Akine.Thermal expansion behavior of intermetallic compounds in the Mo-Si-B system[J].Intermetallics,20045(5):493-498. |
| [17] | R. SAKIDJA;J. H. PEREPEZKO.Phase Stability and Alloying Behavior in the Mo-Si-B System[J].Metallurgical and Materials Transactions, A. Physical Metallurgy and Materials Science,20053(3):507-514. |
| [18] | R. Sakidja;J.H. Perepezko.Alloying and microstructure stability in the high-temperature Mo–Si–B system[J].Journal of Nuclear Materials: Materials Aspects of Fission and Fusion,20073(3):407-416. |
| [19] | R. Sakidja;J.H. Perepezko;S. Kim.Phase stability and structural defects in high-temperature Mo-Si-B alloys[J].Acta Materialia,200818(18):5223-5244. |
| [20] | WANG Fang;SHAN Ai-dang;DONG Xian-ping;WU Jian-sheng.Oxidation behavior of multiphase Mo5SiB2 (T2)-based alloys at high temperatures[J].中国有色金属学会会刊(英文版),2007(06):1242-1247. |
| [21] | C.A.Nunes;R.Sakidja.Liquidus projection for the Mo-rich portion of the Mo-Si-B ternary system[J].Intermetallics,20004(4):327-337. |
| [22] | C.J. Rawn;J.H. Schneibel;C.M. Hoffmann.The crystal structure and thermal expansion of Mo_5SiB_2[J].Intermetallics,20013(3):209-216. |
| [23] | Akira Yamauchi;Kyosuke Yoshimi;Kazuya Kurokawa.Synthesis of Mo-Si-B in situ composites by mechanical alloying[J].Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics,20070(0):420-423. |
| [24] | Abbasi, A.R.;Shamanian, M..Synthesis of Mo_5SiB_2 based nanocomposites by mechanical alloying and subsequent heat treatment[J].Materials Science & Engineering, A. Structural Materials: Properties, Misrostructure and Processing,20119(9):3295-3301. |
| [25] | K. Ito;K. Ihara;K. Tanaka.Physical and mechanical properties of single crystals of the T_2 phase in the Mo-Si-B system[J].Intermetallics,20017(7):591-602. |
| [26] | Laiqi Zhang;Kunming Pan;Junpin Lin.Fracture toughness and fracture mechanisms in Mo_5SiB_2 at ambient to elevated temperatures[J].Intermetallics,2013:49-54. |
| [27] | S.W.Wang;L.D.Chen.Densification of Al_2O_3 powder using spark plasma sintering[J].Journal of Materials Research,20004(4):982-987. |
| [28] | F. Bernard;S. Le Gallet;N. Spinassou.Dense Nanostructured Materials Obtained by Spark Plasma Sintering and Field Activated Pressure Assisted Synthesis Starting from Mechanically Activated Powder Mixtures[J].Science of sintering,20043(3):155-164. |
| [29] | Krishanu Biswas;Amartya Mukhopadhyay;Bikramjit Basu;Kamanio Chattopadhyay.Densification and microstructure development in spark plasma sintered WC-6 wt% ZrO_2 nanocomposites[J].Journal of Materials Research,20076(6):1491-1501. |
| [30] | Pan, K.;Zhang, L.;Wang, J.;Lin, J.;Chen, G..Oxygen removal from raw silicon powder by the HF-ethanol solution etching[J].Surface and Interface Analysis: SIA: An International Journal Devoted to the Development and Application of Techniques for the Analysis of Surfaces, Interfaces and Thin Films,20136(6):955-961. |
| [31] | 潘昆明;张来启;魏世忠;李继文;李豪;林均品.Mo-Si-B三元系中T2相合金的制备工艺研究[J].金属学报,2015(11):1377-1383. |
| [32] | Laiqi Zhang;Kunming Pan;Jue Wang.Spark plasma sintering synthesis of intermetallic T2 in the Mo-Si-B system[J].Advanced Powder Technology: The internation Journal of the Society of Powder Technology, Japan,20136(6):913-920. |
| [33] | N. Sekido;R. Sakidja;J.H. Perepezko.Annealing response of point detects in off-stoicmometric Mo_5SiB_2 phase[J].Intermetallics,20079(9):1268-1276. |
| [34] | 潘昆明;张来启;王珏;杜伟;林均品.Mo-Si-B三元系中T2相合金制备及其室温力学性能[J].稀有金属材料与工程,2013(5):1080-1084. |
| [35] | Kunming Pan;Laiqi Zhang;Wei Du.Room Temperature Brittlement of T2 in the Mo-Si-B System[J].Materials Science Forum,2013:132-138. |
| [36] | H. Choe;D. Chen;J.H. Schneibel.Ambient to high temperature fracture toughness and fatigue-crack propagation behavior in a Mo-12Si-8.5B (at. percent) intermetallic[J].Intermetallics,20014(4):319-329. |
| [37] | Laiqi Zhang;Kunming Pan;Wei Du.Intrinsic brittleness of Mo_5SiB_2 and alloying effect on ductility studied by first-principles calculations[J].Intermetallics,2014:79-85. |
| [38] | 潘昆明;张来启;王礞;林均品.Mo-Si-B三元系中T2相的脆-韧转变行为[J].金属学报,2013(11):1392-1398. |
| [39] | 郑为为;杨王玥;孙祖庆.B2结构Fe3Al单晶在室温拉伸过程中的取向转动[J].金属学报,2000(11):1161-1164. |
| [40] | W. W. Zheng;W. Y. Yang;Z. Q. Sun.Roon temperature mechanical behavior of B2-ordered Fe{sub]3Al single crystals[J].Materials Science & Engineering, A. Structural Materials: Properties, Misrostructure and Processing,20011/2(1/2):46-50. |
| [41] | Pan, Kunming;Liu, Wei;Zhang, Laiqi;Wei, Shizhong;You, Long;Lin, Junpin;Li, Jiwen;Xu, Liujie;Zhou, Sujuan;Han, Mingru.Deformation behavior of Mo5SiB2 at elevated temperatures[J].Materials Science & Engineering, A. Structural Materials: Properties, Misrostructure and Processing,2015:124-132. |
| [42] | T. HAYASHI;K. ITO;K. IHARA.Creep of single crystalline and polycrystalline T_2 phase in the Mo-Si-B system[J].Intermetallics,20047/9(7/9):699-704. |
| [43] | Meyer MK.;Akinc M..OXIDATION BEHAVIOR OF BORON-MODIFIED MO5SI3 AT 800-DEGREES-1300-DEGREES-C[J].Journal of the American Ceramic Society,19964(4):938-944. |
| [44] | K. Yoshimi;S. Nakatani;T. Suda.Oxidation behavior of Mo_5SiB_2-based alloy at elevated temperatures[J].Intermetallics,20025(5):407-414. |
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%