概述了粉末冶金技术的优势,简要介绍了镍基高温合金、钛基合金、难熔金属、超高温合金、氧化物弥散强化合金和喷涂合金粉末等几种典型的航空发动机用粉末冶金材料.重点阐述了镍基高温合金粉末钛基合金粉末和喷涂合金粉末的制备关键和研究热点,分析了热等静压、喷射成形、注射成形和快速成形工艺的特点和发展状况.最后指出了粉末冶金技术在航空发动机中的应用潜力和研究方向.
参考文献
| [1] | RAISSON G .Evolution of PM nickel base uperaslloy processes and products[J].Powder Metallurgy,2008,51(1):10-13. |
| [2] | Robert Schafrik;Robert Sprague .Superalloy Technology-A Perspective on Critical Innovations for Turbine Engines[J].Key engineering materials,2008(0):113-134. |
| [3] | Fecht H;Furrer D .Processing of nickel-base superalloys for turbine engine disc applications[J].Advancde Engineering Materials,2000,2(12):777-787. |
| [4] | WILLIAMS B.Powder Metallurgy superalloys for high temperature,high performance applications[J].International powder metallurgy industry,2013(15):135-141. |
| [5] | [OL].http://www.grc.nasa.gov/WWW/StructuresMaterials/AdvMet/research/turbine_disks.html |
| [6] | T. P. Gabb;P. T. Kantzos;J. Telesman;J. Gayda;C. K. Sudbrack;B. Palsa .Fatigue resistance of the grain size transition zone in a dual microstructure superalloy disk[J].International Journal of Fatigue,2011(3):414-426. |
| [7] | RODRIGUES-HENRIQUES V A;De-CAMPOS P P;ALVES-CAIRO C A et al.Production of titanium alloys for advanced aerospace systems by powder metallurgy[J].Materials Research,2005,8(4):443-446. |
| [8] | Martins, G.V.;Silva, C.R.M.;Nunes,C.A.;Trava-Airoldi, V.J.;Borges Junior, L.A.;Machado, J.P.B..Beta Ti-45Nb and Ti-50Nb Alloys Produced by Powder Metallurgy for Aerospace Application[J].Materials Science Forum,2010:405-409. |
| [9] | 郑欣,白润,王东辉,蔡晓梅,王峰,夏明星,喻吉良.航天航空用难熔金属材料的研究进展[J].稀有金属材料与工程,2011(10):1871-1875. |
| [10] | P. JEHANNO;M. HEILMAIER;H. KESTLER .Assessment of a Powder Metallurgical Processing Route for Refractory Metal Silicide Alloys[J].Metallurgical and Materials Transactions, A. Physical Metallurgy and Materials Science,2005(3):515-523. |
| [11] | Yu, J.L.;Li, Z.K.;Zheng, X.;Zhang, J.J.;Liu, H.;Bai, R.;Wang, H..Tensile properties of multiphase Mo-Si-B refractory alloys at elevated temperatures[J].Materials Science & Engineering, A. Structural Materials: Properties, Misrostructure and Processing,2012:392-395. |
| [12] | SCHAFFER G B;LORETTO M H;SMALLMAN R E .The stability of the oxide dispersion in Inconel alloy MA6000[J].ActaMetallurgica,1989,37(9):2551-2558. |
| [13] | Qingxin Tang;Takeshi Hoshino;Shigeharu Ukai;Bin Leng;Shigenari Hayashi;Yongming Wang .Refinement of Oxide Particles by Addition of Hf in Ni-0.5 mass %Al-1 mass%Y_2O_3 Alloys[J].Materials transactions,2010(11):2019-2024. |
| [14] | 陈礼顺,张斌,蔡元钢.热喷涂涂层在航空发动机上的应用及发展[J].航空制造技术,2011(11):34-37. |
| [15] | HETMANCZYK M;SWADZBA L;MENDALA B .Advanced materials and protective coatings in aero-engines application[J].Journal of achievements in Materials and manufacturing Engineering,2007,24(1):372-381. |
| [16] | [OL].http://web.ald-vt.de/cms/vakuum-technologie/anlagen/powder-metallurgy/ |
| [17] | J. Alcisto;A. Enriquez;H. Garcia;S. Hinkson;T. Steelman;E. Silverman;P. Valdovino;H. Gigerenzer;J. Foyos;J. Ogren;J. Dorey;K. Karg;T. McDonald;O. S. Es-Said .Tensile Properties and Microstructures of Laser-Formed Ti-6Al-4V[J].Journal of Materials Engineering and Performance,2011(2):203-212. |
| [18] | 王铀.纳米粉体再造粒的意义-制备纳米结构涂层的热喷涂喂料[J].中国粉体工业,2011(6):8-13. |
| [19] | KANG B S J;OGAWA K;MA L et al.Materials and components development for advanced turbine systems-ODS alloy development[OL].http://www.netl.doe.gov/publications/pr oceedings/09/fem/manuscripts/Kang _ Manuscript.pdf |
| [20] | N.-K. Park;J.-T. Yeom .Tensile Properties of HIP/DB'ed Ni-Base Superalloys[J].Materials Science Forum,2005(Pt.1):635-638. |
| [21] | [OL].http://www.ipmd.net/articles/001746.html |
| [22] | B. Preauchat;F. Popoff;M. Thomas .Characterization of HIPed and extruded powder metallurgy titanium aluminide[J].Advanced Engineering Materials,2002(3):133-138. |
| [23] | 张国庆,李周,田世藩,颜鸣皋.喷射成形高温合金及其制备技术[J].航空材料学报,2006(03):258-264. |
| [24] | G.Q.Zhang.RESEARCH AND DEVELOPMENT OF HIGH TEMPERATURE STRUCTURAL MATERIALS FOR AERO-ENGINE APPLICATIONS[J].金属学报(英文版),2005(04):443-452. |
| [25] | Fencheng Liu;Xin Lin;Chunping Huang .The effect of laser scanning path on microstructures and mechanical properties of laser solid formed nickel-base superalloy Inconel 718[J].Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics,2011(13):4505-4509. |
| [26] | Chen, J.;Xue, L. .Process-induced microstructural characteristics of laser consolidated IN-738 superalloy[J].Materials Science & Engineering, A. Structural Materials: Properties, Misrostructure and Processing,2010(27/28):7318-7328. |
| [27] | [OL].http://www.arcam.com/industry-segments/aerospace-anddefence.aspx |
| [28] | Bernardo N. Nobrega;Waldyr Ristow Jr;Ricardo Machado .MIM processing and plasma sintering of nickel base superalloys for aerospace and automotive applications[J].Powder Metallurgy,2008(2):107-110. |
| [29] | Haoming Zhang;Xinbo He;Xuanhui Qu;Liming Zhao .Microstructure and mechanical properties of high Nb containing TiAl alloy partsfabricated by metal injection molding[J].Materials Science & Engineering, A. Structural Materials: Properties, Misrostructure and Processing,2009(1/2):31-37. |
| [30] | Guo Shibo;Qu Xuanhui;He Xinbo;Zhou Ting;Duan Bohua .Powder injection molding of Ti-6Al-4V alloy[J].Journal of Materials Processing Technology,2006(3):310-314. |
| [31] | GREEN K A .Injection moulded stainless steel actuator arm for aerospace uses[J].Metal Powder Report,1999,54(1):41. |
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%