1. 毕业设计(论文)的内容和要求
论文内容主要有:一、任务书的认真阅读二、参考文献的查阅,完成文献综述;三、英文文献的翻译;四、CAD图绘制;五、试验研究;六、完成论文。
论文主要要求有:一、 毕业论文严格按照时间进度进行;二、 每周与导师交流3次,有问题及时解决;三、英文文献的翻译独立完成,不得使用翻译软件;四、CAD图绘制独立完成,不得拷贝其他人的CAD文件。
2. 参考文献
[1] Boyer R R. An overview on the use of titanium in the aerospace industry[J]. Materials Science & Engineering A,1996,213(1 /2): 103-114. [2] Wei S Y,He Y,Wang Q J,et al. Development of the aero-engine heat-resisting titanium alloys in Russia[J]. Aeroengine,2005,31(1): 52-58.魏寿庸,何瑜,王青江,等. 俄航空发动机用高温钛合金发展综述[J]. 航空发动机,2005,31(1): 52- 58. [3] Xu G D,Wang F E. Development and application of high-temperature Ti-based alloys[J]. Chinese Journal of Rare Metals,2008,32(6): 774-780.许国栋,王凤娥. 高温钛合金的发展和应用[J]. 稀有金属,2008,32(6): 774-780. [4] Williams J. Thermo-mechanical processing of high- performance Ti alloys: Recent progress and future needs[J]. Journal of Materials Processing Technology, 2001,117(3): 370-373. [5] Poorganji B, Yamaguchi M, Itsumi Y, et al. Microstructure evolution during deformation of a near-α titanium alloy with different initial structures in the two- phase region[J]. Scripta Materialia,2009,61 ( 4 ):419-422. [6] Banerjee D,Williams J C. Perspectives on titanium science and technology[J]. Acta Materialia,2013, 61(3): 844-879.[7] Mitoraj M, Godlewska E, Heintz O, et al. Scale composition and oxidation mechanism of the Ti-46Al- 8Nb alloy in air at 700 and 800 ℃[J]. Intermetallics, 2011,19(1): 39-47. [8] Copland E H,Young D J,Gleeson B. Formation of Z- Ti50Al30O20 in the sub-oxide zones of γ-TiAl-based alloys during oxidation at 1000 ℃[J]. Acta Materialia, 1999,47(10): 2937-2949. [9] Gurrappa I. An oxidation model for predicting the life of titanium alloy components in gas turbine engines[J]. Journal of Alloys and Compounds,2005,389(1 /2):190-197. [10] Leyens C, Peters M, Kaysser W A. Influence of microstructure on oxidation behaviour of near-α titanium alloys[J]. Materials Science and Technology,1996,12 (3): 213-218. [11] Sai Srinadh K V,Singh V. Oxidation behaviour of the near α-titanium alloy IMI 834[J]. Bull in Material Science,2004,27(4): 347-354. [12] Zhang S Z, Zhou B, Liu N, et al. Effects of microstructure and rare-earth constituent on the oxidation behavior of Ti-5. 6Al-4. 8Sn-2Zr-1Mo-0. 35Si-0. 7Nd titanium alloy[J]. Oxidation of Metals,2014,81 (3 / 4): 373-382. [13] Zhou Y,Wen S F,Song B,et al. A novel titanium alloy manufactured by selective laser melting: Microstructure,high temperature oxidation resistance [J]. Materials & Design,2016,89: 1199-1204. [14] Wang H M,Zhang S Q,Wang X M. Progress and challenges of laser direct manufacturing of large titanium structural components[J]. Chinese Journal of Lasers, 2009,36(12): 3204-3209.请同学参考以上文献,继续独立查阅文献并补充
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