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Materials and Manufacturing Processes Volume 7, 1992 - Issue 4
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Original Articles

THE TECHNOLOGY OF TITANIUM ALUMINIDES FOR AEROSPACE APPLICATIONS

J.C. Beddoes Department of Mechanical & Aerospace Engineering, Carleton University, Ottawa, Ontario, K1S 5B6, Canada
,
W. Wallace institute for Aerospace Research National Research Council Canada, Ottawa, Ontario, K1A 0R6, Canada
&
M.C. de Malherbe Department of Mechanical & Aerospace Engineering, Carleton University, Ottawa, Ontario, K1S 5B6, Canada
Pages 527-559 | Published online: 27 Apr 2007

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Lai Zou, Yun Huang, Guojun Zhang & Xiping Cui. (2019) Feasibility study of a flexible grinding method for precision machining of the TiAl-based alloy. Materials and Manufacturing Processes 34:10, pages 1160-1168.
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L. Nelson, H. H. K. Xu, S. Danyluk & S. Jahanmir. (1997) SUBSURFACE DAMAGE IN GRINDING TITANIUM ALUMINIDE. Machining Science and Technology 1:2, pages 289-297.
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J. Beddoes, W. Wallace & L. Zhao. (1995) Current understanding of creep behaviour of near γ-titanium aluminides. International Materials Reviews 40:5, pages 197-217.
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Articles from other publishers (24)

Jia Liu, Yan Liu, Zhe Zhang & Hao Wang. (2022) Parameter Optimization and Experimental Study on Tool-Vibration-Assisted Pulsed Electrochemical Machining of γ-TiAl TNM Blades. Applied Sciences 12:16, pages 8042.
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Anıl Emiralioğlu & Rahmi Ünal. (2022) Additive manufacturing of gamma titanium aluminide alloys: a review. Journal of Materials Science 57:7, pages 4441-4466.
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Shaogang Wang, Yuan Chen & Lize Li. (2020) Effect of beam deviation on electron beam welded Ti-22Al-25Nb/TC4 dissimilar alloys. Welding in the World 64:4, pages 661-670.
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Z.W. Huang, J.P. Lin & H.L. Sun. (2017) Microstructural changes and mechanical behaviour of a near lamellar γ-TiAl alloy during long-term exposure at 700 °C. Intermetallics 85, pages 59-68.
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Eddy Basuki, Djoko Prajitno & Pawawoi. (2015) Oxidation Behavior of Aluminide Coated Ti-Al-Cr-Nb-Zr-Y Alloys at High Temperatures. Solid State Phenomena 227, pages 345-348.
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Shan Jun Chen, Shan Luo Jiang, Xi Bo Li, Yong Jian Tang & Wei Guo Sun. (2011) Synthesis and Characterization of Ultrafine Nanocrystalline Ti-Al Nanoparticles. Advanced Materials Research 295-297, pages 672-676.
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Raghavan Srinivasan, Mahendramohan Balathandayuthapani & Wenying Yan. (2005) Temperature changes and loads during hot-die forging of a gamma titanium–aluminide alloy. Journal of Materials Processing Technology 160:3, pages 321-334.
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Scott X Mao, N.A McMinn & N.Q Wu. (2003) Processing and mechanical behaviour of TiAl/NiAl intermetallic composites produced by cryogenic mechanical alloying. Materials Science and Engineering: A 363:1-2, pages 275-289.
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Y. Mizuhara, K. Hashimoto & N. Masahashi. (2003) Microstructure and phase stability of TiAl–W ternary alloy. Intermetallics 11:8, pages 807-816.
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Z.W. Huang, W.E. Voice & P. Bowen. (2002) Thermal stability of Ti–46Al–5Nb–1W alloy. Materials Science and Engineering: A 329-331, pages 435-445.
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Mu-Rong Yang & S.K Wu. (2000) Oxidation resistance improvement of Ti-50Al intermetallics by pre-oxidizing and subsequent polishing. Materials Chemistry and Physics 65:2, pages 144-149.
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Youji Mizuhara & Naoya Masahashi. (2000) Diffusion Bonding Enhanced by Phase Transformation in Micro-duplex Titanium Aluminides. Materials Transactions, JIM 41:3, pages 429-436.
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K Matsugi, T Hatayama & O Yanagisawa. (1999) Impact properties of spark sintered titanium aluminides at elevated temperatures. Intermetallics 7:9, pages 1049-1057.
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P.I Gouma, S.J Davey & M.H Loretto. (1998) Microstructure and mechanical properties of a TiAl-based powder alloy containing carbon. Materials Science and Engineering: A 241:1-2, pages 151-158.
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J.M. Rakowski, G.H. Meier, F.S. Pettit, F. Dettenwanger, E. Schumann & M. Rühle. (1996) The effect of surface preparation on the oxidation behavior of gamma TiAl-base intermetallic alloys. Scripta Materialia 35:12, pages 1417-1422.
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K. Matsugi, N. Ishibashi, T. Hatayama & O. Yanagisawa. (1996) Microstructure of spark sintered titanium-aluminide compacts. Intermetallics 4:6, pages 457-467.
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F. H. Froes & C. Suryanarayana. 1996. Physical Metallurgy and processing of Intermetallic Compounds. Physical Metallurgy and processing of Intermetallic Compounds 297 350 .
T.S. Srivatsan, W.O. Soboyejo & M. Strangwood. (1995) Cyclic fatigue and fracture behavior of a gamma-titanium aluminide intermetallic. Engineering Fracture Mechanics 52:1, pages 107-120.
Crossref
J. Beddoes, W. Wallace & L. Zhao. (1995) Current understanding of creep behaviour of near γ-titanium aluminides. International Materials Reviews 40:5, pages 197-217.
Crossref
S. L. Kampe, P. Sadler, L. Christodoulou & D. E. Larsen. (1994) Room-Temperature strength and deformation of Tib2-reinforced near-γ titanium aluminides. Metallurgical and Materials Transactions A 25:10, pages 2181-2197.
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W. Wallace, A.K. Koul, J.P. Immarigeon, P. Au & J.C. Beddoes. (1994) PM matures as route to aerospace alloys. Metal Powder Report 49:6, pages 41.
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C. Suryanarayana & F.H. Froes. (1994) Nanostructured titanium aluminides. Materials Science and Engineering: A 179-180, pages 108-111.
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D. A. Berztiss, F. S. Pettit & G. H. Meier. (2011) Anomalous Oxidation of Intermetallics. MRS Proceedings 364.
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P. Pouly, M.-J. Hua, C.I. Garcia & A.J. DeArdo. (1993) Isothermal transformation behavior of near-gamma TiAl alloys. Scripta Metallurgica et Materialia 29:12, pages 1529-1534.
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