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Philosophical Magazine A Volume 68, 1993 - Issue 5
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Original Articles

Deformation twinning intersections in a γ-TiAl-based Ti-50 at.% Al-2 at.% Mn-1 at.% Nb alloy deformed at room temperature

Y. G. Zhang Department of Mechanical Engineering, The University of Manitoba, Winnipeg, Manitoba, Canada, R3T 2N2
&
M. C. Chaturvedi Department of Mechanical Engineering, The University of Manitoba, Winnipeg, Manitoba, Canada, R3T 2N2
Pages 915-937 | Received 29 Oct 1992, Accepted 04 May 1993, Published online: 20 Aug 2006

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L. Song, X.J. Xu, C. Peng, Y.L. Wang, Y.F. Liang, S.L. Shang, Z.K. Liu & J.P. Lin. (2015) Deformation behaviour and 6H-LPSO structure formation at nanoindentation in lamellar high Nb containing TiAl alloy. Philosophical Magazine Letters 95:2, pages 85-91.
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S. Zghal & A. Couret. (2001) Transmission of the deformation through γ-γ interfaces in a polysynthetically twinned TiAl alloy II. Twin interfaces (180° rotational). Philosophical Magazine A 81:2, pages 365-382.
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M.A. Gibson & C.T. Forwood. (2000) Slip transfer of deformation twins in duplex γ-based Ti–Al alloys. Part I. Transfer across γ–γ coherent twin interfaces. Philosophical Magazine A 80:12, pages 2747-2783.
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L. C Zhang. (1999) Twin-intersection-related nanotwinning in a heavily deformed gamma-TiAl-based alloy. Philosophical Magazine Letters 79:2, pages 49-54.
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Zhe Jin, George T. Gray$suffix/text()$suffix/text() & Masaharu Yamaguchi. (1998) Mechanical twinning in a 45o ≪321≫ oriented polysynthetically twinned TiAl crystal at a high strain rate and a high temperature. Philosophical Magazine A 78:1, pages 239-254.
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Kyosuke Kishida, Haruyuki Inui & Masaharu Yamaguchi. (1998) Deformation of lamellar structure in TiAl-Ti3Al two-phase alloys. Philosophical Magazine A 78:1, pages 1-28.
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M. Loubradou, R. Bonnet & J.M. Pénisson. (1995) Glide transfer across structural twin plates in TiAl involving faults and deformation nanotwins. Philosophical Magazine A 72:5, pages 1381-1395.
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Zhe Jin & ThomasR. Bieler. (1995) An in-situ observation of mechanical twin nucleation and propagation in TiAl. Philosophical Magazine A 71:5, pages 925-947.
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Articles from other publishers (27)

Antje Dollmann, Julia S. Rau, Beatrix Bieber, Lakshmi Mantha, Christian Kübel, Alexander Kauffmann, Aditya Srinivasan Tirunilai, Martin Heilmaier & Christian Greiner. (2023) Temporal sequence of deformation twinning in CoCrNi under tribological load. Scripta Materialia 229, pages 115378.
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D.O. Panov, V.S. Sokolovsky, N.D. Stepanov, S.V. Zherebtsov, P.V. Panin, E.I. Volokitina, N.A. Nochovnaya & G.A. Salishchev. (2023) Effect of interlamellar spacing on strength-ductility combination of β-solidified γ-TiAl based alloy with fully lamellar structure. Materials Science and Engineering: A 862, pages 144458.
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Yingfei Guo, Yuyong Chen, Shulong Xiao, Jing Tian, Zhuangzhuang Zheng & Lijuan Xu. (2020) Influence of nano-Y2O3 addition on microstructure and tensile properties of high-Al TiAl alloys. Materials Science and Engineering: A 794, pages 139803.
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Guang Yang, Shang-Yi Ma, Kui Du, Dong-Sheng Xu, Sen Chen, Yang Qi & Heng-Qiang Ye. (2019) Interactions between dislocations and twins in deformed titanium aluminide crystals. Journal of Materials Science & Technology 35:3, pages 402-408.
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M.A. Gibson. 2016. Reference Module in Materials Science and Materials Engineering. Reference Module in Materials Science and Materials Engineering.
Chen-Wei Shao, Feng Shi, Wei-Wei Guo & Xiao-Wu Li. (2015) Plastic Deformation and Damage Behaviors of Fe-18Cr-18Mn-0.63N High-Nitrogen Austenitic Stainless Steel under Uniaxial Tension and Compression. MATERIALS TRANSACTIONS 56:1, pages 46-53.
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Fritz Appel, Jonathan David Heaton Paul & Michael Oehring. 2011. Gamma Titanium Aluminide Alloys. Gamma Titanium Aluminide Alloys 125 248 .
C.L. Chen, W. Lu, Y.Y. Cui, L.L. He & H.Q. Ye. (2008) TEM observations of twin intersections in a Ti–47Al–2Cr–2Nb–0.1Y alloy compressed at room temperature. Journal of Alloys and Compounds 454:1-2, pages 201-205.
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C.L. Chen, W. Lu, L.L. He & H.Q. Ye. (2011) Deformation-induced γ → DI-α 2 phase transformation occurring in the twin-intersection region of TiAl alloys . Journal of Materials Research 22:9, pages 2416-2422.
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T. Sawai & A. Hishinuma. (2005) Twin intersection in tensile deformed γ-TiAl intermetallic compounds. Journal of Physics and Chemistry of Solids 66:2-4, pages 335-338.
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M.A. Gibson. 2005. Encyclopedia of Materials: Science and Technology. Encyclopedia of Materials: Science and Technology 1 15 .
G.L. Chen & L.C. Zhang. (2002) Deformation mechanism at large strains in a high-Nb-containing TiAL at room temperature. Materials Science and Engineering: A 329-331, pages 163-170.
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J.X Zhang & H.Q Ye. (2001) Twin intersection in a deformed TiAl alloy. Scripta Materialia 45:2, pages 133-138.
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L.C. Zhang, G.L. Chen & H.Q. Ye. (2001) Substructures of deformation twins and twin intersections in a Ti–45Al–8Nb–2.5Mn alloy heavily deformed at room temperature. Materials Science and Engineering: A 299:1-2, pages 267-274.
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Y. G. Zhang & M. C. Chaturvedi. (2000) Interaction of deformation twin and 120 deg-rotational order fault domain boundary in the lamellar structure of two-phase TiAl-based alloys. Metallurgical and Materials Transactions A 31:11, pages 2823-2834.
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L.C Zhang, J.G Wang, G.L Chen & G Sauthoff. (2000) Structural change of deformation twin boundaries in a heavily deformed γ-TiAl-based alloy. Materials Letters 45:6, pages 320-325.
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P. Müllner & A.E. Romanov. (2000) Internal twinning in deformation twinning. Acta Materialia 48:9, pages 2323-2337.
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G.L. Chen & L.C. Zhang. (2000) TEM investigation of twin intersection in a Ti–45Al–9Nb–2.5Mn alloy deformed at room temperature. Intermetallics 8:5-6, pages 539-544.
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L.C. Zhang, G.L. Chen, J.G. Wang & H.Q. Ye. (1999) Formation of a triangular striated structure in the twin intersection area in γ-TiAl during room-temperature deformation. Intermetallics 7:11, pages 1241-1245.
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T Radetic, V Radmilovic & W.A Soffa. (1999) Electron microscopy observations of twin-twin intersections in a particle hardened copper-titanium alloy. Scripta Materialia 40:7, pages 845-852.
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J.G. Wang, L.C. Zhang, G.L. Chen & H.Q. Ye. (1998) TEM observations of mechanical twins in a hot-deformed Ti–45Al–10Nb alloy. Materials Science and Engineering: A 252:2, pages 222-231.
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F. Appel & R. Wagner. (1998) Microstructure and deformation of two-phase γ-titanium aluminides. Materials Science and Engineering: R: Reports 22:5, pages 187-268.
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M.H. Yoo. (1998) Twinning and mechanical behavior of titanium aluminides and other intermetallics. Intermetallics 6:7-8, pages 597-602.
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P. Müllner & C. Solenthaler. (1997) On the effect of deformation twinning on defect densities. Materials Science and Engineering: A 230:1-2, pages 107-115.
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M. H. Yoo & A. Hishinuma. (1997) Deformation twinning in TiAl: Effects of defect clustering. Metals and Materials 3:2, pages 65-74.
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Y.G. Zhang, F.D. Tichelaar, F.W. Schapink & M.C. Chaturvedi. (1996) Interaction of deformation twins with α2 plates in γ-TiAl base alloy deformed at room temperature. Materials Science and Engineering: A 219:1-2, pages 162-179.
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Y.G. Zhang, F.D. Tichelaar, F.W. Schapink, Q. Xu & C.Q. Chen. (1995) An evidence of stress-induced α2 → γ transformation in a γ-TiAl-based alloy. Scripta Metallurgica et Materialia 32:7, pages 981-985.
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