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Philosophical Magazine B Volume 70, 1994 - Issue 4
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Original Articles

Ti-Ti Bonding in γ-TiAl and f.c.c. Ti

Y. Song Department of Physics, Northwestern University, Evanston, Illinois, 60208, USA
,
S. P. Tang Department of Physics, Northwestern University, Evanston, Illinois, 60208, USA
,
J. H. Xu Department of Physics, Northwestern University, Evanston, Illinois, 60208, USA
,
O. N. Mryasov Department of Physics, Northwestern University, Evanston, Illinois, 60208, USA
,
A. J. Freeman Department of Physics, Northwestern University, Evanston, Illinois, 60208, USA
,
C. Woodward UES Inc., Dayton, Ohio, 45432, USA
&
D. M. Dimiduk Wright-Patterson Air Force Base, Ohio, 45433, USA
 show all
Pages 987-1002 | Received 18 Feb 1994, Accepted 11 Mar 1994, Published online: 27 Sep 2006

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S. Znam, D. Nguyen-Manh, D. G. Pettifor & V. Vitek. (2003) Atomistic modelling of TiAl I. Bond-order potentials with environmental dependence. Philosophical Magazine 83:4, pages 415-438.
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T. Sikora, M. Jaouen & G. Hug. (1999) Bonding mechanisms in γ-TiAl: Comparison between absorption near edge fine structures and theoretical predictions. Philosophical Magazine A 79:9, pages 2157-2172.
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R. Holmestad & C.R. Birkeland. (1998) Charge-density determination in TiAl-Cr and TiAl-V using quantitative convergent-beam electron diffraction. Philosophical Magazine A 77:5, pages 1231-1254.
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R. Siegl, V. Vitek, H. Inui, K. Kishida & M. Yamaguchi. (1997) Directional bonding and asymmetry of interfacial structure in intermetallic TiAl: Combined theoretical and electron microscopy study. Philosophical Magazine A 75:5, pages 1447-1459.
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R. Holmestad, J.M. Zuo, J.C. H. Spence, R. Hoiert & Z. Horita. (1995) Effect of Mn doping on charge density in γ-TiAl by quantitative convergent beam electron diffraction. Philosophical Magazine A 72:3, pages 579-601.
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Articles from other publishers (34)

Bingqi Yi, Min Zheng, Dingfeng Qu, Xingchun Wei, Weihua Chen, Zongxiao Zhu & Jun Cheng. (2024) Study on atomic-scale deformation mechanism based on nanoindentation of duplex full lamellar TiAl alloys with different orientation relationships. Applied Physics A 130:3.
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Feng He, Shaolou Wei, Jaclyn Leigh Cann, Zhijun Wang, Jincheng Wang & Cemal Cem Tasan. (2021) Composition-dependent slip planarity in mechanically-stable face centered cubic complex concentrated alloys and its mechanical effects. Acta Materialia 220, pages 117314.
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A. V. Bakulin & S. E. Kulkova. (2019) Effect of Impurities on the Formation Energy of Point Defects in the γ-TiAl Alloy. Journal of Experimental and Theoretical Physics 127:6, pages 1046-1058.
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Zhong-Zhu Li, Ye Wei, Hong-Bo Zhou & Guang-Hong Lu. (2017) Effects of boron on the mechanical properties of the TiAl–Ti 3 Al alloy: A first-principles investigation . Modern Physics Letters B 31:02, pages 1750002.
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Ye Wei, Ying Zhang, Guang-Hong Lu & Huibin Xu. (2012) Effects of transition metals in a binary-phase TiAl–Ti3Al alloy: From site occupancy, interfacial energetics to mechanical properties. Intermetallics 31, pages 105-113.
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Ye Wei, Ying Zhang, Hong-Bo Zhou, Guang-Hong Lu & Huibin Xu. (2012) First-principles investigation on shear deformation of a TiAl/Ti3Al interface and effects of oxygen. Intermetallics 22, pages 41-46.
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Ye Wei, Hong-Bo Zhou, Ying Zhang, Guang-Hong Lu & Huibin Xu. (2011) Effects of O in a binary-phase TiAl?Ti 3 Al alloy: from site occupancy to interfacial energetics . Journal of Physics: Condensed Matter 23:22, pages 225504.
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Hong-Bo Zhou, Ye Wei, Yue-Lin Liu, Ying Zhang & Guang-Hong Lu. (2010) First-principles investigation of site preference and bonding properties of alloying element in TiAl with O impurity. Modelling and Simulation in Materials Science and Engineering 18:1, pages 015007.
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Hong-Bo Zhou, Ying Zhang, Yue-Lin Liu, Masanori Kohyama, Peng-Gang Yin & Guang-Hong Lu. (2009) First-principles characterization of the anisotropy of theoretical strength and the stress–strain relation for a TiAl intermetallic compound. Journal of Physics: Condensed Matter 21:17, pages 175407.
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Per Erik Vullum, Mark Pitt, John Walmsley, Bjørn Hauback & Randi Holmestad. (2008) Observations of nanoscopic, face centered cubic Ti and TiH x. Applied Physics A 94:4, pages 787-793.
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Hong-Li Dang, Chong-Yu Wang & Tao Yu. (2007) First-principles investigation of 3d transition elements in L1 TiAl. Journal of Applied Physics 101:8.
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H L Dang, C Y Wang & T Yu. (2006) Light impurity effects on the electronic structure in TiAl. Journal of Physics: Condensed Matter 18:39, pages 8803-8815.
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M. Mrovec, D. Nguyen-Manh, D. G. Pettifor & V. Vitek. (2004) Bond-order potential for molybdenum: Application to dislocation behavior. Physical Review B 69:9.
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I.P. Jones. 2003. 63 I .
Y. Song, Z.X. Guo & R. Yang. (2002) First principles studies of TiAl-based alloys. Journal of Light Metals 2:3, pages 115-123.
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R. Yu, L. L. He & H. Q. Ye. (2002) Effect of W on structural stability of TiAl intermetallics and the site preference of W. Physical Review B 65:18.
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R. Porizek, S. Znam, D. Nguyen-Manh, V. Vitek & D. G. Pettifor. (2011) Atomistic Studies of Dislocation Glide in γ-TiAl. MRS Proceedings 753.
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Yu. N. Gornostyrev, M. I. Katsnelson, N. I. Medvedeva, O. N. Mryasov, A. J. Freeman & A. V. Trefilov. (2000) Peculiarities of defect structure and mechanical properties of iridium: Results of ab initio electronic structure calculations . Physical Review B 62:12, pages 7802-7808.
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L.G Zhou, L Dong, L.L He & C.B Zhang. (2000) Ab initio pseudopotential calculations on the effect of Mn doped on lattice parameters of L10 TiAl. Intermetallics 8:5-6, pages 637-641.
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T. Kado. (2000) Structure of Ti films deposited on MgO(001) substrates. Surface Science 454-456, pages 783-789.
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G. Sattonnay, F. Rullier-Albenque & O. Dimitrov. (1999) Determination of displacement threshold energies in pure Ti and in γ-TiAl alloys by electron irradiation. Journal of Nuclear Materials 275:1, pages 63-73.
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Randi Holmestad, Christophe R. Birkeland, Knut Marthinsen, Ragnvald H�ier & Jian Min Zuo. (1999) Use of quantitative convergent-beam electron diffraction in materials science. Microscopy Research and Technique 46:2, pages 130-145.
Crossref
K. Ito & V. Vitek. (1998) An atomistic study of segregation to lamellar interfaces in non-stoichiometric TiAl alloys. Acta Materialia 46:15, pages 5435-5446.
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S. I. Rao, D. M. Dimiduk & C. Woodward. (1998) Computational tools for alloy design: Solid solutions in Gamma-TiAl. JOM 50:7, pages 37-41.
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N.I. Medvedeva, Yu.N Gornostyrev, D.L. Novikov, O.N. Mryasov & A.J. Freeman. (1998) Ternary site preference energies, size misfits and solid solution hardening in NiAl and FeAl. Acta Materialia 46:10, pages 3433-3442.
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Y. Liu, K. Y.J. H. Zhang, G. Lu & Z. Q. Hu. (2011) First-principles investigation on environmental embrittlement of TiAl. Journal of Materials Research 13:2, pages 290-301.
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K. Lie, R. Holmestad, K. Marthinsen & R. Høier. (1998) Experimental and theoretical investigations of EELS near-edge fine structure in TiAl with and without ternary addition of V, Cr, or Mn. Physical Review B 57:3, pages 1585-1593.
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D.M. Dimiduk. (1998) Systems engineering of gamma titanium aluminides: impact of fundamentals on development strategy. Intermetallics 6:7-8, pages 613-621.
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M. H. Yoo & C. L. Fu. (1998) Physical constants, deformation twinning, and microcracking of titanium aluminides. Metallurgical and Materials Transactions A 29:1, pages 49-63.
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V Vitek, K Ito, R Siegl & S Znam. (1997) Structure of interfaces in the lamellar TiAl: effects of directional bonding and segregation. Materials Science and Engineering: A 239-240, pages 752-760.
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Liu Senying & J.A. Leiro. (1997) Electronic and physical properties of < 100 ⪢ antiphase boundary in the TiAL alloy. Journal of Physics and Chemistry of Solids 58:12, pages 2085-2091.
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Yi Liu, Kuiying Chen, Jinghua Zhang, Zhuangqi Hu, Gang Lu & Nicholas Kioussis. (1997) Electronic effects of oxygen and vanadium impurities in TiAl. Journal of Physics: Condensed Matter 9:45, pages 9829-9843.
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V. Vitek, A. Girshick, R. Siegl, H. Inui & M. Yamaguchi. 1997. Properties of Complex Inorganic Solids. Properties of Complex Inorganic Solids 355 370 .
R. Holmestad, J.M. Zuo, J.C.H. Spence, R. Høier & Z. Horita. (2020) Charge density in TiAl intermetallics studied by quantitative CBED. Proceedings, annual meeting, Electron Microscopy Society of America 53, pages 146-147.
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