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Philosophical Magazine A Volume 65, 1992 - Issue 1
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Original Articles

Weak-beam study of <111> superlattice dislocations in nial

P. Veyssière LEM, CNRS-ONERA, BP 72, F-92322, Chatillon, Cedex, France
&
R. Noebe NASA Lewis Research Center, Cleveland, OH, 44135, USA
Pages 1-13 | Received 16 Jul 1990, Accepted 09 Feb 1991, Published online: 13 Sep 2006

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G.P. Purja Pun & Y. Mishin. (2009) Development of an interatomic potential for the Ni-Al system. Philosophical Magazine 89:34-36, pages 3245-3267.
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R. Srinivasan, M. S. Daw, R. D. Noebe & M. J. Mills. (2003) Observations of glide and decomposition of a⟨101⟩ dislocations at high temperatures in Ni-Al single crystals deformed along the hard orientation. Philosophical Magazine 83:9, pages 1111-1135.
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R. Srinivasan, J. Brown, M.S. Daw, R.D. Noebe & M.J. Mills. (2000) The mechanics of slip transition at intermediate temperatures in <001>-oriented NiAl single crystals I. Experimental observations of the decomposition of α<111> dislocations in Ni–44 at.% Al. Philosophical Magazine A 80:12, pages 2841-2854.
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Y.Q. Sun. (2000) Characteristics of 〈111〉 slip in a NiAl [001] single crystal. Philosophical Magazine A 80:2, pages 447-465.
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M. Ahlers. (1994) High-temperature plasticity and the martensitic transformation in long-range-ordered alloys. Philosophical Magazine A 70:2, pages 247-260.
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T.A. Parthasarathy, S.I. Rao & D.M. Dimiduk. (1993) Molecular statics simulations of core structures and motion of dislocations in NiAl. Philosophical Magazine A 67:3, pages 643-662.
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R. D. Noebe, R. R. Bowman & M. V. Nathal. (1993) Physical and mechanical properties of the B2 compound NiAl. International Materials Reviews 38:4, pages 193-232.
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Kan Ma, Thomas Blackburn, Johan P. Magnussen, Michael Kerbstadt, Pedro A. Ferreirós, Tatu Pinomaa, Christina Hofer, David G. Hopkinson, Sarah J. Day, Paul A.J. Bagot, Michael P. Moody, Mathias C. Galetz & Alexander J. Knowles. (2023) Chromium-based bcc-superalloys strengthened by iron supplements. Acta Materialia 257, pages 119183.
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Guy Molénat, Jean-Philippe Monchoux, Michael Musi, Petra Spoerk-Erdely, Helmut Clemens & Alain Couret. (2023) A TEM study of a<001> dislocations in the ßo phase of an intermetallic TNM-TiAl alloy. Scripta Materialia 226, pages 115247.
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Guy Molénat, Benjamin Galy, Michael Musi, Louïse Toualbi, Marc Thomas, Helmut Clemens, Jean-Philippe Monchoux & Alain Couret. (2022) Plasticity and brittleness of the ordered βo phase in a TNM-TiAl alloy. Intermetallics 151, pages 107653.
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J.X. Yan, Z.J. Zhang, K.Q. Li, Z.Y. Xia, J.B. Yang & Z.F. Zhang. (2020) Pressure effect on core structures and yield behaviors of <111> screw superdislocations in FeAl. Journal of Alloys and Compounds 815, pages 152362.
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S R Agnew & T Ungar. (2019) Determination of the dislocation-based mechanism(s) responsible for the anomalous ductility of a class of B2 intermetallic alloys. IOP Conference Series: Materials Science and Engineering 580:1, pages 012001.
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J.X. Yan, Z.J. Zhang, K.Q. Li, Z.Y. Xia, J.B. Yang & Z.F. Zhang. (2019) Core structures and planar faults associated with <111> screw superdislocations in B2 alloys. Intermetallics 110, pages 106470.
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Gang Wang & Yishuang Xu. (2018) Embedded-atom potential for Ni-Al alloy. IOP Conference Series: Materials Science and Engineering 452, pages 022025.
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Michael Feuerbacher. (2016) Dislocations and deformation microstructure in a B2-ordered Al28Co20Cr11Fe15Ni26 high-entropy alloy. Scientific Reports 6:1.
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Rahul Mitra. 2015. Structural Intermetallics and Intermetallic Matrix Composites. Structural Intermetallics and Intermetallic Matrix Composites 45 72 .
Erwin Povoden-Karadeniz & Ernst Kozeschnik. (2012) Simulation of Precipitation Kinetics and Precipitation Strengthening of B2-precipitates in Martensitic PH 13–8 Mo Steel. ISIJ International 52:4, pages 610-615.
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K. B. Povarova, A. A. Drozdov, N. K. Kazanskaya, A. E. Morozov & A. V. Antonova. (2011) Physicochemical approaches to designing NiAl-based alloys for high-temperature operation. Russian Metallurgy (Metally) 2011:3, pages 209-220.
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J.A. Loudis & I. Baker. (2008) Dislocation identification and in situ straining in the spinodal Fe 30 Ni 20 Mn 25 Al 25 alloy . Microscopy Research and Technique 71:7, pages 489-496.
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Gerhard Sauthoff. 2006. Materials Science and Technology. Materials Science and Technology.
P. Veyssière. (2006) The weak-beam technique applied to the analysis of materials properties. Journal of Materials Science 41:9, pages 2691-2702.
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C. Holste & A. Schwab. (2006) Cyclic plasticity of soft oriented NiAl single crystals at 600K. Materials Science and Engineering: A 418:1-2, pages 1-10.
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P.B. Hirsch. (2006) Comment on “The locking of 35°〈110〉 dislocations in NiAl” by N. Yang and Y.Q. Sun. Scripta Materialia 54:2, pages 313-314.
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Yuri M. Mishin. (2005) Atomistic Computer Modeling of Intermetallic Alloys. Materials Science Forum 502, pages 21-26.
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Y. Mishin. (2004) Atomistic modeling of the γ and γ′-phases of the Ni–Al system. Acta Materialia 52:6, pages 1451-1467.
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. 2004. Smithells Metals Reference Book. Smithells Metals Reference Book 38-1 38-38 .
Y.Q. Sun & N. Yang. (2003) The onset and blocking of <0 1 1> slip in NiAl. Acta Materialia 51:18, pages 5601-5612.
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R. Fischer, G. Frommeyer & A. Schneider. (2003) APFIM investigations on site preferences, superdislocations, and antiphase boundaries in NiAl(Cr) with B2 superlattice structure. Materials Science and Engineering: A 353:1-2, pages 87-91.
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G. K. Dey. (2003) Physical metallurgy of nickel aluminides. Sadhana 28:1-2, pages 247-262.
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Y. Mishin, M. J. Mehl & D. A. Papaconstantopoulos. (2002) Embedded-atom potential for . Physical Review B 65:22.
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E. Arzt & P. Grahle. (1998) High temperature creep behavior of oxide dispersion strengthened NiAl intermetallics. Acta Materialia 46:8, pages 2717-2727.
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R. Schroll, V. Vitek & P. Gumbsch. (1998) Core properties and motion of dislocations in NiAl. Acta Materialia 46:3, pages 903-918.
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G. K. Dey & J. A. Sekhar. (1997) Micropyretic synthesis of tough NiAl alloys. Metallurgical and Materials Transactions B 28:5, pages 905-918.
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M. Hirscher, D. Schaible & H. Kronmüller. (1997) Mechanical Spectroscopy of High-Purity NiAl Single Crystals. physica status solidi (a) 160:2, pages 507-516.
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M. Yan, V. Vitek & S.P. Chen. (1996) Many-body central force potentials and properties of grain boundaries in NiAl. Acta Materialia 44:11, pages 4351-4365.
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D. Golberg & G. Sauthoff. (1996) Effects of ageing at 673 K on the compressive behaviour of 〈110〉 oriented (‘soft’) NiAl single crystals and polycrystals with and without Ti additions. Intermetallics 4:2, pages 143-158.
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Ronald D. Noebe, Randy R. Bowman & Michael V. Nathal. 1996. Physical Metallurgy and processing of Intermetallic Compounds. Physical Metallurgy and processing of Intermetallic Compounds 212 296 .
Y.Q. Sun. (1995) Stability of APB-dissociated 〈111〉 screw superdislocations in B2-ordered structures. Acta Metallurgica et Materialia 43:10, pages 3775-3782.
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M Ludwig & P Gumbsch. (1995) An empirical interatomic potential for B2 NiAl. Modelling and Simulation in Materials Science and Engineering 3:4, pages 533-542.
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Gerhard Sauthoff. 1995. Intermetallics. Intermetallics 120 157 .
R.W. Margevicius & J.D. Cotton. (1995) Study of the brittle-to-ductile transition in NiAl by texture analysis. Acta Metallurgica et Materialia 43:2, pages 645-655.
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X.F. Chen, D.R. Johnson & B.F. Oliver. (1994) Microstructures from a directionally solidified NiAl-Cr eutectic deformed at room temperature. Scripta Metallurgica et Materialia 30:8, pages 975-980.
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Y. Q. Sun, G. Taylor, R. Darolia & P. M. Hazzledine. (2011) <111> Slip in Nial Single Crystals Between 4.2K and 100K. MRS Proceedings 364.
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Armelle François & Patrick Veyssière. (1994) A TEM investigation of the deformation microstructure of CoZr and Co40Ni10Zr50 ordered alloys. Intermetallics 2:1, pages 9-22.
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X.F. Chen, S.M. Joslin, B.F. Oliver & C.R. Brooks. (1993) The slip vectors in an NiAlMo directionally solidified eutectic alloy. Scripta Metallurgica et Materialia 29:11, pages 1439-1444.
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D.B. Miracle. (1993) Overview No. 104 The physical and mechanical properties of NiAl. Acta Metallurgica et Materialia 41:3, pages 649-684.
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J.D. Cotton, R.D. Noebe & M.J. Kaufman. (1993) The effects of chromium on NiAl intermetallic alloys: Part II. Slip systems. Intermetallics 1:2, pages 117-126.
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J.D. Cotton, R.D. Noebe & M.J. Kaufman. (1993) The effects of chromium on NiAl intermetallic alloys: Part I. microstructures and mechanical properties. Intermetallics 1:1, pages 3-20.
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G. Saada & P. Veyssière. (2006) The Dissociation of a Screw Superdislocation in the B2 Structure. physica status solidi (b) 172:1, pages 309-323.
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