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Original Articles

Anomalous slip in high-purity vanadium crystals

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Pages 1035-1042 | Received 12 Jul 1973, Published online: 20 Aug 2006

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Read on this site (9)

Y. Ikuhara, P. Pirouz, S. Yadavalli & C.P. Flynn. (1995) Structure of V–MgO and MgO–V interfaces. Philosophical Magazine A 72:1, pages 179-198.
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Y. Ikuhara, P. Pirouz, A.H. Heuer, S. Yadavalli & C.P. Flynn. (1994) Structure of V–Al2,O3 interfaces grown by molecular beam epitaxy. Philosophical Magazine A 70:1, pages 75-97.
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W.J. Botta F.J.W. Christian & G. Taylor. (1989) The deformation of Nb–N single crystals at low temperatures. Philosophical Magazine A 60:2, pages 205-225.
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M.I. Wood & G. Taylor. (1987) Niobium—an athermal plateau in the low-temperature yield stress. Philosophical Magazine A 56:3, pages 329-342.
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W. Wasserbäch. (1985) Anomalous slip in high-purity tantalum single crystals after tensile deformation at 77 K. Philosophical Magazine A 51:4, pages 619-628.
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Johsei Nagakawa & M. Meshii. (1981) The deformation of niobium single crystals at temperatures between 77 and 4.2 K. Philosophical Magazine A 44:5, pages 1165-1191.
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P.J. Jeffcoat, B.L. Mordike & K.D. Rogausch. (1976) Anomalous slip in Mo-5 at.% Nb and Mo-5 at.% Re alloy single crystals. The Philosophical Magazine: A Journal of Theoretical Experimental and Applied Physics 34:4, pages 583-592.
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H. Saka, K. Noda, T. Imura, H. Matsui & H. Kimura. (1976) HVEM in-situ observation of anomalous (101) slip in molybdenum. The Philosophical Magazine: A Journal of Theoretical Experimental and Applied Physics 34:1, pages 33-48.
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A.J. Garratt-reed & G. Taylor. (1976) Stress-strain curves for niobium crystals deformed at temperatures below ambient. The Philosophical Magazine: A Journal of Theoretical Experimental and Applied Physics 33:4, pages 577-590.
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Articles from other publishers (40)

G. Whiteman, L. J. Lea, R. M. Quinn, M. J. Cox, P. A. Hooper & D. M. Williamson. (2023) High Strain-Rate Characterisation of Vanadium. Journal of Dynamic Behavior of Materials.
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Zhen-Jun Zhang, Shuang-Li Lu, Jin-Bo Yang & Zhe-Feng Zhang. (2022) The criterion of anomalous slip at 0 K in body centered cubic metals. Tungsten 5:1, pages 160-168.
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Roman Gröger. (2022) Origin of variable propensity for anomalous slip in body-centered cubic metals. Modelling and Simulation in Materials Science and Engineering 30:8, pages 085007.
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Rui Wang, Xiaoxiao Ma, Linfeng Zhang, Han Wang, David J. Srolovitz, Tongqi Wen & Zhaoxuan Wu. (2022) Classical and machine learning interatomic potentials for BCC vanadium. Physical Review Materials 6:11.
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Daniel Caillard, Baptiste Bienvenu & Emmanuel Clouet. (2022) Anomalous slip in body-centred cubic metals. Nature 609:7929, pages 936-941.
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Z.Y. Xia, Z.J. Zhang, J.X. Yan, J.B. Yang & Z.F. Zhang. (2019) General yield behaviors of the {1 1 0} hexagonal dislocation networks in body centered cubic metal molybdenum. Computational Materials Science 170, pages 109116.
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Tomoaki Suzudo, Takashi Onitsuka & Ken-ichi Fukumoto. (2019) Analyzing the cross slip motion of screw dislocations at finite temperatures in body-centered-cubic metals: molecular statics and dynamics studies. Modelling and Simulation in Materials Science and Engineering 27:6, pages 064001.
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Roman Gröger, Zdeněk Chlup & Tereza Kuběnová. (2018) Deformation twinning in vanadium single crystals tested in compression at 77 K. Materials Science and Engineering: A 737, pages 413-421.
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R. Gröger, V. Vitek & T. Lookman. (2017) Mesoscale plastic texture in body-centered cubic metals under uniaxial load. Physical Review Materials 1:6.
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Yi-Shen Lin, M Mrovec & V Vitek. (2016) Importance of inclusion of the effect of s electrons into bond-order potentials for transition bcc metals with d-band mediated bonding. Modelling and Simulation in Materials Science and Engineering 24:8, pages 085001.
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Yi-Shen Lin, M. Mrovec & V. Vitek. (2016) Bond-order potential for magnetic body-centered-cubic iron and its transferability. Physical Review B 93:21.
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R. Gröger, V. Racherla, J.L. Bassani & V. Vitek. (2008) Multiscale modeling of plastic deformation of molybdenum and tungsten: II. Yield criterion for single crystals based on atomistic studies of glide of 1/2〈111〉 screw dislocations. Acta Materialia 56:19, pages 5412-5425.
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R. Gröger & V. Vitek. (2008) Multiscale modeling of plastic deformation of molybdenum and tungsten. III. Effects of temperature and plastic strain rate. Acta Materialia 56:19, pages 5426-5439.
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R. Gröger, A.G. Bailey & V. Vitek. (2008) Multiscale modeling of plastic deformation of molybdenum and tungsten: I. Atomistic studies of the core structure and glide of 1/2〈111〉 screw dislocations at 0K. Acta Materialia 56:19, pages 5401-5411.
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L. Hollang. 2002. Purification Process and Characterization of Ultra High Purity Metals. Purification Process and Characterization of Ultra High Purity Metals 305 348 .
A. Seeger & W. Wasserb�ch. (2002) Anomalous Slip - A Feature of High-Purity Body-Centred Cubic Metals. physica status solidi (a) 189:1, pages 27-50.
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Yuichi Ikuhara & Pirouz Pirouz. (1998) High resolution transmission electron microscopy studies of metal/ceramics interfaces. Microscopy Research and Technique 40:3, pages 206-241.
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W. Wasserbäch. (1995) Anomalous Slip in High-Purity Niobium and Tantalum Single Crystals. Physica Status Solidi (a) 147:2, pages 417-446.
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A Christian, O Kanert & J.Th.M De Hosson. (1990) Dislocation dynamics in vanadium: A nuclear magnetic resonance and transmission electron microscopic study. Acta Metallurgica et Materialia 38:12, pages 2479-2484.
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J. Th. M. De Hosson & O. Kanert. (2011) Dislocation Dynamics In B.C.C. Metals: A Nuclear Magnetic Resonance and Transmission Electron Microscopic Study. MRS Proceedings 209.
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H. Mizubayashi, S. Amano, S. Okuda & M. Shimada. 1986. Perspectives in Hydrogen in Metals. Perspectives in Hydrogen in Metals 301 305 .
W. Wasserbäch & V. Novák. (1985) Optical investigation of anomalous slip-line patterns in high purity niobium and tantalum single crystals after tensile deformation at 77 K. Materials Science and Engineering 73, pages 197-202.
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J. W. Christian. (1983) Some surprising features of the plastic deformation of body-centered cubic metals and alloys. Metallurgical Transactions A 14:7, pages 1237-1256.
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M. Viltange & O. Dimitrov. (1983) Deformation a basse temperature de monocristaux de fer pur et de fer carbure. Scripta Metallurgica 17:2, pages 153-158.
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H. Mizubayashi, S. Amano, S. Okuda & M. Shimada. (1982) Deformation temperature, orientation and hydrogen effects on the low temperature internal friction peaks in vanadium single crystals. Scripta Metallurgica 16:4, pages 343-347.
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J. Bressers & P. De Meester. (1982) Slip plane choice in vanadium at deformation temperatures T ⩽ 0.15Tm. Journal of the Less Common Metals 84, pages 11-23.
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M. Bucki, V. Novák, Ye.M. Savitsky, G.S. Burkhanov & V.M. Kirillova. 1979. Strength of Metals and Alloys. Strength of Metals and Alloys 145 150 .
T. Imura. (2006) Possibilities for In‐situ Observation of Basic Deformation Processes and of Other Dynamic Processes. Kristall und Technik 14:10, pages 1197-1208.
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R. Creten, J. Bressers & P. de Meester. (1977) Anomalous slip in high-purity vanadium crystals deformed in compression. Materials Science and Engineering 29:1, pages 51-53.
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J. Bressers & R. Creten. (1977) Suppression of anomalous slip by oxygen interstitials in vanadium. Scripta Metallurgica 11:1, pages 33-36.
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R.E. Reed & R.J. Arsenault. (1976) Further observations of anomalous slip in niobium single crystals. Scripta Metallurgica 10:11, pages 1003-1006.
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H. Matsui & H. Kimura. (1976) Anomalous {110} slip in high-purity molybdenum single crystals and its comparison with that in V(a) metals. Materials Science and Engineering 24:2, pages 247-256.
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F. Louchet & L.P. Kubin. (1975) A possible explanation for the anomalous slip of B.C.C. metals from “in situ” experiments. Scripta Metallurgica 9:9, pages 911-916.
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Shin Takeuchi & Eiichi Kuramoto. (1975) Thermally Activated motion of a Screw Dislocation in a Model B.C.C. Crystal. Journal of the Physical Society of Japan 38:2, pages 480-487.
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J.A. Shields, S.H. Goods, R. Gibala & T.E. Mitchell. (1975) Deformation of high purity tantalum single crystals at 4.2 K. Materials Science and Engineering 20, pages 71-81.
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F. Louchet & L.P. Kubin. (1975) Dislocation substructures in the anomalous slip plane of single crystal niobium strained at 50 K. Acta Metallurgica 23:1, pages 17-21.
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V Vitek & G Taylor. (1974) Comment on “Anomalous slip in B.C.C. crystals observed in computer simulation of screw dislocation motion”. Scripta Metallurgica 8:11, pages 1283-1285.
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S. Takeuchi & E. Kuramoto. (1974) Anomalous slip in a B.C.C. crystal observed in computer simulation of screw dislocation motion. Scripta Metallurgica 8:7, pages 785-789.
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H. Matsui & H. Kimura. (1974) Reply to comments on ‘a mechanism of the unexpected [110] slip observed in B.C.C. metals deformed at low temperatures’. Scripta Metallurgica 8:5, pages 463-466.
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G. Taylor. (1974) Comments on ‘a mechanism of the unexpected [110] slip observed in B.C.C. metals deformed at low temperatures’. Scripta Metallurgica 8:5, pages 459-461.
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