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The Philosophical Magazine: A Journal of Theoretical Experimental and Applied Physics
Series 8
Volume 27, 1973 - Issue 6
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Original Articles

Etude de la déformation plastique de monocristaux de niobium de haute pureté a basse température

Par L. P. Kubin Laboratoire d'Optique Electronique du C.N.R.S., 31055, Toulouse, Cedex, France
&
B. Jouffrey Laboratoire d'Optique Electronique du C.N.R.S., 31055, Toulouse, Cedex, France
Pages 1369-1385 | Received 13 Nov 1972, Published online: 20 Aug 2006

Citations (31)

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D. Caillard. (2009) TEM in situ straining experiments in Fe at low temperature. Philosophical Magazine Letters 89:8, pages 517-526.
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O. Khalfallah, M. Condat & L. Priester. (1993) Image force on a lattice dislocation due to a grain boundary in b.c.c. metals. Philosophical Magazine A 67:1, pages 231-250.
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M.P. Biget & G. Saada. (1989) Low-temperature plasticity of high-purity α-titanium single crystals. Philosophical Magazine A 59:4, pages 747-757.
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F. Guiu & M. Anglada. (1982) Cyclic deformation of Nb single crystals III. Temperature and strain-rate dependence of the cyclic flow stress. Philosophical Magazine A 46:6, pages 881-898.
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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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F. Louchet, L.P. Kubin & D. Vesely. (1979) In situ deformation of b.c.c. crystals at low temperatures in a high-voltage electron microscope Dislocation mechanisms and strain-rate equation. Philosophical Magazine A 39:4, pages 433-454.
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L.P. Kubin & F. Louchet. (1978) Description of low-temperature interstitial hardening of the b.c.c. lattice from in situ experiments. Philosophical Magazine A 38:2, pages 205-221.
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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 (23)

J.C. Stinville, M.A. Charpagne, R. Maaß, H. Proudhon, W. Ludwig, P.G. Callahan, F. Wang, I.J. BeyerleinM.P. EchlinT.M. Pollock. (2023) Insights into Plastic Localization by Crystallographic Slip from Emerging Experimental and Numerical Approaches. Annual Review of Materials Research 53:1, pages 275-317.
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Q. Rizzardi, C. McElfresh, G. Sparks, D. D. Stauffer, J. Marian & R. Maaß. (2022) Mild-to-wild plastic transition is governed by athermal screw dislocation slip in bcc Nb. Nature Communications 13:1.
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B. Douat, J. Bonneville, M. Drouet, L. Vernisse & C. Coupeau. (2020) Low temperature atomic-scale observations of slip traces in niobium. Scripta Materialia 183, pages 81-85.
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Benjamin Douat, Christophe Coupeau, Joël Bonneville, Michel Drouet, Loranne Vernisse & Ladislas Kubin. (2019) Atomic-scale insight into non-crystallographic slip traces in body-centred cubic crystals. Scripta Materialia 162, pages 292-295.
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D Caillard. (2010) TEM in situ straining experiments in Fe at low temperature. Journal of Physics: Conference Series 240, pages 012011.
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David Rodney. (2007) Activation enthalpy for kink-pair nucleation on dislocations: Comparison between static and dynamic atomic-scale simulations. Physical Review B 76:14.
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. 2003. Thermally Activated Mechanisms in Crystal Plasticity. Thermally Activated Mechanisms in Crystal Plasticity 159 224 .
M. Tang, L.P. Kubin & G.R. Canova. (1998) Dislocation mobility and the mechanical response of b.c.c. single crystals: A mesoscopic approach. Acta Materialia 46:9, pages 3221-3235.
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S. Farenc, D. Caillard & A. Couret. (1995) A new model for the peak of activation area of α titanium. Acta Metallurgica et Materialia 43:10, pages 3669-3678.
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G. Taylor. (1992) Thermally-activated deformation of BCC metals and alloys. Progress in Materials Science 36, pages 29-61.
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X. Caux, G. Coulon & B. Escaig. (1988) Influence of the degree of crosslinking on the plastic deformation behaviour of epoxy resins. Polymer 29:5, pages 808-813.
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F Ackermann, H Mughrabi & A Seeger. (1983) Temperature- and strain-rate dependence of the flow stress of ultrapure niobium single crystals in cyclic deformation. Acta Metallurgica 31:9, pages 1353-1366.
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P. Chomel & J.P. Cottu. (1982) Influence of substitutional elements on flow stress in iron at low temperature. Acta Metallurgica 30:8, pages 1481-1491.
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G. Fantozzi, C. Esnouf, W. Benoit & I.G. Ritchie. (1982) Internal friction and microdeformation due to the intrinsic properties of dislocations: The Bordoni relaxation. Progress in Materials Science 27:3-4, pages 311-451.
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W.M. Sherry & F. Prinz. (1980) The behavior of dislocations in lithium. Acta Metallurgica 28:7, pages 949-954.
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D.K. Bowen & G. Taylor. (1977) The deformation behaviour of dilute niobium-nitrogen alloys. Acta Metallurgica 25:4, pages 417-436.
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J. L. Farvacque, J. C. Doukhan & B. Escaig. (1976) The asymmetry and orientation dependence ofc-slip in tellurium. Physica Status Solidi (a) 38:1, pages 271-284.
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H. Matsui & H. Kimura. (1975) Anomalous {110} slip and the role of co-planar double slip in BCC metals. Scripta Metallurgica 9:9, pages 971-978.
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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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A. Boudet & L.P. Kubin. (1975) Exhaustion mechanisms in the Preyield domain of niobium single crystals at low temperatures. Journal de Physique 36:9, pages 823-833.
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F. H. Louchet & L. P. Kubin. (2020) In situ Tensile Experiments at Low Temperatures on Niobium Single Crystals by H.V.E.M. . Proceedings, annual meeting, Electron Microscopy Society of America 33, pages 58-59.
Crossref
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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