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The Philosophical Magazine: A Journal of Theoretical Experimental and Applied Physics
Series 8
Volume 21, 1970 - Issue 172
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Original Articles

The mechanism of slip band growth in irradiated crystals

M. J. Makin Metallurgy Division, A.E.R.E., Harwell, Berks
Pages 815-817 | Received 12 Jul 1969, Published online: 13 Sep 2006

Citations (20)

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Read on this site (5)

A. Arsenlis , B. D. Wirth & M. Rhee. (2004) Dislocation density-based constitutive model for the mechanical behaviour of irradiated Cu. Philosophical Magazine 84:34, pages 3617-3635.
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L.M. Howe. (1974) Irradiation hardening and annealing in copper at high neutron fluences. Radiation Effects 23:3, pages 181-195.
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J.V. Sharp. (1972) Correlation between cleared channels and surface slip steps in neutron irradiated copper crystals. Radiation Effects 14:1-2, pages 71-75.
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C.E. Coleman, D. Mills & J. van der Kuur. (1972) Deformation parameters of neutron irradiated Zircaloy-4 at 300°C. Canadian Metallurgical Quarterly 11:1, pages 91-100.
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G.B. Gibbs. (1970) Thermodynamic systems for the analysis of dislocation glide. The Philosophical Magazine: A Journal of Theoretical Experimental and Applied Physics 22:178, pages 701-706.
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Articles from other publishers (15)

Abdalrhaman Koko, Elsiddig Elmukashfi, Thorsten H. Becker, Phani S. Karamched, Angus J. Wilkinson & T. James Marrow. (2022) In situ characterisation of the strain fields of intragranular slip bands in ferrite by high-resolution electron backscatter diffraction. Acta Materialia 239, pages 118284.
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Fabien Onimus, Sylvie Doriot & J.-L. Béchade. 2020. Comprehensive Nuclear Materials. Comprehensive Nuclear Materials 1 56 .
Julie Drouet, Laurent Dupuy, Fabien Onimus, Frédéric Mompiou, Simon Perusin & Antoine Ambard. (2014) Dislocation dynamics simulations of interactions between gliding dislocations and radiation induced prismatic loops in zirconium. Journal of Nuclear Materials 449:1-3, pages 252-262.
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F. Onimus, L. Dupuy & F. Mompiou. (2012) In situ TEM observation of interactions between gliding dislocations and prismatic loops in Zr-ion irradiated zirconium alloys. Progress in Nuclear Energy 57, pages 77-85.
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F. Onimus & J.L. Béchade. 2012. Comprehensive Nuclear Materials. Comprehensive Nuclear Materials 1 31 .
Gerhard Kroeger, Harald Godon & Hartmut Neuhäuser. (2011) On slip band growth in neutron-irradiated copper single crystals. Journal of the Mechanical Behaviour of Materials 20:1-3, pages 21-28.
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Sadakichi Kitajima, Kazutoshi Shinohara & Masanori Kutsuwada. (1995) Slip-Band Formation and Dislocation Kinetics in the Stage I Deformation of Neutron-Irradiated Copper Single Crystals. Materials Transactions, JIM 36:5, pages 626-631.
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A. Luft. (1991) Microstructural processes of plastic instabilities in strengthened metals. Progress in Materials Science 35:2, pages 97-204.
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Leopold Buchinger, Ben Da Yan & Campbell Laird. (1985) Interpretation of cyclic deformation on the basis of strain avalanches. Materials Science and Engineering 70, pages 161-168.
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H. Godon, H.‐H. Potthoff & H. Neuhäuser. (2006) Slip band growth and dislocation velocities in thin flat crystals of n‐irradiated Cu and Cu‐30% Zn. Crystal Research and Technology 19:3, pages 373-385.
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K. Shinohara, S. Kitajima & H. Kurishita. 1982. Strength of Metals and Alloys (ICSMA 6). Strength of Metals and Alloys (ICSMA 6) 95 100 .
H. Neuhäuser. 1979. Strength of Metals and Alloys. Strength of Metals and Alloys 1531 1550 .
R. Rodloff & H. Neuhäuser. (1978) Mean velocity of edge and screw dislocation groups in neutron-irradiated copper single crystals. Physica Status Solidi (a) 49:2, pages 445-454.
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J.V Sharp. (1974) Deformation of neutron irradiated copper alloys. Acta Metallurgica 22:4, pages 449-457.
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H Neuhäuser & R Rodloff. (1974) Study of slip band development on neutron-irradiated copper single crystals by high speed cinematography. Acta Metallurgica 22:3, pages 375-384.
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