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Philosophical Magazine A Volume 80, 2000 - Issue 11
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Original Articles

Mechanism of one-dimensional glide of self-interstitial atom clusters in α-iron

A. V. Barashev Materials Science and Engineering, Department of Engineering, The University of Liverpool, Brownlow Hill, Liverpool, L69 3GH, England
,
Yu. N. Osetsky Materials Science and Engineering, Department of Engineering, The University of Liverpool, Brownlow Hill, Liverpool, L69 3GH, England
&
D. J. Bacon Materials Science and Engineering, Department of Engineering, The University of Liverpool, Brownlow Hill, Liverpool, L69 3GH, England
Pages 2709-2720 | Received 17 Jun 1999, Accepted 24 Jan 2000, Published online: 11 Aug 2009

Citations (38)

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Read on this site (5)

D.J. Bacon & Yu.N. Osetsky. (2009) Mechanisms of hardening due to copper precipitates in α-iron. Philosophical Magazine 89:34-36, pages 3333-3349.
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D. Terentyev, L. Malerba & A. V. Barashev. (2008) Modelling the diffusion of self-interstitial atom clusters in Fe–Cr alloys. Philosophical Magazine 88:1, pages 21-29.
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M. A. Puigví, N. de Diego, A. Serra, Yu. N. Osetsky & D. J. Bacon. (2007) On the interaction between a vacancy and self-interstitial atom clusters in metals. Philosophical Magazine 87:23, pages 3501-3517.
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S. L. Dudarev . (2003) Coherent motion of interstitial defects in a crystalline material . Philosophical Magazine 83:31-34, pages 3577-3597.
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M. A. Puigvi, Yu.N. Osetsky & A. Serra. (2003) Point-defect clusters and dislocation loops in bcc metals: Continuum and atomistic study. Philosophical Magazine 83:7, pages 857-871.
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Articles from other publishers (33)

Xinran Zhou, Annie Barnett, Emily H. Mang, Michael L. Falk, Mitra L. Taheri & Jaime Marian. (2024) Self-interstitial atom properties in Nb–Mo–Ta–W alloys. Computational Materials Science 234, pages 112765.
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C.Y. Hung, G. Vetterick, E. Hopkins, J.K. Balwin, P. Baldo, M.A. Kirk, A. Misra & M.L. Taheri. (2022) Insight into defect cluster annihilation at grain boundaries in an irradiated nanocrystalline iron. Journal of Nuclear Materials 566, pages 153761.
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L. Malerba, N. Anento, J.P. Balbuena, C.S. Becquart, N. Castin, M.J. Caturla, C. Domain, C. Guerrero, C.J. Ortiz, B. Pannier & A. Serra. (2021) Physical mechanisms and parameters for models of microstructure evolution under irradiation in Fe alloys – Part I: Pure Fe. Nuclear Materials and Energy 29, pages 101069.
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Kazuto Arakawa & Michael P. Short. 2019. Handbook of Materials Modeling. Handbook of Materials Modeling 1 14 .
Kazuto Arakawa & Michael P. Short. 2020. Handbook of Materials Modeling. Handbook of Materials Modeling 2503 2516 .
Kazuto Arakawa & Michael P. Short. 2019. Handbook of Materials Modeling. Handbook of Materials Modeling 1 14 .
Jinlong Wang, Liang-Liang Niu, Xiaolin Shu & Ying Zhang. (2015) Stick–slip behavior identified in helium cluster growth in the subsurface of tungsten: effects of cluster depth. Journal of Physics: Condensed Matter 27:39, pages 395001.
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Giridhar Nandipati, Wahyu Setyawan, Howard L. Heinisch, Kenneth J. Roche, Richard J. Kurtz & Brian D. Wirth. (2015) Displacement cascades and defect annealing in tungsten, Part III: The sensitivity of cascade annealing in tungsten to the values of kinetic parameters. Journal of Nuclear Materials 462, pages 345-353.
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Josh Kacher, Bai Cui & Ian M. Robertson. (2015) In situ and tomographic characterization of damage and dislocation processes in irradiated metallic alloys by transmission electron microscopy. Journal of Materials Research 30:9, pages 1202-1213.
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Dmitry Terentyev, Napoleón Anento, Anna Serra, C.J. Ortiz & E.E. Zhurkin. (2015) Interaction of He and He–V clusters with self-interstitials and dislocations defects in bcc Fe. Journal of Nuclear Materials 458, pages 11-21.
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Y. Osetsky, N. Anento, A. Serra & D. Terentyev. (2015) The role of nickel in radiation damage of ferritic alloys. Acta Materialia 84, pages 368-374.
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Kazuto Arakawa, Takafumi Amino, Minoru Isshiki, Kouji Mimura, Masahito Uchikoshi & Hirotaro Mori. (2014) One-Dimensional Glide Motion of “Naked” Nanoscale 1/2^|^lt;111^|^gt; Prismatic Dislocation Loops in Iron. ISIJ International 54:10, pages 2421-2424.
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L. Malerba, G. Bonny, D. Terentyev, E.E. Zhurkin, M. Hou, K. Vörtler & K. Nordlund. (2013) Microchemical effects in irradiated Fe–Cr alloys as revealed by atomistic simulation. Journal of Nuclear Materials 442:1-3, pages 486-498.
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K. Arakawa, T. Amino & H. Mori. (2011) Direct observation of the coalescence process between nanoscale dislocation loops with different Burgers vectors. Acta Materialia 59:1, pages 141-145.
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N Anento, A Serra & Yu N Osetsky. (2010) Atomistic study of multimechanism diffusion by self-interstitial defects in α-Fe. Modelling and Simulation in Materials Science and Engineering 18:2, pages 025008.
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D. Terentyev, M. Klimenkov & L. Malerba. (2009) Confinement of motion of interstitial clusters and dislocation loops in BCC Fe–Cr alloys. Journal of Nuclear Materials 393:1, pages 30-35.
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P. M. Derlet, D. Nguyen-Manh & S. L. Dudarev. (2007) Multiscale modeling of crowdion and vacancy defects in body-centered-cubic transition metals. Physical Review B 76:5.
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Kazuhito Ohsawa & Eiichi Kuramoto. (2007) Thermally activated transport of a dislocation loop within an elastic model. Journal of Nuclear Materials 367-370, pages 327-331.
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K. Sato, T. Yoshiie & Q. Xu. (2007) One dimensional motion of interstitial clusters in Ni–Au alloy. Journal of Nuclear Materials 367-370, pages 382-385.
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D. A. Terentyev, L. Malerba & M. Hou. (2007) Dimensionality of interstitial cluster motion in bcc-Fe. Physical Review B 75:10.
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K. Tapasa, A.V. Barashev, D.J. Bacon & Yu.N. Osetsky. (2007) Computer simulation of the interaction of carbon atoms with self-interstitial clusters in α-iron. Journal of Nuclear Materials 361:1, pages 52-61.
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Michio Matsushita, Koichi Sato, Toshimasa Yoshiie & Qiu Xu. (2007) Validity of Activation Energy for Vacancy Migration Obtained by Integrating Force–Distance Curve. MATERIALS TRANSACTIONS 48:9, pages 2362-2364.
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Katsuyuki Kusunoki. (2006) Solitonic Migration and Collisions of Self-Interstitial Defects in BCC Iron. MATERIALS TRANSACTIONS 47:11, pages 2658-2662.
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G.A. Cottrell, S.L. Dudarev & R.A. Forrest. (2004) Immobilization of interstitial loops by substitutional alloy and transmutation atoms in irradiated metals. Journal of Nuclear Materials 325:2-3, pages 195-201.
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M.A Puigvi, Yu.N Osetsky & A Serra. (2004) Interactions between vacancy and glissile interstitial clusters in iron and copper. Materials Science and Engineering: A 365:1-2, pages 101-106.
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D.J Bacon & Yu.N Osetsky. (2004) Multiscale modelling of radiation damage in metals: from defect generation to material properties. Materials Science and Engineering: A 365:1-2, pages 46-56.
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M. Samaras, P. M. Derlet, H. Van Swygenhoven & M. Victoria. (2003) Movement of interstitial clusters in stress gradients of grain boundaries. Physical Review B 68:22.
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D.J Bacon, Yu.N Osetsky, R Stoller & R.E Voskoboinikov. (2003) MD description of damage production in displacement cascades in copper and α-iron. Journal of Nuclear Materials 323:2-3, pages 152-162.
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Yu.N Osetsky & D.J Bacon. (2003) Atomic-scale modelling of primary damage and properties of radiation defects in metals. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 202, pages 31-43.
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Yu.N. Osetsky, D.J. Bacon, B.N. Singh & B. Wirth. (2002) Atomistic study of the generation, interaction, accumulation and annihilation of cascade-induced defect clusters. Journal of Nuclear Materials 307-311, pages 852-861.
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J. Marian, B. D. Wirth, A. Caro, B. Sadigh, G. R. Odette, J. M. Perlado & T. Diaz de la Rubia. (2002) Dynamics of self-interstitial cluster migration in pure α-Fe and Fe-Cu alloys. Physical Review B 65:14.
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N. de Diego, Y. N. Osetsky & D. J. Bacon. (2002) Mobility of interstitial clusters in alpha-zirconium. Metallurgical and Materials Transactions A 33:3, pages 783-789.
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D. J. Bacon & V. Vitek. (2002) Atomic-scale modeling of dislocations and related properties in the hexagonal-close-packed metals. Metallurgical and Materials Transactions A 33:3, pages 721-733.
Crossref

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