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Philosophical Magazine Volume 86, 2006 - Issue 11
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Original Articles

Generation of dislocation loops in deformed nanocrystalline materials

M. Yu. Gutkin Institute of Problems of Mechanical Engineering, Russian Academy of Sciences, Bolshoj 61, Vasil. Ostrov, St. Petersburg 199178, Russia
&
I. A. Ovid’ko Institute of Problems of Mechanical Engineering, Russian Academy of Sciences, Bolshoj 61, Vasil. Ostrov, St. Petersburg 199178, RussiaCorrespondence[email protected]
Pages 1483-1511 | Received 15 May 2005, Accepted 26 May 2005, Published online: 21 Feb 2007

Citations (16)

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Read on this site (3)

M.Yu. Gutkin, I.A. Ovid’ko & N.V. Skiba. (2008) Crack-stimulated generation of deformation twins in nanocrystalline metals and ceramics. Philosophical Magazine 88:8, pages 1137-1151.
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I. A. Ovid'ko & A. G. Sheinerman. (2007) Generation of cracks at triple junctions of grain boundaries in mechanically loaded polysilicon. Philosophical Magazine 87:27, pages 4181-4195.
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I. A. Ovid'ko & A. G. Sheinerman. (2006) Nanovoid generation due to intergrain sliding in nanocrystalline materials. Philosophical Magazine 86:23, pages 3487-3502.
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Articles from other publishers (13)

K.N. Mikaelyan & A.G. Sheinerman. (2022) Transfer of dislocation slip through grain boundaries in metal-graphene nanocomposites. International Journal of Solids and Structures 241, pages 111515.
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Sergey V. Bobylev, Mikhail Yu. Gutkin, Alexander G. Sheinerman & Nikolay V. Skiba. 2022. Mechanics and Control of Solids and Structures. Mechanics and Control of Solids and Structures 91 114 .
S.V. Bobylev. (2021) Structure and Properties of Pseudo-Graphenes. Review. Reviews on advanced materials and technologies 3:1, pages 29-41.
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E.N. Borodin, A.E. Mayer & M.Yu. Gutkin. (2020) Coupled model for grain rotation, dislocation plasticity and grain boundary sliding in fine-grained solids. International Journal of Plasticity 134, pages 102776.
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N.V. Skiba. (2020) Mechanisms of Deformation Twinning Near Crack Tips in Nanostructured Materials. Reviews on advanced materials and technologies 2:3, pages 56-63.
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Ting ChenRam Shenoy, Indranil Roy & Jing Zhou. (2019) Synthesis of Disruptive Technologies Leads to Design of Flowable Sensors for Reservoir Monitoring, Passively Retrievable Through Carrier Buoyancy. Synthesis of Disruptive Technologies Leads to Design of Flowable Sensors for Reservoir Monitoring, Passively Retrievable Through Carrier Buoyancy.
I A Ovid’ko & A G Sheinerman. (2014) Competition between plastic deformation and fracture processes in metal–graphene layered composites. Journal of Physics D: Applied Physics 47:49, pages 495302.
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ZengSheng Ma, ZhaoFeng Zhou, YongLi Huang, YiChun Zhou & ChangQing Sun. (2012) Mesoscopic superelasticity, superplasticity, and superrigidity. Science China Physics, Mechanics and Astronomy 55:6, pages 963-979.
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M.Y. Gutkin. 2011. Nanostructured Metals and Alloys. Nanostructured Metals and Alloys 329 374 .
S. V. Bobylev, M. Yu. Gutkin & I. A. Ovid’ko. (2008) Plastic deformation transfer through the amorphous intercrystallite phase in nanoceramics. Physics of the Solid State 50:10, pages 1888-1894.
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M. Yu. Gutkin & I. A. Ovid’ko. (2008) Homogeneous nucleation of glide dislocation loops in nanoceramics. Physics of the Solid State 50:4, pages 655-664.
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Carl Koch, Ilya Ovid'ko, Sudipta Seal & Stan Veprek. 2009. Structural Nanocrystalline Materials. Structural Nanocrystalline Materials 204 316 .
S. V. Bobylev, M. Yu. Gutkin & I. A. Ovid’ko. (2006) Generation of glide split-dislocation half-loops by grain boundaries in nanocrystalline Al. Physics of the Solid State 48:8, pages 1495-1505.
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