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Philosophical Magazine A Volume 51, 1985 - Issue 5
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Original Articles

In situ TEM observations of the cyclic dislocation behaviour in persistent slip bands of copper single crystals

J. Lepinoux Laboratoire de Métallurgie Physique (L.A. 131 CNRS), 40 Av. du Recteur Pineau, Faculté.des Sciences, 86022, Poitiers, France
&
L. P. Kubin Laboratoire de Métallurgie Physique (L.A. 131 CNRS), 40 Av. du Recteur Pineau, Faculté.des Sciences, 86022, Poitiers, France
Pages 675-696 | Received 12 Jun 1984, Accepted 19 Nov 1984, Published online: 01 Dec 2006

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Read on this site (3)

C. Erel, G. Po & N. Ghoniem. (2017) Dependence of hardening and saturation stress in persistent slip bands on strain amplitude during cyclic fatigue loading. Philosophical Magazine 97:32, pages 2947-2970.
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Abdellatif Oueldennaoua, Rafik Allem, Amand George & Jean-Pierre Michel. (1988) On the yield point of floating-zone silicon single crystals II. A quantitative analysis of the dislocation structure at the lower yield point. Philosophical Magazine A 57:1, pages 51-77.
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J. Lépinoux & L.P. Kubin. (1986) Dislocation mechanisms and steady states in the cyclic deformation of facecentred cubic crystals. Philosophical Magazine A 54:5, pages 631-649.
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Articles from other publishers (39)

Mehran Monavari, Stefan Sandfeld & Michael Zaiser. (2016) Continuum representation of systems of dislocation lines: A general method for deriving closed-form evolution equations. Journal of the Mechanics and Physics of Solids 95, pages 575-601.
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R. Liu, Z.J. Zhang & Z.F. Zhang. (2016) The criteria for microstructure evolution of Cu and Cu-Al alloys induced by cyclic loading. Materials Science and Engineering: A 666, pages 123-138.
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Q. Yu, M. Legros & A.M. Minor. (2015) In situ TEM nanomechanics . MRS Bulletin 40:1, pages 62-70.
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. 2015. Fundamentals of Creep in Metals and Alloys. Fundamentals of Creep in Metals and Alloys 301 332 .
Marc Legros. (2014) In situ mechanical TEM: Seeing and measuring under stress with electrons. Comptes Rendus Physique 15:2-3, pages 224-240.
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M.E. Kassner, P. Geantil & L.E. Levine. (2013) Long range internal stresses in single-phase crystalline materials. International Journal of Plasticity 45, pages 44-60.
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Peter Geantil, Benoit Devincre & Michael E. Kassner. 2013. Advanced Materials Modelling for Structures. Advanced Materials Modelling for Structures 177 187 .
M. Sauzay & L.P. Kubin. (2011) Scaling laws for dislocation microstructures in monotonic and cyclic deformation of fcc metals. Progress in Materials Science 56:6, pages 725-784.
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P. Li, S.X. Li, Z.G. Wang & Z.F. Zhang. (2011) Fundamental factors on formation mechanism of dislocation arrangements in cyclically deformed fcc single crystals. Progress in Materials Science 56:3, pages 328-377.
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Marc C. Fivel. (2008) Discrete dislocation dynamics: an important recent break-through in the modelling of dislocation collective behaviour. Comptes Rendus Physique 9:3-4, pages 427-436.
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. 2008. Fundamentals of Creep in Metals and Alloys. Fundamentals of Creep in Metals and Alloys 261 288 .
Marc Fivel. 2008. Multiscale Modeling of Heterogenous Materials. Multiscale Modeling of Heterogenous Materials 17 36 .
Yves Bréchet & Christopher Hutchinson. 2006. Solid State Physics - Advances in Research and Applications. Solid State Physics - Advances in Research and Applications 181 287 .
M.E Kassner. (2004) Taylor hardening in five-power-law creep of metals and Class M alloys. Acta Materialia 52:1, pages 1-9.
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. 2004. Fundamentals of Creep in Metals and Alloys. Fundamentals of Creep in Metals and Alloys 243 267 .
M.E. Kassner & K. Kyle. 2003. Nano and Microstructural Design of Advanced Materials. Nano and Microstructural Design of Advanced Materials 255 271 .
M. E. Kassner, M. T. Pérez-Prado, M. Long & K. S. Vecchio. (2002) Dislocation microstructure and internal-stress measurements by convergent-beam electron diffraction on creep-deformed Cu and Al. Metallurgical and Materials Transactions A 33:2, pages 311-317.
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M.E Kassner, M.T Perez-Prado & K.S Vecchio. (2001) Internal stress measurements by convergent beam electron diffraction on creep-deformed Al single crystals. Materials Science and Engineering: A 319-321, pages 730-734.
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M.E Kassner, M.-T Pérez-Prado, K.S Vecchio & M.A Wall. (2000) Determination of internal stresses in cyclically deformed copper single crystals using convergent-beam electron diffraction and dislocation dipole separation measurements. Acta Materialia 48:17, pages 4247-4254.
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M.E Kassner & M.-T Pérez-Prado. (2000) Five-power-law creep in single phase metals and alloys. Progress in Materials Science 45:1, pages 1-102.
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M. E. Kassner & M. A. Wall. (1999) Microstructure and mechanisms of cyclic deformation in aluminum single crystals at 77 K: Part II. Edge dislocation dipole heights. Metallurgical and Materials Transactions A 30:13, pages 777-779.
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M. E. Kassner & M. A. Wall. (1999) Microstructure and mechanisms of cyclic deformation in aluminum single crystals at 77 K: Part II. Edge dislocation dipole heights. Metallurgical and Materials Transactions A 30:3, pages 777-779.
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T. Wider, S. Hansen, U. Holzwarth & K. Maier. (1998) Sensitivity of positron annihilation to plastic deformation. Physical Review B 57:9, pages 5126-5139.
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M.E. Kassner. (1997) In-situ cyclic deformation of Al single crystals in the HVEM and the concept of internal backstresses. Materials Science and Engineering: A 234-236, pages 110-114.
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M. E. Kassner, M. A. Wall & M. A. Delos-Reyes. (1997) Microstructure and mechanisms of cyclic deformation of aluminum single crystals at 77 K. Metallurgical and Materials Transactions A 28:3, pages 595-609.
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R. Richter & H.-J. Burmeister. (1997) Effects of grain boundary properties on intergranular cracking in fatigued f.c.c. metals. Acta Materialia 45:2, pages 715-725.
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M. Hecker & H.-J. Burmeister. (1996) Strain Localization and Internal Stress Fields in Persistent Slip Bands. Physica Status Solidi (a) 158:1, pages 87-100.
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U. Essmann & K. Differt. (1996) Dynamic model of the wall structure in persistent slip bands of fatigued metals II. The wall spacing and the temperature dependence of the yield stress in saturation. Materials Science and Engineering: A 208:1, pages 56-68.
Crossref
Hans-Jürgen Christ. 1996. Fatigue and Fracture. Fatigue and Fracture 73 95 .
M. A. Wall & M. E. Kassner. (2020) In situ reversed deformation of aluminum single crystals in the HVEM: a new X-Y straining stage. Proceedings, annual meeting, Electron Microscopy Society of America 53, pages 248-249.
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M.R. Kalantary, T.E. Chung & R.G. Faulkner. (1994) Mechanism of crack propagation in low cycle fatigue of type 316L stainless steel within the temperature range 20–300 °C. Materials Science and Engineering: A 189:1-2, pages 85-94.
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U. Holzwarth & U. E�mann. (1993) The evolution of persistent slip bands in copper single crystals. Applied Physics A Solids and Surfaces 57:2, pages 131-141.
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M.E. Kassner, M.A. Wall & A.W. Sleeswyk. (1991) Some observations during in-situ reversed deformation of aluminum single crystals in the HVEM using the X-Y method. Scripta Metallurgica et Materialia 25:7, pages 1701-1706.
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R. Fougeres & F. Sidoroff. (1989) The evolutive masing model and its application to cyclic plasticity and ageing. Nuclear Engineering and Design 114:3, pages 273-284.
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H. Mughrabi. (1988) Dislocation clustering and long-range internal stresses in monotonically and cyclically deformed metal crystals. Revue de Physique Appliquée 23:4, pages 367-379.
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H. Mughrabi. (1987) The long-range internal stress field in the dislocation wall structure of persistent slip bands. Physica Status Solidi (a) 104:1, pages 107-120.
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Michael E. Kassner, Andre W. Sleeswyk & Charles J. Echer. (2005) Cyclic X‐Y mechanical tests: A new method to perform in situ reversed‐deformation experiments in the high‐voltage electron microscope. Journal of Electron Microscopy Technique 5:2, pages 189-198.
Crossref
A. Vincent, S. Djeroud & R. Fougeres. 1987. Nondestructive Characterization of Materials II. Nondestructive Characterization of Materials II 491 499 .
J. Chicois, R. Fougeres, G. Guichon, A. Hamel & A. Vincent. (1986) Mobilite des dislocations lors de la sollicitation cyclique de l'aluminium polycristallin. Acta Metallurgica 34:11, pages 2157-2170.
Crossref

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