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Philosophical Magazine A Volume 80, 2000 - Issue 7
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Original Articles

Specific dislocation multiplication mechanisms and mechanical properties in nanoscaled multilayers: The example of pearlite

M. Janecek Laboratoire de Thermodynamique et Physico-chimie Métallurgiques Unité Mixte de Recherche associée an CNRS 5614, Institut National Polytechnique de Grenoble, Université Joseph Fourier, BP 75, 38402, St Martin d'Hères, France; Department of Metal Physics, Charles University, CZ 12116, Prague 2, Czech Republic
,
F. Louchet Laboratoire de Thermodynamique et Physico-chimie Métallurgiques Unité Mixte de Recherche associée an CNRS 5614, Institut National Polytechnique de Grenoble, Université Joseph Fourier, BP 75, 38402, St Martin d'Hères, France
,
B. Doisneau-Cottignies Laboratoire de Thermodynamique et Physico-chimie Métallurgiques Unité Mixte de Recherche associée an CNRS 5614, Institut National Polytechnique de Grenoble, Université Joseph Fourier, BP 75, 38402, St Martin d'Hères, France
,
Y. Bréchet Laboratoire de Thermodynamique et Physico-chimie Métallurgiques Unité Mixte de Recherche associée an CNRS 5614, Institut National Polytechnique de Grenoble, Université Joseph Fourier, BP 75, 38402, St Martin d'Hères, France
&
N. Guelton Institut de Recherches de la Sidérurgie Francaise, BP 30320, 57283, Maizières les Metz, France
Pages 1605-1619 | Received 19 Dec 1998, Accepted 03 Aug 1999, Published online: 11 Aug 2009

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Xiaodan Zhang, Niels Hansen, Andrew Godfrey & Xiaoxu Huang. (2018) Structure and strength of sub-100 nm lamellar structures in cold-drawn pearlitic steel wire. Materials Science and Technology 34:7, pages 794-808.
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X. D. Zhang, A. Godfrey, W. Liu & Q. Liu. (2011) Study on dislocation slips in ferrite and deformation of cementite in cold drawn pearlitic steel wires from medium to high strain. Materials Science and Technology 27:2, pages 562-567.
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I.A. Ovid'ko. (2005) Deformation and Diffusion Modes in Nanocrystalline Materials. International Materials Reviews 50:2, pages 65-82.
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L. Thilly, M. Véron, O. Ludwig, F. Lecouturier, J.P. Peyrade & S. Askénazy. (2002) High-strength materials: in-situ investigations of dislocation behaviour in Cu-Nb multifilamentary nanostructured composites. Philosophical Magazine A 82:5, pages 925-942.
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Articles from other publishers (32)

Yujiao Li, Shoji Goto, Aleksander Kostka & Michael Herbig. (2023) Local measurement of geometrically necessary dislocation densities and their strengthening effect in ultra-high deformed pearlite. Materials Characterization 203, pages 113132.
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M. W. Kapp, A. Hohenwarter, A. Bachmaier, T. Müller & R. Pippan. (2023) SPD Deformation of Pearlitic, Bainitic and Martensitic Steels. MATERIALS TRANSACTIONS 64:7, pages 1353-1363.
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Po-Yen Tung, Xuyang Zhou, Lutz Morsdorf & Michael Herbig. (2022) Formation mechanism of brown etching layers in pearlitic rail steel. Materialia 26, pages 101625.
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P.-Y. Tung, X. Zhou, D. Mayweg, L. Morsdorf & M. Herbig. (2021) Under-stoichiometric cementite in decomposing binary Fe-C pearlite exposed to rolling contact fatigue. Acta Materialia 216, pages 117144.
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Jaemin Kim, Hadi Ghaffarian & Keonwook Kang. (2021) The lattice dislocation trapping mechanism at the ferrite/cementite interface in the Isaichev orientation relationship. Scientific Reports 11:1.
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Kei Saito & Kenichi Takai. (2020) Hydrogen Desorption Behavior Trapped in Various Microstructures of High-Strength Steels Using Thermal Desorption Analysis. Metallurgical and Materials Transactions A 52:2, pages 531-543.
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Nicolas Guelton & Marc François. (2020) Strain-Induced Dissolution of Cementite in Cold-Drawn Pearlitic Steel Wires. Metallurgical and Materials Transactions A 51:4, pages 1602-1613.
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Nicolas Guelton & Marc François. (2020) Microstructure–Property Relationship in Cold-Drawn Pearlitic Steel Wires. Metallurgical and Materials Transactions A 51:4, pages 1543-1566.
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Jaemin Kim, Hadi Ghaffarian, Seunghwa Ryu & Keonwook Kang. (2020) The effect of the misfit dislocation on the in-plane shear response of the ferrite/cementite interface. Computational Materials Science 173, pages 109375.
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Matthew Guziewski, Shawn P. Coleman & Christopher R. Weinberger. (2019) Atomistic investigation into interfacial effects on the plastic response and deformation mechanisms of the pearlitic microstructure. Acta Materialia 180, pages 287-300.
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Frances M. Ross & Andrew M. Minor. 2019. Springer Handbook of Microscopy. Springer Handbook of Microscopy 101 187 .
Thomas Schenk, Roxane Trehorel, Laura Dirand & Alain Jacques. (2018) Dislocation Densities and Velocities within the γ Channels of an SX Superalloy during In Situ High-Temperature Creep Tests. Materials 11:9, pages 1527.
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Matthew Guziewski, Shawn P. Coleman & Christopher R. Weinberger. (2018) Atomistic investigation into the mechanical properties of the ferrite-cementite interface: The Bagaryatskii orientation. Acta Materialia 144, pages 656-665.
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B. Wu, N. Vajragupta, J. Lian, U. Hangen, P. Wechsuwanmanee & S. Münstermann. (2017) Prediction of plasticity and damage initiation behaviour of C45E + N steel by micromechanical modelling. Materials & Design 121, pages 154-166.
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Yohei Yasuda & Tetsuya Ohashi. (2017) Crystal Plasticity Analysis Considering Dislocations’ Behavior in Ferrite/Cementite Lamellar Structure. ISIJ International 57:3, pages 573-580.
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A. Lamontagne, V. Massardier, X. Sauvage, X. Kléber & D. Mari. (2016) Evolution of carbon distribution and mechanical properties during the static strain ageing of heavily drawn pearlitic steel wires. Materials Science and Engineering: A 667, pages 115-124.
Crossref
M.W. Kapp, A. Hohenwarter, S. Wurster, B. Yang & R. Pippan. (2016) Anisotropic deformation characteristics of an ultrafine- and nanolamellar pearlitic steel. Acta Materialia 106, pages 239-248.
Crossref
Yohei Yasuda & Tetsuya Ohashi. (2016) Crystal Plasticity Analyses of Scale Dependent Mechanical Properties of Ferrite/Cementite Lamellar Structure Model in Pearlite Steel Wire with Bagaryatsky or Pitsch-Petch Orientation Relationship. ISIJ International 56:12, pages 2320-2326.
Crossref
Nobuo Nakada, Norimitsu Koga, Yuki Tanaka, Toshihiro Tsuchiyama, Setsuo Takaki & Masaharu Ueda. (2015) Strengthening of Pearlitic Steel by Ferrite/Cementite Elastic Misfit Strain. ISIJ International 55:9, pages 2036-2038.
Crossref
S. V. Bobylev, N. F. Morozov & I. A. Ovid’ko. (2011) Cooperative grain boundary sliding and nanograin nucleation process in nanocrystalline, ultrafine-grained, and polycrystalline solids. Physical Review B 84:9.
Crossref
Y.J. Li, P. Choi, C. Borchers, S. Westerkamp, S. Goto, D. Raabe & R. Kirchheim. (2011) Atomic-scale mechanisms of deformation-induced cementite decomposition in pearlite. Acta Materialia 59:10, pages 3965-3977.
Crossref
Y.J. Li, P. Choi, C. Borchers, Y.Z. Chen, S. Goto, D. Raabe & R. Kirchheim. (2011) Atom probe tomography characterization of heavily cold drawn pearlitic steel wire. Ultramicroscopy 111:6, pages 628-632.
Crossref
Dierk Raabe, Pyuck-Pa Choi, Yujiao Li, Aleksander Kostka, Xavier Sauvage, Florence Lecouturier, Kazuhiro Hono, Reiner Kirchheim, Reinhard Pippan & David Embury. (2011) Metallic composites processed via extreme deformation: Toward the limits of strength in bulk materials. MRS Bulletin 35:12, pages 982-991.
Crossref
S. V. Bobylev, N. F. Morozov & I. A. Ovid’ko. (2010) Cooperative Grain Boundary Sliding and Migration Process in Nanocrystalline Solids. Physical Review Letters 105:5.
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S. Scudino, P. Donnadieu, K.B. Surreddi, K. Nikolowski, M. Stoica & J. Eckert. (2009) Microstructure and mechanical properties of Laves phase-reinforced Fe–Zr–Cr alloys. Intermetallics 17:7, pages 532-539.
Crossref
S. Allain & O. Bouaziz. (2008) Microstructure based modeling for the mechanical behavior of ferrite–pearlite steels suitable to capture isotropic and kinematic hardening. Materials Science and Engineering: A 496:1-2, pages 329-336.
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B. Fournier, M. Sauzay, C. Caës, M. Mottot, M. Noblecourt & A. Pineau. (2006) Analysis of the hysteresis loops of a martensitic steel. Materials Science and Engineering: A 437:2, pages 197-211.
Crossref
François Louchet. (2006) From individual dislocation motion to collective behaviour. Journal of Materials Science 41:9, pages 2641-2646.
Crossref
Xiaohua Hu, Paul Van Houtte, Martin Liebeherr, Artur Walentek, Marc Seefeldt & Hendrik Vandekinderen. (2006) Modeling work hardening of pearlitic steels by phenomenological and Taylor-type micromechanical models. Acta Materialia 54:4, pages 1029-1040.
Crossref
Jean-Hubert Schmitt. (2005) Durcissement par seconde phase dans les aciers. Mécanique & Industries 5:4, pages 451-459.
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A. Phelippeau, S. Pommier, C. Prioul & M. Clavel. 2003. Nanostructures: Synthesis, Functional Properties and Applications. Nanostructures: Synthesis, Functional Properties and Applications 251 270 .
F. Louchet, B. Doisneau‐Cottignies, O. Calonne, A. Fraczkiewicz, M. Janecek & N. Guelton. (2001) Is plastic flow always controlled by dislocation mobility? An answer from in situ transmission electron microscopy straining tests . Journal of Microscopy 203:1, pages 84-89.
Crossref

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