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Philosophical Magazine A Volume 81, 2001 - Issue 7
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Original Articles

A dislocation-based analysis of strain history effects in ice

David. M. Cole US Army Cold Regions Research and Engineering Laboratory, Hanover, New Hampshire, USA
&
Glenn. D. Durell US Army Cold Regions Research and Engineering Laboratory, Hanover, New Hampshire, USA
Pages 1849-1872 | Received 06 Dec 1999, Accepted 20 Oct 2000, Published online: 05 Aug 2009

Citations (29)

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Read on this site (1)

M. Song, D. M. Cole & I. Baker. (2006) Investigation of Newtonian creep in polycrystalline ice. Philosophical Magazine Letters 86:12, pages 763-771.
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Articles from other publishers (28)

Giuseppe Mitri. (2023) Ice dynamic recrystallization within Europa's ice shell: Implications for solid-state convection. Icarus 403, pages 115648.
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Olivier Montmayeur, Kiera Thompson Towell, Andrii Murdza, Devin O’Connor & Emily Asenath-Smith. (2023) An isotropic viscoelastic phase field fracture model for flexural loading of freshwater columnar ice. Computational Materials Science 229, pages 112401.
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Tetsuya Ohashi. (2022) Why Curling Stones Curl: Modelling and Numerical Experiments. Tribology Letters 70:4.
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Aleksey Marchenko, Andrea Haase, Atle Jensen, Ben Lishman, Jean Rabault, Karl-Ulrich Evers, Mark Shortt & Torsten Thiel. (2021) Laboratory Investigations of the Bending Rheology of Floating Saline Ice and Physical Mechanisms of Wave Damping in the HSVA Hamburg Ship Model Basin Ice Tank. Water 13:8, pages 1080.
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Mingdong Wei, Arttu Polojärvi, David M. Cole & Malith Prasanna. (2020) Strain response and energy dissipation of floating saline ice under cyclic compressive stress. The Cryosphere 14:9, pages 2849-2867.
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D.M. Cole. (2020) On the physical basis for the creep of ice: the high temperature regime. Journal of Glaciology 66:257, pages 401-414.
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Fabrice Ardhuin, Guillaume Boutin, Justin Stopa, Fanny Girard‐Ardhuin, Christian Melsheimer, Jim Thomson, Alison Kohout, Martin Doble & Peter Wadhams. (2018) Wave Attenuation Through an Arctic Marginal Ice Zone on 12 October 2015: 2. Numerical Modeling of Waves and Associated Ice Breakup. Journal of Geophysical Research: Oceans 123:8, pages 5652-5668.
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Guillaume Boutin, Fabrice Ardhuin, Dany Dumont, Caroline Sévigny, Fanny Girard‐Ardhuin & Mickael Accensi. (2018) Floe Size Effect on Wave‐Ice Interactions: Possible Effects, Implementation in Wave Model, and Evaluation. Journal of Geophysical Research: Oceans 123:7, pages 4779-4805.
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J. E. Stopa, F. Ardhuin, Jim Thomson, Madison M. Smith, Alison Kohout, Martin Doble & Peter Wadhams. (2018) Wave Attenuation Through an Arctic Marginal Ice Zone on 12 October 2015: 1. Measurement of Wave Spectra and Ice Features From Sentinel 1A. Journal of Geophysical Research: Oceans 123:5, pages 3619-3634.
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Matthew J. Vaughan, Kasper van Wijk, David J. Prior & M. Hamish Bowman. (2016) Monitoring the temperature-dependent elastic and anelastic properties in isotropic polycrystalline ice using resonant ultrasound spectroscopy. The Cryosphere 10:6, pages 2821-2829.
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Christine McCarthy & Reid F. Cooper. (2016) Tidal dissipation in creeping ice and the thermal evolution of Europa. Earth and Planetary Science Letters 443, pages 185-194.
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David M. Cole. (2014) Laboratory observations of frictional sliding of individual contacts in geologic materials. Granular Matter 17:1, pages 95-110.
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Sérgio H. Faria, Ilka Weikusat & Nobuhiko Azuma. (2014) The microstructure of polar ice. Part II: State of the art. Journal of Structural Geology 61, pages 21-49.
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V.E. Nakoryakov & S.Ya. Misyura. (2013) The features of self-preservation for hydrate systems with methane. Chemical Engineering Science 104, pages 1-9.
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Christine McCarthy & Julie C. Castillo-Rogez. 2013. The Science of Solar System Ices. The Science of Solar System Ices 183 225 .
Liang LI, Hong-ying WANG & Ai-guo ZHOU. (2012) Nonlinear elastic deformation of magnesium and cobalt by Preisach-Mayergoyz model. Transactions of Nonferrous Metals Society of China 22:9, pages 2220-2225.
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Erland M. Schulson & Paul Duval. 2010. Creep and Fracture of Ice. Creep and Fracture of Ice 101 152 .
Min Song. (2008) An evaluation of the rate-controlling flow process in Newtonian creep of polycrystalline ice. Materials Science and Engineering: A 486:1-2, pages 27-31.
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David M. Cole & John F. Peters. (2007) A physically based approach to granular media mechanics: grain-scale experiments, initial results and implications to numerical modeling. Granular Matter 9:5.
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Min Song, David M. Cole & Ian Baker. (2017) Creep of granular ice with and without dispersed particles. Journal of Glaciology 51:173, pages 210-218.
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Min Song, Ian Baker & David M. Cole. (2017) The effect of particles on dynamic recrystallization and fabric development of granular ice during creep. Journal of Glaciology 51:174, pages 377-382.
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David M. Cole & John P. Dempsey. (2004) In situ Sea Ice Experiments in McMurdo Sound: Cyclic Loading, Fracture, and Acoustic Emissions. Journal of Cold Regions Engineering 18:4, pages 155-174.
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David M. Cole, Hajo Eicken, Karoline Frey & Lewis H. Shapiro. (2004) Observations of banding in first-year Arctic sea ice. Journal of Geophysical Research: Oceans 109:C8, pages n/a-n/a.
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Min Song, David M. Cole & Ian Baker. (2017) Initial experiments on the effects of particles at grain boundaries on the anelasticity and creep behavior of granular ice. Annals of Glaciology 39, pages 397-401.
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Lorne W. Gold. (2017) Statistical behaviour of the deformation for first loading of polycrystalline ice. Journal of Glaciology 49:164, pages 37-49.
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David M. Cole. (2017) A dislocation-based analysis of the creep of granular ice: preliminary experiments and modeling. Annals of Glaciology 37, pages 18-22.
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Adam C. Maloof, James B. Kellogg & Alison M. Anders. (2002) Neoproterozoic sand wedges: crack formation in frozen soils under diurnal forcing during a snowball Earth. Earth and Planetary Science Letters 204:1-2, pages 1-15.
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David M. Cole. (2001) The microstructure of ice and its influence on mechanical properties. Engineering Fracture Mechanics 68:17-18, pages 1797-1822.
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