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The Philosophical Magazine: A Journal of Theoretical Experimental and Applied Physics
Series 8
Volume 29, 1974 - Issue 6
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Correspondence

Polycrystal versus single-crystal strain rate sensitivity of cadmium

Y. V. R. K. Prasad Engineering Materials Group, and Mechanical Engineering Department, University of Maryland, College Park, Maryland, 20742, U.S.A.; Department of Metallurgy, Indian Institute of Science, Bangalore; Drexel University, Pennsylvania, Philadelphia, 19104, U.S.A.
&
R. W. Armstrong Engineering Materials Group, and Mechanical Engineering Department, University of Maryland, College Park, Maryland, 20742, U.S.A.; Physics and Engineering Laboratory, D.S.I.R., Lower Hutt, New Zealand
Pages 1421-1425 | Received 24 Sep 1973, Published online: 20 Aug 2006

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R. W. Armstrong. (2016) Hall–Petch description of nanopolycrystalline Cu, Ni and Al strength levels and strain rate sensitivities. Philosophical Magazine 96:29, pages 3097-3108.
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R. W. Armstrong & P. Rodriguez. (2006) Flow stress/strain rate/grain size coupling for fcc nanopolycrystals. Philosophical Magazine 86:36, pages 5787-5796.
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A.H. Yegneswaran, K.S. Raman & Y.V. R. K. Prasad. (1982) Texture strengthening in warm-rolled cadmium-1% silver alloy. Philosophical Magazine A 46:3, pages 507-519.
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Articles from other publishers (22)

Ronald W. Armstrong & Wayne L. Elban. (2020) Crystal Strengths at Micro- and Nano-Scale Dimensions. Crystals 10:2, pages 88.
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Ronald W. Armstrong. (2019) Size effects on material yield strength/deformation/fracturing properties. Journal of Materials Research 34:13, pages 2161-2176.
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Claudio V. Di Leo & Julian J. Rimoli. (2019) New perspectives on the grain-size dependent yield strength of polycrystalline metals. Scripta Materialia 166, pages 149-153.
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R. W. Armstrong & N. Balasubramanian. (2017) Unified Hall-Petch description of nano-grain nickel hardness, flow stress and strain rate sensitivity measurements. AIP Advances 7:8.
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Ronald W. Armstrong. (2015) Dislocation Pile-Ups, Material Strength Levels, and Thermal Activation. Metallurgical and Materials Transactions A 47:12, pages 5801-5810.
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Ronald W. Armstrong & Qizhen Li. (2015) Dislocation Mechanics of High-Rate Deformations. Metallurgical and Materials Transactions A 46:10, pages 4438-4453.
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Masaharu Kato. (2015) Selected Topics on Material Strength and Thermally Activated Deformation Processes. MATERIALS TRANSACTIONS 56:2, pages 175-181.
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Ronald W. Armstrong. (2014) Engineering science aspects of the Hall–Petch relation. Acta Mechanica 225:4-5, pages 1013-1028.
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Masaharu Kato. (2014) Hall–Petch Relationship and Dislocation Model for Deformation of Ultrafine-Grained and Nanocrystalline Metals. MATERIALS TRANSACTIONS 55:1, pages 19-24.
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Ronald W. Armstrong. (2014) 60 Years of Hall-Petch: Past to Present Nano-Scale Connections. MATERIALS TRANSACTIONS 55:1, pages 2-12.
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Masaharu Kato. (2014) Selected Topics on Material Strength and Thermally Activated Deformation Processes. Materia Japan 53:5, pages 209-214.
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Ronald W. Armstrong. (2013) Hall-Petch analysis of dislocation pileups in thin material layers and in nanopolycrystals. Journal of Materials Research 28:13, pages 1792-1798.
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S. M. Chowdhury, D. L. Chen, S. D. Bhole, E. Powidajko, D. C. Weckman & Y. Zhou. (2010) Microstructure and Mechanical Properties of Fiber-Laser-Welded and Diode-Laser-Welded AZ31 Magnesium Alloy. Metallurgical and Materials Transactions A 42:7, pages 1974-1989.
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S.M. Chowdhury, D.L. Chen, S.D. Bhole & X. Cao. (2010) Tensile properties of a friction stir welded magnesium alloy: Effect of pin tool thread orientation and weld pitch. Materials Science and Engineering: A 527:21-22, pages 6064-6075.
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S.M. Chowdhury, D.L. Chen, S.D. Bhole, X. Cao, E. Powidajko, D.C. Weckman & Y. Zhou. (2010) Tensile properties and strain-hardening behavior of double-sided arc welded and friction stir welded AZ31B magnesium alloy. Materials Science and Engineering: A 527:12, pages 2951-2961.
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Hans Conrad. (2007) Plastic deformation kinetics in nanocrystalline FCC metals based on the pile-up of dislocations. Nanotechnology 18:32, pages 325701.
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J.A. del Valle & O.A. Ruano. (2006) Influence of the grain size on the strain rate sensitivity in an Mg–Al–Zn alloy at moderate temperatures. Scripta Materialia 55:9, pages 775-778.
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Placid Rodriguez. (2004) Grain size dependence of the activation parameters for plastic deformation: Influence of crystal structure, slip system, and rate-controlling dislocation mechanism. Metallurgical and Materials Transactions A 35:9, pages 2697-2705.
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K. T. Ramesh. (2002) Effects of high rates of loading on the deformation behavior and failure mechanisms of hexagonal close-packed metals and alloys. Metallurgical and Materials Transactions A 33:3, pages 927-935.
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R.W. Armstrong. 2001. Encyclopedia of Materials: Science and Technology. Encyclopedia of Materials: Science and Technology 7103 7114 .
N.J. Petch & R.W. Armstrong. (1990) The tensile test. Acta Metallurgica et Materialia 38:12, pages 2695-2700.
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Hans Conrad. (1981) Effect of interstitial solutes on the strength and ductility of titanium. Progress in Materials Science 26:2-4, pages 123-403.
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