Dislocation Mechanics of High-Rate Deformations

Four topics associated with constitutive equation descriptions of rate-dependent metal plastic deformation behavior are reviewed in honor of previous research accomplished on the same issues by Professor Marc Meyers along with colleagues and students, as follow: (1) increasing strength levels attrib...

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Published in	Metallurgical and materials transactions. A, Physical metallurgy and materials science Vol. 46; no. 10; pp. 4438 - 4453
Main Authors	Armstrong, Ronald W., Li, Qizhen
Format	Journal Article
Language	English
Published	New York Springer US 01.10.2015 Springer Nature B.V
Subjects	Adiabatic flow Characterization and Evaluation of Materials Chemistry and Materials Science Compressive strength Constitutive relationships Deformation Dislocations Materials Science Metallic Materials Metallurgy Metals Nanomaterials Nanostructure Nanotechnology Physical metallurgy Plastic deformation Plastics Structural Materials Surfaces and Interfaces Symposium: Dynamic Behavior of Materials VI Thin Films Dislocation Generation Deformation Twinning Strain Rate Dependence Shear Banding Adiabatic Shear Banding
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Abstract	Four topics associated with constitutive equation descriptions of rate-dependent metal plastic deformation behavior are reviewed in honor of previous research accomplished on the same issues by Professor Marc Meyers along with colleagues and students, as follow: (1) increasing strength levels attributed to thermally activated dislocation migration at higher loading rates; (2) inhomogeneous adiabatic shear banding; (3) controlling mechanisms of deformation in shock as compared with shock-less isentropic compression experiments and (4) Hall–Petch-based grain size-dependent strain rate sensitivities exhibited by nanopolycrystalline materials. Experimental results are reviewed on the topics for a wide range of metals.
AbstractList	Four topics associated with constitutive equation descriptions of rate-dependent metal plastic deformation behavior are reviewed in honor of previous research accomplished on the same issues by Professor Marc Meyers along with colleagues and students, as follow: (1) increasing strength levels attributed to thermally activated dislocation migration at higher loading rates; (2) inhomogeneous adiabatic shear banding; (3) controlling mechanisms of deformation in shock as compared with shock-less isentropic compression experiments and (4) Hall-Petch-based grain size-dependent strain rate sensitivities exhibited by nanopolycrystalline materials. Experimental results are reviewed on the topics for a wide range of metals.
Author	Li, Qizhen Armstrong, Ronald W.
Author_xml	– sequence: 1 givenname: Ronald W. surname: Armstrong fullname: Armstrong, Ronald W. email: rona@umd.edu organization: Department of Mechanical Engineering, University of Maryland – sequence: 2 givenname: Qizhen surname: Li fullname: Li, Qizhen organization: School of Mechanical and Materials Engineering, Washington State University, Department of Chemical and Materials Engineering, University of Nevada
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Snippet	Four topics associated with constitutive equation descriptions of rate-dependent metal plastic deformation behavior are reviewed in honor of previous research...
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SubjectTerms	Adiabatic flow Characterization and Evaluation of Materials Chemistry and Materials Science Compressive strength Constitutive relationships Deformation Dislocations Materials Science Metallic Materials Metallurgy Metals Nanomaterials Nanostructure Nanotechnology Physical metallurgy Plastic deformation Plastics Structural Materials Surfaces and Interfaces Symposium: Dynamic Behavior of Materials VI Thin Films
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Title	Dislocation Mechanics of High-Rate Deformations
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