Finite deformation analysis of F.C.C. crystals in (110)(1[formula omitted])([formula omitted]1[formula omitted]) channel die compression

A comprehensive analysis of f.c.c. crystals in initial orientation (110)(112)(111) (loading, constraint, and channel axis directions, respectively) in the channel die compression test is presented, to strains of order 1. Three hardening theories are investigated: Taylor's rule, the “simple theo...

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Veröffentlicht in:	International journal of plasticity 1988, Vol.4 (1), p.1-27
Hauptverfasser:	Chidambarrao, D., Havner, K.S.
Format:	Artikel
Sprache:	eng
Schlagworte:	Applied sciences Condensed matter: structure, mechanical and thermal properties Cross-disciplinary physics: materials science rheology Deformation and plasticity (including yield, ductility, and superplasticity) Elasticity. Plasticity Exact sciences and technology Materials science Mechanical and acoustical properties of condensed matter Mechanical properties and methods of testing. Rheology. Fracture mechanics. Tribology Mechanical properties of solids Metals, semimetals and alloys Metals. Metallurgy Physics Specific materials
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container_title	International journal of plasticity
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creator	Chidambarrao, D. Havner, K.S.
description	A comprehensive analysis of f.c.c. crystals in initial orientation (110)(112)(111) (loading, constraint, and channel axis directions, respectively) in the channel die compression test is presented, to strains of order 1. Three hardening theories are investigated: Taylor's rule, the “simple theory,” and the “P.A.N. rule.” The predictions of these theories are found to be kinematically distinct for this orientation, with only the P.A.N. rule predicting lattice rotation about the loading axis. Comparisons with an experimental study are included.
doi_str_mv	10.1016/0749-6419(88)90002-2
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Three hardening theories are investigated: Taylor's rule, the “simple theory,” and the “P.A.N. rule.” The predictions of these theories are found to be kinematically distinct for this orientation, with only the P.A.N. rule predicting lattice rotation about the loading axis. Comparisons with an experimental study are included.</description><identifier>ISSN: 0749-6419</identifier><identifier>EISSN: 1879-2154</identifier><identifier>DOI: 10.1016/0749-6419(88)90002-2</identifier><identifier>CODEN: IJPLER</identifier><language>eng</language><publisher>Oxford: Elsevier Ltd</publisher><subject>Applied sciences ; Condensed matter: structure, mechanical and thermal properties ; Cross-disciplinary physics: materials science; rheology ; Deformation and plasticity (including yield, ductility, and superplasticity) ; Elasticity. Plasticity ; Exact sciences and technology ; Materials science ; Mechanical and acoustical properties of condensed matter ; Mechanical properties and methods of testing. 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Three hardening theories are investigated: Taylor's rule, the “simple theory,” and the “P.A.N. rule.” The predictions of these theories are found to be kinematically distinct for this orientation, with only the P.A.N. rule predicting lattice rotation about the loading axis. Comparisons with an experimental study are included.</description><subject>Applied sciences</subject><subject>Condensed matter: structure, mechanical and thermal properties</subject><subject>Cross-disciplinary physics: materials science; rheology</subject><subject>Deformation and plasticity (including yield, ductility, and superplasticity)</subject><subject>Elasticity. Plasticity</subject><subject>Exact sciences and technology</subject><subject>Materials science</subject><subject>Mechanical and acoustical properties of condensed matter</subject><subject>Mechanical properties and methods of testing. Rheology. Fracture mechanics. 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subjects	Applied sciences Condensed matter: structure, mechanical and thermal properties Cross-disciplinary physics: materials science rheology Deformation and plasticity (including yield, ductility, and superplasticity) Elasticity. Plasticity Exact sciences and technology Materials science Mechanical and acoustical properties of condensed matter Mechanical properties and methods of testing. Rheology. Fracture mechanics. Tribology Mechanical properties of solids Metals, semimetals and alloys Metals. Metallurgy Physics Specific materials
title	Finite deformation analysis of F.C.C. crystals in (110)(1[formula omitted])([formula omitted]1[formula omitted]) channel die compression
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