Geometrically Necessary Dislocation Density Evolution in Interstitial Free Steel at Small Plastic Strains
Measurement of geometrically necessary dislocation (GND) density using electron backscatter diffraction (EBSD) has become rather common place in modern metallurgical research. The utility of this measure as an indicator of the expected flow behavior of the material is not obvious. Incorporation of t...
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| Published in | Metallurgical and materials transactions. A, Physical metallurgy and materials science Vol. 49; no. 8; pp. 3274 - 3282 |
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| Main Authors | , |
| Format | Journal Article |
| Language | English |
| Published |
New York
Springer US
01.08.2018
Springer Nature B.V |
| Subjects | |
| Online Access | Get full text |
| ISSN | 1073-5623 1543-1940 |
| DOI | 10.1007/s11661-018-4693-1 |
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| Abstract | Measurement of geometrically necessary dislocation (GND) density using electron backscatter diffraction (EBSD) has become rather common place in modern metallurgical research. The utility of this measure as an indicator of the expected flow behavior of the material is not obvious. Incorporation of total dislocation density into the Taylor equation relating flow stress to dislocation density is generally accepted, but this does not automatically extend to a similar relationship for the GND density. This is discussed in the present work using classical equations for isotropic metal plasticity in a rather straight-forward theoretical framework. This investigation examines the development of GND structure in a commercially produced interstitial free steel subject to tensile deformation. Quantification of GND density was carried out using conventional EBSD at various strain levels on the surface of a standard dog-bone-shaped tensile specimen. There is linear increase of the average GND density with imposed macroscopic strain. This is in agreement with the established framework. |
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| AbstractList | Measurement of geometrically necessary dislocation (GND) density using electron backscatter diffraction (EBSD) has become rather common place in modern metallurgical research. The utility of this measure as an indicator of the expected flow behavior of the material is not obvious. Incorporation of total dislocation density into the Taylor equation relating flow stress to dislocation density is generally accepted, but this does not automatically extend to a similar relationship for the GND density. This is discussed in the present work using classical equations for isotropic metal plasticity in a rather straight-forward theoretical framework. This investigation examines the development of GND structure in a commercially produced interstitial free steel subject to tensile deformation. Quantification of GND density was carried out using conventional EBSD at various strain levels on the surface of a standard dog-bone-shaped tensile specimen. There is linear increase of the average GND density with imposed macroscopic strain. This is in agreement with the established framework. |
| Author | Kundu, Amrita Field, David P. |
| Author_xml | – sequence: 1 givenname: Amrita surname: Kundu fullname: Kundu, Amrita email: akundu05@gmail.com organization: Metallurgical and Material Engineering Department, Jadavpur University – sequence: 2 givenname: David P. surname: Field fullname: Field, David P. organization: School of Mechanical and Materials Engineering, Washington State University |
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| SubjectTerms | Characterization and Evaluation of Materials Chemistry and Materials Science Diffraction Dislocation density Electron backscatter diffraction Interstitial free steels Materials Science Metallic Materials Metallurgy Nanotechnology Structural Materials Surfaces and Interfaces Tensile deformation Thin Films Yield strength |
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| Title | Geometrically Necessary Dislocation Density Evolution in Interstitial Free Steel at Small Plastic Strains |
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