Results 221 to 230 of about 1,319 (250)
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Estimations of bulk geometrically necessary dislocation density using high resolution EBSD

Ultramicroscopy, 2013
Characterizing the content of geometrically necessary dislocations (GNDs) in crystalline materials is crucial to understanding plasticity. Electron backscatter diffraction (EBSD) effectively recovers local crystal orientation, which is used to estimate the lattice distortion, components of the Nye dislocation density tensor (α), and subsequently the ...
David T Fullwood
exaly   +3 more sources

Calculation of geometrically necessary dislocation density within planar discrete dislocation plasticity: Application to cyclic loading

open access: yesEuropean Journal of Mechanics, A/Solids
zbMATH Open Web Interface contents unavailable due to conflicting licenses.
Y Piao, Daniel S Balint
exaly   +2 more sources

Geometrically necessary dislocation density measurements associated with different angles of indentations

International Journal of Plasticity, 2014
Experiments and numerical simulations of various angles of wedge indenters into face-centered cubic single crystal were performed under plane strain conditions.
Carl F O Dahlberg
exaly   +2 more sources

Crystallographic aspects of geometrically-necessary and statistically-stored dislocation density

Acta Materialia, 1999
Abstract Classical plasticity has reached its limit in describing crystalline material behavior at the micron level and below. Its inability to predict size-dependent effects at this length scale has motivated the use of higher-order gradients to model material behavior at the micron level.
A Arsenlis, D.M Parks
openaire   +1 more source

Influence of plastic deformation heterogeneity on development of geometrically necessary dislocation density in dual phase steel

Materials Science & Engineering A: Structural Materials: Properties, Microstructure and Processing, 2016
Abstract The present investigation examined the evolution of geometrically necessary dislocation (GND) structure following tensile deformation in a commercially produced dual phase steel, DP 590. GND measurements were made using electron back scatter diffraction (EBSD).
Amrita Kundu, David P Field
exaly   +2 more sources

Quantitative Study of Residual Strain and Geometrically Necessary Dislocation Density Using HR-EBSD Method

Experimental Mechanics, 2021
Optical metrology is widely used to measure materials’ deformation and mechanical properties but current fundamental research requires more precise measurement of microstructure and deformation in internal materials. Electron backscattered diffraction (EBSD) technique measures crystal orientation in individual grain and high resolution EBSD (HR-EBSD ...
C. Zhao, X. Li
openaire   +1 more source

Geometrically necessary dislocation density measurements at a grain boundary due to wedge indentation into an aluminum bicrystal

Journal of the Mechanics and Physics of Solids, 2017
Abstract An aluminum bicrystal with a symmetric tilt Σ43 (3 3 5)[1 1 0] coincident site lattice grain boundary was deformed plastically via wedge indentation under conditions that led to a plane strain deformation state. Plastic deformation is induced into both crystals and the initially straight grain boundary developed a significant curvature.
Carl F O Dahlberg
exaly   +2 more sources

Using transmission Kikuchi diffraction in a scanning electron microscope to quantify geometrically necessary dislocation density at the nanoscale

Ultramicroscopy, 2019
It is challenging to quantify the geometrically necessary dislocation (GND) density at the nanoscale using conventional electron backscatter diffraction due to its limited spatial resolution. To overcome this problem, in this study, the transmission Kikuchi diffraction (TKD) technique is used to measure lattice orientation and to calculate the ...
Xingzhong Liang   +2 more
exaly   +3 more sources

Analytical Prediction of Geometrically Necessary Dislocation Density during Plane Strain Microbending

Key Engineering Materials, 2016
As components with proportional feature and tooling sizes are miniaturized, strain gradients through the cross-section increase. This causes strain gradient hardening as the density of geometrically necessary dislocations increases. This will lead to higher required forces in the process than expected.
Li Jie Wang   +2 more
openaire   +1 more source

Statistically stored, geometrically necessary and grain boundary dislocation densities: microstructural representation and modelling

Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences, 2007
A unified physically based microstructural representation of f.c.c. crystalline materials has been developed and implemented to investigate the microstructural behaviour of f.c.c. crystalline aggregates under inelastic deformations. The proposed framework is based on coupling a multiple-slip crystal plasticity formulation to three distinct dislocation ...
O Rezvanian, M A Zikry
exaly   +2 more sources

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