Three-dimensional plastic response in polycrystalline copper<i>via</i>near-field high-energy X-ray diffraction microscopy

Li, S.F.; Lind, Jonathan; Hefferan, Christopher M.; Pokharel, Reeju; Lienert, U.; Rollett, Anthony D.; Suter, Robert

doi:10.1107/s0021889812039519

Cited by 81 publications

(61 citation statements)

References 54 publications

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“…The optimal registration was obtained by minimizing integrated misorientation angle 6,39 under rigid body rotations and translations. Higher order corrections to this registration could be computed on a grain-by-grain basis by allowing optimization within the full affine space.…”

Section: Data Analysis and Resultsmentioning

confidence: 99%

Shock induced damage in copper: A before and after, three-dimensional study

Menasche

Lind

Li³

et al. 2016

Journal of Applied Physics

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We report on the microstructural features associated with the formation of incipient spall and damage in a fully recrystallized, high purity copper sample. Before and after ballistic shock loading, approximately 0.8 mm3 of the sample's crystal lattice orientation field is mapped using non-destructive near-field High Energy Diffraction Microscopy. Absorption contrast tomography is used to image voids after loading. This non-destructive interrogation of damage initiation allows for novel characterization of spall points vis-a-vis microstructural features and a fully 3D examination of microstructural topology and its influence on incipient damage. The spalled region is registered with and mapped back onto the pre-shock orientation field. As expected, the great majority of voids occur at grain boundaries and higher order microstructural features; however, we find no statistical preference for particular grain boundary types. The damaged region contains a large volume of Σ–3 (60°〈111〉) connected domains with a large area fraction of incoherent Σ-3 boundaries.

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Section: Data Analysis and Resultsmentioning

confidence: 99%

Shock induced damage in copper: A before and after, three-dimensional study

Menasche

Lind

Li³

et al. 2016

Journal of Applied Physics

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“…Reconstruction from near-field data only has resulted in detailed space-filling grain maps, including spatial information about the orientation spread within individual grains [11,40]. The method is especially well-suited for direct comparison with finite-element-based crystal plasticity simulations, focusing on the local effects of grain interaction, e.g.…”

Section: Methodsmentioning

confidence: 99%

“…Small distances (near-field detectors) have the advantage of good spatial resolution, whereas large distances (far-field detectors) provide good orientation resolution. Set-ups with only one detector, either near-field [11] or far-field [39], have been employed, whereas the present study employs both.…”

Section: Methodsmentioning

confidence: 99%

“…As the technique is nondestructive it enables studies of the same set of bulk grains before and after some external stimuli, e.g. elastic [5][6][7] and plastic deformation [8][9][10][11] or thermal annealing [12][13][14]. Several experimental set-ups are possible, each with specific advantages, e.g.…”

Section: Introductionmentioning

confidence: 99%

“…Several experimental set-ups are possible, each with specific advantages, e.g. high temporal resolution [12,15], high spatial resolution of grain maps [11,16] or high resolution of crystallographic orientations [17,18].…”

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Deformation-induced orientation spread in individual bulk grains of an interstitial-free steel

et al. 2015

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The Population of Twin Related Boundaries in High Purity Nickel as Measured with Near‐Field High Energy X‐Ray Diffraction Microscopy

Hefferan¹,

Li²,

Lind³

et al. 2014

8th International Symposium on Superalloy 718 and Derivatives

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The ability of near-field High Energy X-ray Diffraction Microscopy (nf-HEDM) to map the dynamic response of microstructures under the influence of thermo-mechanical loads has been repeatedly demonstrated. Here, we use nf-HEDM to monitor the evolution of the same high purity, polycrystalline nickel microstructure through a sequence of five, grain growth anneal states. While the microstructure coarsens in response to the applied heat, the boundary misorientation distribution was found to be both static and consistent with that of a twinned microstructure. Analysis of the Σ3 n grain boundaries shows that in addition to accounting for a large proportion of the grain boundary area, these twin related boundaries also exhibit minimal deviation from the ideal Σ3 n configuration.

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Three-dimensional plastic response in polycrystalline coppervianear-field high-energy X-ray diffraction microscopy

Cited by 81 publications

References 54 publications

Shock induced damage in copper: A before and after, three-dimensional study

Shock induced damage in copper: A before and after, three-dimensional study

Deformation-induced orientation spread in individual bulk grains of an interstitial-free steel

The Population of Twin Related Boundaries in High Purity Nickel as Measured with Near‐Field High Energy X‐Ray Diffraction Microscopy

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