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arxiv: 2009.05083 · v2 · pith:7BBXMF5B · submitted 2020-09-10 · cond-mat.mtrl-sci · cond-mat.mes-hall

In-Situ Visualization of Long-Range Defect Interactions at the Edge of Melting

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classification cond-mat.mtrl-sci cond-mat.mes-hall
keywords dislocationsinteractionsbulkconnectingdefectsdynamicslong-rangemacroscopic
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Connecting a bulk material's microscopic defects to its macroscopic properties is an age-old problem in materials science. Long-range interactions between dislocations (line defects) are known to play a key role in how materials deform or melt, but we lack the tools to connect these dynamics to the macroscopic properties. We introduce time-resolved dark-field X-ray microscopy to directly visualize how dislocations move and interact over hundreds of micrometers, deep inside bulk aluminum. With real-time movies, we reveal the thermally-activated motion and interactions of dislocations that comprise a boundary, and show how weakened binding forces inhomogeneously destabilize the structure at 99% of the melting temperature. Connecting dynamics of the microstructure to its stability, we provide important opportunities to guide and validate multiscale models that are yet untested.

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