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Differentiation of Deformation Modes in Nanocrystalline Pd Films Inferred from Peak Asymmetry Evolution Using<i>In Situ</i>X-Ray Diffraction

Physical Review Letters 2013 33 citations ? Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count. Score: 30 ? 0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.

Jochen Lohmiller, Patric A. Gruber, Patric A. Gruber Jochen Lohmiller, Jochen Lohmiller, R. Baumbusch, R. Baumbusch, R. Baumbusch, R. Baumbusch, Oliver Kraft, Patric A. Gruber, Patric A. Gruber Oliver Kraft, Patric A. Gruber, Patric A. Gruber Oliver Kraft, Oliver Kraft, Patric A. Gruber, Patric A. Gruber

Summary

This materials science study used synchrotron X-ray diffraction to examine how nanocrystalline palladium films deform under tension, finding evidence of a transition from grain-boundary-based to dislocation-based deformation mechanisms. This is a nanomaterials research paper with no relevance to environmental microplastics.

Synchrotron-based in situ tensile testing was used to study the dominant deformation mechanisms of nanocrystalline Pd thin films on a compliant substrate. An x-ray diffraction peak profile analysis reveals an (hkl) independent deformation induced peak asymmetry. It is argued that the asymmetry is caused by a broad distribution of elastic strains among individual grains and the complexity of accommodation processes. The reversal of peak asymmetry manifests the transition from heterogeneous microplasticity to dislocation-based macroplasticity. Independently, stress-driven grain boundary migration is active.

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