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A quantitative comparison of the fingerprint of twinned microstructures through surface and three-dimensional techniques

Author

Listed:
  • Duncan A. Greeley

    (Los Alamos National Laboratory)

  • Hi T. Vo

    (Los Alamos National Laboratory)

  • Rodney J. McCabe

    (Los Alamos National Laboratory)

  • Matthew M. Schneider

    (Los Alamos National Laboratory)

  • Carlos N. Tomé

    (Los Alamos National Laboratory)

  • Laurent Capolungo

    (Los Alamos National Laboratory)

Abstract

Assessing the fingerprint of a material’s microstructure is key for supporting materials design. With the emergence of a wide range of 3D characterization techniques, it is critical to understand the main differences in fingerprints reconstructed from 2D and 3D datasets. To this end, we introduce a graph-based microstructure reconstruction framework that enables structural comparisons of twin domain networks in high purity Ti using 3D and 2D electron backscatter diffraction. Insights into the structure of the twin networks are facilitated by combining statistical analysis of twin crystallography with visual and graphical analysis of the novel graph abstractions of the twins. We demonstrate that compared to 3D reconstructions, conventional 2D views of twinning miss key aspects of the microstructure including the high interconnectivity of domains into networks that span the full reconstruction volume. The reduced cross-grain and in-grain twin connectivity typically observed in 2D has notable implications on our understanding of how twinning mediates the plastic response of microstructures and how twin networks evolve. It is thus clear that 3D characterization is critical for accurately inferring both twin network morphologies as well as the key unit processes facilitating network formation.

Suggested Citation

  • Duncan A. Greeley & Hi T. Vo & Rodney J. McCabe & Matthew M. Schneider & Carlos N. Tomé & Laurent Capolungo, 2025. "A quantitative comparison of the fingerprint of twinned microstructures through surface and three-dimensional techniques," Nature Communications, Nature, vol. 16(1), pages 1-14, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-64740-0
    DOI: 10.1038/s41467-025-64740-0
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    References listed on IDEAS

    as
    1. M. Arul Kumar & I. J. Beyerlein & R. J. McCabe & C. N. Tomé, 2016. "Grain neighbour effects on twin transmission in hexagonal close-packed materials," Nature Communications, Nature, vol. 7(1), pages 1-9, December.
    2. Zhaoxuan Wu & W. A. Curtin, 2015. "The origins of high hardening and low ductility in magnesium," Nature, Nature, vol. 526(7571), pages 62-67, October.
    3. Steven H. Strogatz, 2001. "Exploring complex networks," Nature, Nature, vol. 410(6825), pages 268-276, March.
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