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Article Dans Une Revue Materials Characterization Année : 2018

Application of chord length distributions and principal component analysis for quantification and representation of diverse polycrystalline microstructures

Résumé

Quantification of mesoscale microstructures of polycrystalline materials is important for a range of practical tasks of materials design and development. The current protocols of quantifying grain size and morphology often rely on microstructure metrics (e.g., mean grain diameter) that overlook important details of the mesostructure. In this work, we present a quantification framework based on directionally resolved chord length distribution and principal component analysis as a means of extracting additional information from 2-D microstructural maps. Towards this end, we first present in detail a method for calculating chord length distribution based on boundary segments available in modern digital datasets (e.g., from microscopy post-processing) and their low-rank representations by principal component analysis. The utility of the proposed framework for capturing grain size, morphology, and their anisotropy for efficient visualization, representation, and specification of polycrystalline microstructures is then demonstrated in case studies on datasets from synthetic generation, experiments (on Ni-base superalloys), and simulations (on steel during recrystallization).
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Dates et versions

hal-03165676 , version 1 (10-03-2021)

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Marat Latypov, Markus Kühbach, Irene Beyerlein, Jean-Charles Stinville, Laszlo Toth, et al.. Application of chord length distributions and principal component analysis for quantification and representation of diverse polycrystalline microstructures. Materials Characterization, 2018, 145, pp.671-685. ⟨10.1016/j.matchar.2018.09.020⟩. ⟨hal-03165676⟩
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