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A machine learning approach to map crystal orientation by optical microscopy

Engineering and Technology

A machine learning approach to map crystal orientation by optical microscopy

M. Wittwer and M. Seita

Discover a groundbreaking machine learning technique for high-throughput crystal orientation mapping in metal alloys, pioneered by Mallory Wittwer and Matteo Seita. This innovative approach, demonstrated on Inconel 718 specimens from additive manufacturing, leverages directional reflectance microscopy, enabling easier mapping and extending to various alloys and manufacturing processes.

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~3 min • Beginner • English
Abstract
Mapping grain orientation in crystalline solids is essential to investigate the relationships between local microstructure and crystallography and interpret materials properties. One of the main techniques used to perform these studies is electron backscatter diffraction (EBSD). Due to the limited measurement throughput, however, EBSD is not suitable for characterizing samples with long-range microstructure heterogeneity, nor for building large material libraries that include numerous specimens. We present a machine learning approach for high-throughput crystal orientation mapping, which relies on the optical technique called directional reflectance microscopy. We successfully apply our method on Inconel 718 specimens produced by additive manufacturing, which exhibit complex, spatially-varying microstructures. These results demonstrate that optical orientation mapping on a metal alloy is achievable. Since our method is data-driven, it can be easily extended to different alloy systems produced using different manufacturing processes.
Publisher
npj Computational Materials
Published On
Jan 19, 2022
Authors
Mallory Wittwer, Matteo Seita
DOI
https://doi.org/https://doi.org/10.1038/s41524-021-00688-1
Tags
crystal orientation
machine learning
high-throughput
directional reflectance microscopy
metal alloys
Inconel 718
additive manufacturing

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