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Toward the design of ultrahigh-entropy alloys via mining six million texts

Engineering and Technology

Toward the design of ultrahigh-entropy alloys via mining six million texts

Z. Pei, J. Yin, et al.

This research, conducted by Zongrui Pei, Junqi Yin, Peter K. Liaw, and Dierk Raabe, unveils a groundbreaking method in designing ultrahigh-entropy alloys using text mining. By analyzing a vast array of scientific literature, this innovative approach reveals new candidate materials, offering fresh possibilities in the field of materials design. Dive into the future of alloy development today!

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~3 min • Beginner • English
Abstract
It has long been a norm that researchers extract knowledge from literature to design materials. However, the avalanche of publications makes the norm challenging to follow. Text mining (TM) is efficient in extracting information from corpora. Still, it cannot discover materials not present in the corpora, hindering its broader applications in exploring novel materials, such as high- entropy alloys (HEAs). Here we introduce a concept of "context similarity" for selecting chemical elements for HEAs, based on TM models that analyze the abstracts of 6.4 million papers. The method captures the similarity of chemical elements in the context used by scientists. It overcomes the limitations of TM and identifies the Cantor and Senkov HEAs. We demonstrate its screening capability for six- and seven-component lightweight HEAs by finding nearly 500 promising alloys out of 2.6 million candidates. The method thus brings an approach to the development of ultrahigh-entropy alloys and multi- component materials.
Publisher
Nature Communications
Published On
Jan 04, 2023
Authors
Zongrui Pei, Junqi Yin, Peter K. Liaw, Dierk Raabe
DOI
https://doi.org/https://doi.org/10.1038/s41467-022-35766-5
Tags
ultrahigh-entropy alloys
text mining
context similarity
materials design
candidate materials
scientific literature
Integrated Computational Materials Engineering

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