High-Throughput Extraction of Phase–Property Relationships from Literature Using Natural Language Processing and Large Language Models

IF 2.4 3区 材料科学 Q3 ENGINEERING, MANUFACTURING
Luca Montanelli, Vineeth Venugopal, Elsa A. Olivetti, Marat I. Latypov
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引用次数: 0

Abstract

Consolidating published research on aluminum alloys into insights about microstructure–property relationships can simplify and reduce the costs involved in alloy design. One critical design consideration for many heat-treatable alloys deriving superior properties from precipitation are phases as key microstructure constituents because they can have a decisive impact on the engineering properties of alloys. Here, we present a computational framework for high-throughput extraction of phases and their impact on properties from scientific papers. Our framework includes transformer-based and large language models to identify sentences with phase-property information in papers, recognize phase and property entities, and extract phase-property relationships and their “sentiment.” We demonstrate the application of our framework on aluminum alloys, for which we build a database of 7,675 phase–property relationships extracted from a corpus of almost 5000 full-text papers. We comment on the extracted relationships based on common metallurgical knowledge.

Abstract Image

利用自然语言处理和大型语言模型从文献中高通量提取阶段属性关系
将已发表的有关铝合金的研究成果整合为有关微观结构-性能关系的见解,可简化合金设计并降低相关成本。对于许多通过沉淀获得优异性能的可热处理合金而言,一个关键的设计考虑因素是作为关键微观结构成分的相,因为它们会对合金的工程性能产生决定性影响。在此,我们提出了一个计算框架,用于从科学论文中高通量提取相及其对性能的影响。我们的框架包括基于转换器的大型语言模型,用于识别论文中包含相-属性信息的句子、识别相和属性实体、提取相-属性关系及其 "情感"。我们演示了我们的框架在铝合金上的应用,为此我们建立了一个数据库,其中包含从近 5000 篇全文论文语料库中提取的 7675 个相位-属性关系。我们根据冶金学常识对提取的关系进行了评论。
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来源期刊
Integrating Materials and Manufacturing Innovation
Integrating Materials and Manufacturing Innovation Engineering-Industrial and Manufacturing Engineering
CiteScore
5.30
自引率
9.10%
发文量
42
审稿时长
39 days
期刊介绍: The journal will publish: Research that supports building a model-based definition of materials and processes that is compatible with model-based engineering design processes and multidisciplinary design optimization; Descriptions of novel experimental or computational tools or data analysis techniques, and their application, that are to be used for ICME; Best practices in verification and validation of computational tools, sensitivity analysis, uncertainty quantification, and data management, as well as standards and protocols for software integration and exchange of data; In-depth descriptions of data, databases, and database tools; Detailed case studies on efforts, and their impact, that integrate experiment and computation to solve an enduring engineering problem in materials and manufacturing.
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