MICRO2D: A Large, Statistically Diverse, Heterogeneous Microstructure Dataset

IF 2.4 3区 材料科学 Q3 ENGINEERING, MANUFACTURING
Andreas E. Robertson, Adam P. Generale, Conlain Kelly, Michael O. Buzzy, Surya R. Kalidindi
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Abstract

The availability of large, diverse datasets has enabled transformative advances in a wide variety of technical fields by unlocking data scientific and machine learning techniques. In Materials Informatics for Heterogeneous Microstructures capitalization on these techniques has been limited due to the extreme complexity of generating or curating sizeable heterogeneous microstructure datasets. Historically, this difficulty can be attributed to two main hurdles: quantification (i.e., measuring microstructure diversity) and curation (i.e., generating diverse microstructures). In this paper, we present a framework for curating large, statistically diverse mesoscale microstructure datasets composed of 2-phase microstructures. The framework generates microstructures which are statistically diverse with respect to their n-point statistics—the primary emphasis is on diversity in their 2-point statistics. The framework’s foundation is a proposed set of algorithms for synthesizing salient 2-point statistics and neighborhood distributions. We generate statistically diverse microstructures by using the outputs of these algorithms as inputs to a statistically conditioned Local-Global Decomposition generation procedure. Finally, we demonstrate the proposed framework by curating MICRO2D, a diverse, large-scale, and open source heterogeneous microstructure dataset comprised of 87, 379 2-phase microstructures. The contained microstructures are periodic and \(256 \times 256\) pixels. The dataset also contains salient homogenized elastic and thermal properties computed across a range of constituent contrast ratios for each microstructure. Using MICRO2D, we analyze the statistical and property diversity achievable via the proposed framework. We conclude by discussing important areas of future research in microstructure dataset curation.

Abstract Image

MICRO2D:统计多样的大型异构微结构数据集
大型、多样化数据集的可用性通过释放数据科学和机器学习技术,使各种技术领域取得了变革性进展。在异质微结构材料信息学领域,由于生成或管理大型异质微结构数据集的极端复杂性,对这些技术的利用一直受到限制。从历史上看,这种困难可归因于两个主要障碍:量化(即测量微结构多样性)和整理(即生成多样化的微结构)。在本文中,我们提出了一个框架,用于整理由两相微结构组成的大型、统计上多样化的中尺度微结构数据集。该框架生成的微结构在 n 点统计量方面具有统计多样性--主要强调 2 点统计量的多样性。该框架的基础是一套用于合成突出的 2 点统计量和邻域分布的算法。我们将这些算法的输出作为统计条件局部-全局分解生成程序的输入,从而生成在统计上多样化的微结构。最后,我们通过对 MICRO2D(一个由 87,379 个两相微结构组成的多样化、大规模、开源的异质微结构数据集)的整理来演示所提出的框架。所包含的微观结构是周期性的,像素为(256 次 256)。该数据集还包含针对每种微结构的一系列成分对比度计算得出的突出均质化弹性和热特性。通过使用 MICRO2D,我们分析了拟议框架可实现的统计和属性多样性。最后,我们讨论了未来微结构数据集整理研究的重要领域。
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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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