单点统计表示的晶体纹理的精确距离测量和纹理-属性关系的机器学习

IF 1.9 4区 材料科学 Q3 MATERIALS SCIENCE, MULTIDISCIPLINARY Modelling and Simulation in Materials Science and Engineering Pub Date : 2024-05-30 DOI:10.1088/1361-651x/ad4c81
Tarek Iraki, Lukas Morand, Norbert Link, Stefan Sandfeld and Dirk Helm
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引用次数: 0

摘要

金属材料的结晶纹理是造成各向异性行为的关键微结构特征,例如在成型操作中非常重要。在材料科学中,晶体纹理通常用取向分布函数来描述,取向分布函数被定义为符合多晶材料的单晶晶粒取向的概率密度函数。取向分布函数有多种表示方法,如使用广义球面谐波、取向直方图和极坐标图像。测量晶体纹理之间的距离对于任何需要评估纹理相似性的任务(如指导成型工艺)都至关重要。因此,我们引入了基于以下两种方法的新型距离测量方法:(i) 地球移动距离,该方法考虑了基于直方图的纹理表示中编码的局部距离信息;(ii) 基于极点图像的距离测量方法。为此,我们针对选定的使用案例对现有的距离测量方法进行了评估和比较。本研究深入探讨了使用某些纹理表示法和距离测量法的优点和缺点,重点是材料设计和优化流程控制方面的应用。
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Accurate distances measures and machine learning of the texture-property relation for crystallographic textures represented by one-point statistics
The crystallographic texture of metallic materials is a key microstructural feature that is responsible for the anisotropic behavior, e.g. important in forming operations. In materials science, crystallographic texture is commonly described by the orientation distribution function, which is defined as the probability density function of the orientations of the monocrystal grains conforming a polycrystalline material. For representing the orientation distribution function, there are several approaches such as using generalized spherical harmonics, orientation histograms, and pole figure images. Measuring distances between crystallographic textures is essential for any task that requires assessing texture similarities, e.g. to guide forming processes. Therefore, we introduce novel distance measures based on (i) the Earth Movers Distance that takes into account local distance information encoded in histogram-based texture representations and (ii) a distance measure based on pole figure images. For this purpose, we evaluate and compare existing distance measures for selected use-cases. The present study gives insights into advantages and drawbacks of using certain texture representations and distance measures with emphasis on applications in materials design and optimal process control.
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来源期刊
CiteScore
3.30
自引率
5.60%
发文量
96
审稿时长
1.7 months
期刊介绍: Serving the multidisciplinary materials community, the journal aims to publish new research work that advances the understanding and prediction of material behaviour at scales from atomistic to macroscopic through modelling and simulation. Subject coverage: Modelling and/or simulation across materials science that emphasizes fundamental materials issues advancing the understanding and prediction of material behaviour. Interdisciplinary research that tackles challenging and complex materials problems where the governing phenomena may span different scales of materials behaviour, with an emphasis on the development of quantitative approaches to explain and predict experimental observations. Material processing that advances the fundamental materials science and engineering underpinning the connection between processing and properties. Covering all classes of materials, and mechanical, microstructural, electronic, chemical, biological, and optical properties.
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