Characterization of aperiodic surfaces with mesh-based parameters

IF 2 3区 材料科学 Q2 ENGINEERING, MECHANICAL
Stefanie Stöckel, F. Segel, Sophie Groeger
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引用次数: 0

Abstract

For technical surfaces, it is important to know their functional purpose and to characterize them accordingly. Therefore, ISO 21920–2 in 2D and ISO 25178–2 in 3D offer parameters that can assess surface functional properties. The topographic portions of a surface, for example hills and dales, can be classified as features and evaluated using feature parameters. However, no parameter exists to describe the spatial distribution of features with regard to the degree of homogeneity for aperiodic surfaces. Here we show the application of the Delaunay triangulation to quantify the spatial distribution respectively the geometric relationship of features. Therefore, the feature points are determined by watershed analysis and the resulting point cloud is meshed in 2D. Based on that mean and standard deviation of the triangle side lengths and the area disorder (AD) are calculated as new parameters. The method is demonstrated for sandblasted and chrome-plated specimens. In addition simulation is used to generate more data for analysis. With the proposed approach the distinction and extent of uniform, homogeneous or inhomogeneous spatial distributions of features with parameter AD can be determined.
基于网格参数的非周期曲面表征
对于技术表面,重要的是要知道它们的功能目的,并相应地表征它们。因此,2D的ISO 21920-2和3D的ISO 25178-2提供了可以评估表面功能特性的参数。表面的地形部分,例如丘陵和山谷,可以分类为特征并使用特征参数进行评估。然而,对于非周期曲面,没有参数来描述特征在均匀度方面的空间分布。在这里,我们展示了Delaunay三角剖分法的应用,分别量化了特征的空间分布和几何关系。因此,通过分水岭分析确定特征点,并将得到的点云进行二维网格划分。在此基础上,计算了三角形边长的均值、标准差和面积无序度作为新的参数。该方法对喷砂和镀铬试样进行了验证。此外,还使用仿真来生成更多的分析数据。利用该方法可以确定具有AD参数的特征的均匀、均匀或非均匀空间分布的区别和程度。
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来源期刊
Surface Topography: Metrology and Properties
Surface Topography: Metrology and Properties Materials Science-Materials Chemistry
CiteScore
4.10
自引率
22.20%
发文量
183
期刊介绍: An international forum for academics, industrialists and engineers to publish the latest research in surface topography measurement and characterisation, instrumentation development and the properties of surfaces.
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