Investigating the variation of particle distribution and surface texture of top surfaces based on build position in laser powder bed fusion

Cindy Sithole , Helia Hooshmand , Luke Todhunter , Adam Thompson , Sipke Hoekstra , Athena Jalalian , Samanta Piano , Ian Gibson
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Abstract

Quality analysis of additively manufactured (AM) surfaces is complex, yet critical for determining the functionality of parts and technology improvement. To accurately assess the quality of AM parts, it is necessary to consider the industrial application of the technology. This study investigates the variation of accumulated particles on AM top surfaces as a function of build position. It also seeks to study the surface texture variation as a function of build position, focusing on a spatial bandwidth region larger than that of traditional AM surface features, such as weld tracks, to investigate surface tension effects. Ti-6Al-4V cubes were built in a three-by-three array in a single build with fixed processing parameters. Coherence scanning interferometry was used to capture the primary data of the as-built top surfaces of cubes. The ISO 25178-2 methodology was used to extract the S-L surfaces, using the filtration methods defined in ISO 16610-21. The number of particles, coverage, and density were obtained by averaging over five repeated measurements in five different areas on the top surfaces. Particle distribution and surface texture analysis showed a trend from one location to another across the build, which is discussed according to the process variations.

研究激光粉末床融合中基于构建位置的颗粒分布和顶面表面纹理的变化
快速成型(AM)表面的质量分析非常复杂,但对于确定零件的功能和技术改进至关重要。要准确评估 AM 零件的质量,就必须考虑到该技术的工业应用。本研究调查了 AM 表面累积颗粒随构建位置的变化。它还试图研究表面纹理随构建位置的变化,重点关注比传统 AM 表面特征(如焊接轨迹)更大的空间带宽区域,以研究表面张力效应。Ti-6Al-4V 立方体以三乘三阵列的形式在固定加工参数下进行一次构建。相干扫描干涉仪用于捕捉立方体竣工顶面的主要数据。采用 ISO 25178-2 方法,使用 ISO 16610-21 中定义的过滤方法提取 S-L 表面。通过对顶面五个不同区域的五次重复测量取平均值,得出颗粒数量、覆盖率和密度。颗粒分布和表面纹理分析表明,在整个制造过程中,不同位置的颗粒分布和表面纹理呈现出不同的趋势,这与工艺变化有关。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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CiteScore
3.80
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