Applying lab-based DCT to reveal and quantify the 3D grain structure of a miniature chess rook produced by binder jetting

J Sun, F Bachmann, J Oddershede, E Lauridsen
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Abstract

Imaging the 3D grain microstructure of additively manufactured (AM) metal samples non-destructively is key to a better understanding of the material performance. Recent advances of lab-based diffraction contrast tomography (DCT) enable non-destructively mapping the spatial distribution of crystallographic orientations in the bulk of certain types of metal AM parts. Combining these 3D texture measurements with traditional absorption contrast tomography (ACT) gives unprecedented insights into materials structure, such as the spatial distribution of porosities and the relationship between microstructural anisotropies and the build direction. Here, the combination of ACT and DCT is exemplified for a metal AM sample produced by binder jetting. This application highlights some of the recent technical progress enabling 3D mapping of metal AM structures and leads to a discussion of remaining challenges for lab-based DCT in the metal AM field.
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应用基于实验室的 DCT 技术揭示和量化通过粘合剂喷射生产的微型国际象棋棋子的三维晶粒结构
对快速成型(AM)金属样品的三维晶粒微观结构进行非破坏性成像,是更好地了解材料性能的关键。基于实验室的衍射对比层析成像(DCT)技术的最新进展使我们能够以非破坏性方式绘制出某些类型金属快速成型部件的晶体取向空间分布图。将这些三维纹理测量与传统的吸收对比层析成像技术(ACT)相结合,可以获得前所未有的材料结构洞察力,例如孔隙的空间分布以及微结构各向异性与构建方向之间的关系。在这里,将 ACT 和 DCT 结合使用的实例是通过粘合剂喷射生产的金属 AM 样品。该应用强调了最近在金属 AM 结构三维绘图方面取得的一些技术进展,并引出了对金属 AM 领域基于实验室的 DCT 所面临的挑战的讨论。
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