Application of microCT to the non-destructive testing of an additive manufactured titanium component

Anton du Plessis , Stephan G. le Roux , Johan Els , Gerrie Booysen , Deborah C. Blaine
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引用次数: 72

Abstract

In this paper the application of X-ray microCT to the non-destructive testing of an additive manufactured titanium alloy component of complex geometry is demonstrated. Additive manufacturing of metal components is fast growing and shows great promise, yet these parts may contain defects which affect mechanical properties of the components. In this work a layered form of defect is found by microCT, which would have been very difficult or impossible to detect by other non-destructive testing methods due to the object complexity, defect size and shape and because the pores are entirely contained inside the object and not connected to the surface. Additionally, this test part was subjected to hot isostatic pressing (HIPPING) and subsequently scanned. Comparing before and after scans by alignment of the volumes allows visualization and quantification of the pore size changes. The application of X-ray microCT to additive manufacturing is thus demonstrated in this example to be an ideal combination, especially for process improvements and for high value components.

微ct在增材制造钛构件无损检测中的应用
本文介绍了x射线微ct在增材制造复杂几何钛合金构件无损检测中的应用。金属部件的增材制造正在快速发展并显示出巨大的前景,但这些部件可能存在影响部件机械性能的缺陷。在这项工作中,microCT发现了一种分层形式的缺陷,由于物体的复杂性,缺陷的大小和形状,以及由于孔隙完全包含在物体内部而不与表面连接,用其他无损检测方法很难或不可能检测到这种缺陷。此外,该测试部件经受热等静压(HIPPING)并随后进行扫描。通过体积对齐比较扫描前后,可以可视化和量化孔隙大小的变化。因此,在这个例子中,x射线微ct在增材制造中的应用是一个理想的组合,特别是对于工艺改进和高价值组件。
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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