Comparison of medical and industrial X-ray computed tomography for non-destructive testing

Anton du Plessis , Stephan Gerhard le Roux , Anina Guelpa
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引用次数: 78

Abstract

Industrial X-ray computed tomography (CT) is an emerging laboratory-based non-destructive testing technique used in a variety of applications for samples ranging from 1 mm to usually 300 mm in diameter. Usually, microCT scanners are used for industrial non-destructive testing due to the superior resolution possible compared to medical CT scanners, but it is not generally known that medical CT scanners can produce reasonable results when high resolution is not needed. As demonstrated in this case study of very dense objects, far shorter scan time is required, compared to conventional laboratory industrial CT systems, consequently being a better solution for applications such as quick scout-scans, high throughput applications and larger objects. This case study makes use of four typical industrial test objects, specifically chosen as candidates which would be expected to be too dense for relatively low-voltage medical scanners. The respective test objects were scanned with both medical and microCT scanners and the results compared for the purpose of industrial non-destructive analysis. The test objects are a steel turbine blade, a titanium casting, a concrete cylinder with aggregate stones and porosity, and a concrete block with metal fiber reinforcement.

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用于无损检测的医用和工业x射线计算机断层扫描的比较
工业x射线计算机断层扫描(CT)是一种新兴的基于实验室的无损检测技术,用于各种应用,样品范围从1毫米到通常300毫米的直径。通常,微型CT扫描仪用于工业无损检测,因为它比医用CT扫描仪具有更高的分辨率,但通常不知道在不需要高分辨率的情况下,医用CT扫描仪是否能产生合理的结果。在这个非常密集的物体的案例研究中,与传统的实验室工业CT系统相比,所需的扫描时间要短得多,因此对于快速侦察扫描、高通量应用和较大物体等应用来说,这是一个更好的解决方案。本案例研究使用了四种典型的工业测试对象,专门选择作为候选对象,对于相对低压的医疗扫描仪来说,这些对象可能过于密集。分别用医用和微型ct扫描仪对测试对象进行扫描,并将结果进行比较,用于工业无损分析。试验对象为钢制涡轮叶片、钛合金铸件、集料多孔混凝土圆柱体、金属纤维增强混凝土块。
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Contents Editorial Board Editorial Board Contents Comparison of surface-based and image-based quality metrics for the analysis of dimensional computed tomography data
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