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Techniques for high-fidelity X-ray micro-tomography of additively manufactured metal components

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Authors

Kingston, Andrew
Yang, Qiheng
Grewar, Murdock
Delgado-Friedrichs, Olaf
Myers, Glenn
Latham, Shane
Sheppard, Adrian

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Taylor & Francis Group

Abstract

Additive manufacturing is revolutionising the production of complex-shaped components and finding widespread application in the industries where production volumes are low and part geometries are complex. High-fidelity 3D imaging of additively manufactured metal parts, as the most effective nondestructive evaluation method, is crucial to maintaining the quality of safety-critical components during manufacturing. However, 3D X-ray imaging of large metallic parts is complicated by strong, nonlinear interactions between the sample and the X-ray beam; phenomena such as beam hardening, photon starvation and X-ray scatter are difficult to account for and cause artefacts in the computed 3D tomographic volume. These artefacts can obscure real defects and cause severe inaccuracies in analysis and evaluation. Here we present several techniques developed in the CTLab at the Australian National University that enhance the micro-tomography instruments' ability to image large, complex metallic components.

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Nondestructive Testing and Evaluation

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Open Access

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CC-BY-NC-ND 4.0

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