@inproceedings { , title = {Measurement of internal surfaces of additively manufactured parts by X-ray computed tomography}, abstract = {Recent advances in X-ray computed tomography (XCT) have allowed for measurement resolutions approaching the point where XCT can be used for measuring surface topography. These advances make XCT appealing for measuring hard-to-reach or internal surfaces, such as those often present in additively manufactured parts. To demonstrate the feasibility and potential of XCT for topography measurement, topography datasets obtained using two XCT systems are compared to those from more conventional non-contact optical surface measurement instruments. A hollow Ti6Al4V part produced by direct metal laser sintering is used as a measurement artefact. The artefact comprises two component halves that can be separated to expose the internal surfaces. Measured surface datasets are compared by various qualitative and quantitative means, including the computation of ISO 25178-2 areal surface texture parameters. Preliminary results show that XCT can provide surface information comparable with more conventional surface measurement technologies, thus representing a viable alternative to more conventional measurement, particularly appealing for hard-to-reach and internal surfaces.}, conference = {7th Conference on Industrial Computed Tomography (iCT 2017)}, note = {Estimated date of acceptance. Asked Adam Thompson for exact date. Received email that no exact date so go with 8th December. KJH 11.12.2017}, organization = {Leuven, Belgium}, publicationstatus = {Published}, url = {https://nottingham-repository.worktribe.com/output/847081}, keyword = {additive manufacturing, surface topography, metrology}, year = {2017}, author = {Thompson, Adam and Körner, Lars and Senin, Nicola and Lawes, Simon and Maskery, Ian and Leach, Richard K.} }