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synchrotron and/or lab-based characterisation techniques such as, micro and nano-X-ray Computed Tomography, X-ray Absorption Spectroscopy, Transmission Electron Microscopy and Scanning Electron Microscopy
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technology performed in autoclaves for steel embedded in different cement types, coupled with advanced synchrotron and/or lab-based characterisation techniques such as, micro and nano-X-ray Computed Tomography
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or non-weightbearing three-dimensional X-ray computed tomography (CT) images, which can be generated with equipment readily available in most clinical settings. This PhD project will explore
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trained and become a proficient user of a range of advanced experimental techniques. For instance, you will learn how to use in-situ X-ray Computed Tomography (XCT), a non-destructive imaging technique
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the steel pipe remain stable against corrosion when exposed to the CO2 stream. This Ph.D. project (DCR9) will use time-resolved X-ray computed tomography (CT) and complementary techniques, including
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: Scalability of learned reconstructions for cone-beam computed tomography and applications in medicine. Supervisor: Andreas Hauptmann RU Mathematical Sciences: Advanced image reconstruction for low-field
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nanometre resolution of the micrometre one) will be carried out to collect information about the 3D microstructure of the electrode. Among the techniques to be used, X-ray absorption tomography as well as FIB
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state-of-the-art microscopy and X-ray computed tomography (CT) methods, the long-term structural and mechanical effects of CO2 in its liquid or supercritical phase on rocks will be investigated
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techniques such as destructive, time-consuming sample preparation and complexity of operando setup. Therefore, imaging techniques such as X-ray computed tomography (XCT), play an important role in providing
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-resolution X-ray computed tomography (CT) will be employed to observe and quantify the dynamic changes of defects in AM Ni-based alloys with varying porosities and printing orientations during fatigue testing