Life sciences, e.g. plant research, cochlear research.
Advanced materials, e.g. additive-manufacturing, fibre-reinforced & carbon-epoxy composites, light-alloy development. In the case of additive manufacturing samples, it is possible to obtain valuable information on surface morphology as a function of the build direction and the size and complexity of the design.
Biomedical applications, e.g. osteocyte lacunae in bone, response of bone to load & tensile testing.
Earth & environmental sciences, e.g. volcanic product/ash.
Fuel science, e.g. effects of production methodology for coal/coke samples.
Petroleum industry, e.g. quantifying micro-porosity in rocks & shales (pore-size distribution, shape, connectivity and tortuosity).
Non-destructive characterisation, e.g. fossil in amber.
Dynamic studies, e.g. observation of the evolution of metallic foams.
Demonstration of X-ray micro-tomography of coal fragment in small Eppendorf tube (OD ~ 10mm) acquired during the hot commissioning phase of MCT Beamline with the following detail: White beam with heavy in vacuo filtration (0.2 mm diamond, 5 mm Al & 0.5 mm Cu); Optique Peter white-beam detector system with 1X objective (located at ~23 m from source); sample is mounted on general-purpose air-bearing CT stage on table B1 located at ~21.5 m from source; 30 flat fields & 30 dark currents are collected at start & finish, 1801 images collected over 180 deg in 0.1 deg steps – “step-&-shoot” mode – exposure time per frame 20 msec – total collection time ~100 min (less than 40 sec exposure time for all frames); total data size ~20 GB – file format TIFF.
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X-ray phase-contrast images (11 keV monochromatic with 5X objective lens) collected at MCT beamline: (a) an insect, (b). fibrous paper (c). an eucalyptus leaf. Phase contrast is clearly present in these images (manifesting itself as black-white fringes enhancing edge structure in particular).
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Phase-retrieved tomography result for an insect inside small Eppendorf tube (ID ~ 5mm). (a). 3D rendering of the reconstruction data, (b). 3D colour segmentation using Dragonfly software. The data was collected using 12.7 keV monochromatic (Ru/C stripes), in vacuo filtration – 0.2 mm diamond, with 1X objective lens in the imaging detector, 1.5 m sample to the detector distance, 1801 images collected over 180 deg in 0.1 deg steps, 30 flat fields & 30 dark currents, “step-&-shoot” mode – exposure time per frame 40 msec – total collection time ~100 min – total data size ~19 GB – file format TIFF. TIE-Home phase retrieval was applied on the projection images before 3D reconstruction.
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Slice reconstruction of wood structure (toothpick) without TIE-Hom phase retrieval in (a) and with TIE-Hom phase retrieval in (b) with the 3D visualization of the (b) in (c). Data was taken using white beam, in vacuo filtration – 0.2 mm diamond, 5 mm Al, 0.1 mm Cu, using 20X objective lens, 1201 number of projections, 100 flats & 100 darks, sample-detector distance of 160 mm, exposure time of 0.7 s.
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Carbon fibre sample, tomography reconstruction using MCT pipeline, data presentation using Dragonfly softwareBeam-hardening correction is applied to the reconstructed data.
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Carbon fibre sample (PETG - Glycol modified Polyethelene Terephthalate) was collected using monochromatic 20 keV, exposure time 100 ms, 361 projection images at 160 mm sample to detector distance. The tomography reconstruction was done using MCT recontruction pipeline, data presentation using ORS-Dragonfly software.
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