An x-ray tomography facility for quantitative prediction of mechanical and transport properties in geological, biological and synthetic systems
Date
2004
Authors
Sakellariou, Arthur
Senden, Timothy
Sawkins, Tim
Knackstedt, Mark
Turner, Michael
Jones, Anthony
Saadatfar, Mohammad
Roberts, Raymond
Limaye, Ajay
Arns, Christoph
Journal Title
Journal ISSN
Volume Title
Publisher
SPIE - The International Society for Optical Engineering
Abstract
A fully integrated X-ray tomography facility with the ability to generate tomograms with 20483 voxels at 2 micron spatial resolution was built to satisfy the requirements of a virtual materials testing laboratory. The instrument comprises of a continuously pumped micro-focus X-ray gun, a milli-degree rotation stage and a high resolution and large field X-ray camera, configured in a cone beam geometry with a circular trajectory. The purpose of this facility is to routinely analyse and investigate real world biological, geological and synthetic materials at a scale in which the traditional domains of physics, chemistry, biology and geology merge. During the first 2 years of operation, approximately 4 Terabytes of data have been collected, processed and analysed, both as static and in some cases as composite dynamic data sets. This incorporates over 300 tomograms with 10243 voxels and 50 tomograms with 20483 voxels for a wide range of research fields. Specimens analysed include sedimentary rocks, soils, bone, soft tissue, ceramics, fibre-reinforced composites, foams, wood, paper, fossils, sphere packs, bio-morphs and small animals. In this paper, the flexibility of the facility is highlighted with some prime examples.
Description
Keywords
Keywords: Cameras; Data reduction; Electron beams; Groundwater; Porous materials; Radiography; Transport properties; X ray analysis; Biological systems; Mesoscale physics; Transport and mechanical properties; X-ray micro-tomography; Tomography Mesoscale physics; Porous media; Transport and mechanical properties; X-ray micro-tomography
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Source
An x-ray tomography facility for quantitative prediction of mechanical and transport properties in geological, biological and synthetic systems
Type
Conference paper
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DOI
10.1117/12.559200
Restricted until
2037-12-31