→ rdfs:label → "Zeiss - Xradia 510 Versa: High-resolution computed tomography scanner"^^xsd:string
→ dcterms:description → "This scanner uses a two-stage magnification approach to achieve sub-micron spatial resolution at source to object distance much greater than these allowed in conventional XCT systems. Zeiss’s resolution at a distance, RaaDTM, approach combines the geometric magnification of the X-Ray imaging with a smart system of microscope lenses to further magnify the image. The system is fitted with X0.4, X4, X20, and X40 magnification lens mounted on a barrel mount for rapid change over. This means that the operator can achieve submicron resolution (pixel size ≥ 70 nm or spatial resolution ≥ 0.7 µm) at large working distances, allowing for imaging of larger specimens or small specimens in contained in-situ rings. Importantly, the machine is capable of phase-contrast imaging overcoming an imortant limitations of convectional absorption-based CT imaging; i.e. low or complete absence of contrast for low Z materials. The latter is particular useful for biomedical imaging, CFRP and polymer imaging appl"^^xsd:string
→ skos:notation → "E10960"^^http://id.southampton.ac.uk/ns/equipment-code-scheme
→ rdfs:comment → "This scanner uses a two-stage magnification approach to achieve sub-micron spatial resolution at source to object distance much greater than these allowed in conventional XCT systems. Zeiss’s resolution at a distance, RaaDTM, approach combines the geometric magnification of the X-Ray imaging with a smart system of microscope lenses to further magnify the image. The system is fitted with X0.4, X4, X20, and X40 magnification lens mounted on a barrel mount for rapid change over. This means that the operator can achieve submicron resolution (pixel size ≥ 70 nm or spatial resolution ≥ 0.7 µm) at large working distances, allowing for imaging of larger specimens or small specimens in contained in-situ rings. Importantly, the machine is capable of phase-contrast imaging overcoming an imortant limitations of convectional absorption-based CT imaging; i.e. low or complete absence of contrast for low Z materials. The latter is particular useful for biomedical imaging, CFRP and polymer imaging appl"^^xsd:string
→ dc:description → "This scanner uses a two-stage magnification approach to achieve sub-micron spatial resolution at source to object distance much greater than these allowed in conventional XCT systems. Zeiss’s resolution at a distance, RaaDTM, approach combines the geometric magnification of the X-Ray imaging with a smart system of microscope lenses to further magnify the image. The system is fitted with X0.4, X4, X20, and X40 magnification lens mounted on a barrel mount for rapid change over. This means that the operator can achieve submicron resolution (pixel size ≥ 70 nm or spatial resolution ≥ 0.7 µm) at large working distances, allowing for imaging of larger specimens or small specimens in contained in-situ rings. Importantly, the machine is capable of phase-contrast imaging overcoming an imortant limitations of convectional absorption-based CT imaging; i.e. low or complete absence of contrast for low Z materials. The latter is particular useful for biomedical imaging, CFRP and polymer imaging appl"^^xsd:string
→ rdfs:label → "University of Southampton"^^xsd:string
→ rdfs:label → "Mechanical Engineering"^^xsd:string
→ rdfs:label → "Faculty of Engineering and the Environment"^^xsd:string