→ dcterms:description → "A dedicated centre for computed tomography (CT) at Southampton, providing complete support for 3D imaging science, serving Engineering, Biomedical, Environmental and Archaeological Sciences. The centre encompasses five complementary scanning systems supporting a wide range of sample sizes (imaged volumes up to 1.5 x 1 x 1m) and resolution (down to ~200nm). Both academic and industrial consultancy services are provided."^^xsd:string
→ skos:notation → "F10025"^^http://id.southampton.ac.uk/ns/equipment-code-scheme
→ rdfs:comment → "A dedicated centre for computed tomography (CT) at Southampton, providing complete support for 3D imaging science, serving Engineering, Biomedical, Environmental and Archaeological Sciences. The centre encompasses five complementary scanning systems supporting a wide range of sample sizes (imaged volumes up to 1.5 x 1 x 1m) and resolution (down to ~200nm). Both academic and industrial consultancy services are provided."^^xsd:string
→ dc:description → "A dedicated centre for computed tomography (CT) at Southampton, providing complete support for 3D imaging science, serving Engineering, Biomedical, Environmental and Archaeological Sciences. The centre encompasses five complementary scanning systems supporting a wide range of sample sizes (imaged volumes up to 1.5 x 1 x 1m) and resolution (down to ~200nm). Both academic and industrial consultancy services are provided."^^xsd:string
→ skos:notation → "5"^^http://id.southampton.ac.uk/ns/building-code-scheme
→ dcterms:spatial → "POLYGON((-1.39507105982364 50.9355985024304,-1.39502425759734 50.9356624730956,-1.39500278786205 50.935691797672,-1.39468011301199 50.9355981061517,-1.39466969255469 50.9356123721839,-1.39464013798185 50.9356037672761,-1.39461193088193 50.9355956152567,-1.39457132703108 50.9355837835038,-1.39451626030417 50.9355677625131,-1.39452937570731 50.9355497035098,-1.39444475440755 50.935525077585,-1.39445454604415 50.935511773919,-1.39453377745221 50.9355348147339,-1.39454078431142 50.9355253040304,-1.3945460843716 50.9355180011674,-1.39455812179641 50.9355015838745,-1.39458956283135 50.93545867244,-1.39464714484106 50.9354753728051,-1.39466609929356 50.9354808641102,-1.39469673184475 50.935489808709,-1.39473428142362 50.9355006780926,-1.39480605681482 50.9355215110707,-1.39492409544316 50.9355557609192,-1.39499901493785 50.9355776128755,-1.39507105982364 50.9355985024304))"^^xsd:string
← is
foaf:depicts of
← https://data.southampton.ac.uk/image-archive/buildings/100/5.jpg,
https://data.southampton.ac.uk/image-archive/buildings/1000/5.jpg,
https://data.southampton.ac.uk/image-archive/buildings/1600/5.jpg,
https://data.southampton.ac.uk/image-archive/buildings/1920/5.jpg,
https://data.southampton.ac.uk/image-archive/buildings/200/5.jpg,
https://data.southampton.ac.uk/image-archive/buildings/220x220/5.jpg,
https://data.southampton.ac.uk/image-archive/buildings/240x260/5.jpg,
https://data.southampton.ac.uk/image-archive/buildings/300/5.jpg,
https://data.southampton.ac.uk/image-archive/buildings/320x198/5.jpg,
https://data.southampton.ac.uk/image-archive/buildings/400/5.jpg,
https://data.southampton.ac.uk/image-archive/buildings/480x297/5.jpg,
https://data.southampton.ac.uk/image-archive/buildings/50/5.jpg,
https://data.southampton.ac.uk/image-archive/buildings/600/5.jpg,
https://data.southampton.ac.uk/image-archive/buildings/800/5.jpg,
https://data.southampton.ac.uk/image-archive/buildings/800x600/5.jpg,
https://data.southampton.ac.uk/image-archive/buildings/raw/5.jpg
→ rdfs:label → "Mechanical Engineering"^^xsd:string
→ skos:notation → "BX"^^http://id.southampton.ac.uk/ns/alphaCode,
"A3DABX0000"^^http://id.southampton.ac.uk/ns/10CharHRCode
→ rdfs:label → "Faculty of Engineering and the Environment"^^xsd:string
→ rdfs:label → "Nikon - HMX: 225kV Microfocus Computed Tomography Scanner"^^xsd:string
→ dcterms:description → "This is a custom Nikon XTEK XTH 225 kVp micro-focus CT system equipped with a robotic sample exchanger (~ 150 mm height limit). It is perfect for relatively small specimens (< 300 mm in height) that can be scanned using a 225 kVp X-Ray source. The source can be configured for high resolution or high flux through a range of different anodes; namely a transmission anode (spot ≥ 1 µm, low flux), a standard multi-material reflection anode (spot ≥ 3 µm, 'normal' flux) and a rotating anode (spot ≥ 10µm, x3 -5 flux). A labyrinth at the rear of the system allows routing of cables and pipes that can control and feed in-situ rigs for time-resolved (4D) µ-CT experiments."^^xsd:string
→ skos:notation → "E10884"^^http://id.southampton.ac.uk/ns/equipment-code-scheme
→ rdfs:comment → "This is a custom Nikon XTEK XTH 225 kVp micro-focus CT system equipped with a robotic sample exchanger (~ 150 mm height limit). It is perfect for relatively small specimens (< 300 mm in height) that can be scanned using a 225 kVp X-Ray source. The source can be configured for high resolution or high flux through a range of different anodes; namely a transmission anode (spot ≥ 1 µm, low flux), a standard multi-material reflection anode (spot ≥ 3 µm, 'normal' flux) and a rotating anode (spot ≥ 10µm, x3 -5 flux). A labyrinth at the rear of the system allows routing of cables and pipes that can control and feed in-situ rigs for time-resolved (4D) µ-CT experiments."^^xsd:string
→ dc:description → "This is a custom Nikon XTEK XTH 225 kVp micro-focus CT system equipped with a robotic sample exchanger (~ 150 mm height limit). It is perfect for relatively small specimens (< 300 mm in height) that can be scanned using a 225 kVp X-Ray source. The source can be configured for high resolution or high flux through a range of different anodes; namely a transmission anode (spot ≥ 1 µm, low flux), a standard multi-material reflection anode (spot ≥ 3 µm, 'normal' flux) and a rotating anode (spot ≥ 10µm, x3 -5 flux). A labyrinth at the rear of the system allows routing of cables and pipes that can control and feed in-situ rigs for time-resolved (4D) µ-CT experiments."^^xsd:string
→ 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
