→ 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 → "University of Southampton"^^xsd:string
→ rdfs:label → "Mechanical Engineering"^^xsd:string
→ rdfs:label → "Faculty of Engineering and the Environment"^^xsd:string