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Logo: Institute for Multiphase Processes
Logo Leibniz Universität Hannover
Logo: Institute for Multiphase Processes
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Industrial X-Ray Tomograph / Computertomograph, 420 kV

At the Institute for Multiphase Processes of the Leibniz University of Hannover X-ray tomograph (computer tomograph, CT) is used as a non-intrusive measuring system for complex multiphase flows. Since January 2003 the institute has been operated its own industrial X-ray tomograph. Identical x-ray tomographs are used in industry for example for non-destructive testing of materials and components as well as for measuring geometries for reverse engineering. Such equipment is used amongst others in the automotive and aircraft industries.

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Figure: X-Ray Tomograph, 420 kV

General specifications

 

 

manufacturer BIR Inc., USA
device under test max 600 mm x 1200 mm
spatial resolution < 0.1 mm
measurement process

2nd generation X-ray tomography
3nd generation X-ray tomography

radiography
x-ray tube and -detector: vertical translation

device under test: rotation and horizontal translation

 

 

X-ray tube

 

 

max. acceleration voltage 420 kV
max. anode current (at max. acc. voltage) 5.3 mA
max. rating 2240 W
focal value (IEC 336) 1.5 / 0.8
X-ray detector linear detector, photodiodes with scintillator

 

 

Scan service

 

Besides, the institute places the x-ray tomograph at the customers' disposal. Measurement services on behalf of third parties from different fields of industry and research can be also carried out. 

 

Do you have a specific measuring task?
Would you like to test if X-ray tomography is appropriate to your problem?
Do you need tomographic measurements but don't want to buy your own X-ray tomograph?

 

Please contact:
Dipl.-Ing. Rittinghaus

 

 

Examples

  • Cylinder head: measuring of inner and outer contours, cheching for pores, voids and embeddings
  • Corrugation: reverse engineering, implementing into CAD system
  • Sculpture: measuring of contours with complex undercuts for rapid prototyping duplication
  • Process engineering: liquid phase distribution in packing materials and fills
  • Composite, fiber reinforced materials: checking for delaminations, voids and embeddings