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Zusammenfassung
Der Prototyp einer Flachröntgenröhre mit einer maximalen Röntgenenergie von 240kV (600W) und einer Brennfleckgröße von 0,4 * 0,4 mm nach DIN EN 12543 wird vorgestellt. Das Design dieser Flachröntgenröhre mit geringer Aufbauhöhe ist in Metall-Keramik-Technik ausgeführt. Die Beschleunigungsstrecke Katode-Anode ist senkrecht zur Haubenachse ausgeführt. Die Röhre ist als bipolares System aufgebaut. Kleine Durchmesser der Hochspannungskabel verringern das Gewicht und resultierende Kraftmomente bei der manuellen Manipulation sowie beim Verfahren in einem mechanisierten System. Der Targetwinkel beträgt 6° und bewirkt eine höhere Brillianz der Röntgenstrahlung. Die Geometrie des Strahlenaustrittsfensters (Emissionsfenster) ist in Fächerstrahlgeometrie zur tomografischen Prüfung ausgelegt.
Mechanisierte Durchstrahlungsprüfung - Innovative Techniken zur Bewertung von Rundschweißnähten
(2001)
The quantitative measurement of kind, positions and diameters of steel reinforce ments in building constructions is a typical inspection problem in civil engineering. A classical solution is the combination of film radiography with the multi angle technique and graphical backprojection. New digital detectors reduce the exposure time and allow the application of stereo radiography and computed laminography as routine applications.
The computed laminography allows fast and effectively the determination of the depth of reinforcements in concrete or masonry. A selected area of the steel re-bar structure is penetrated by gamma-rays from different angles of incidence (multi angle-technique) with a Co-60-source. Instead of a radiographic film phosphor imaging plates were used as a new digital medium for filmless radiography. A 3D-image of the measured region of interest is reconstructed from the digitised projections of a test block. The reconstruction is based on special tomosynthesis algorithms which need few projections only.
Radiographic techniques were uses in completion to other techniques like radar, electromagnetic alternating field inspection to examine the structure of different buildings. Experiences of inspections of historical buildings, ancient marble structures and a bridge girder are presented where different levels of radiography were applied.
Tomographical Computer Aided Radiology (TomoCAR) is based on the mechanical position control of
an X-ray tube in front of a welding seam and the application of a planar array detector behind it. Several hundred
radiometric projections in small angle steps are acquired. The tomographical reconstruction allows the three-dimensional
(3D) representation of the defects. A new radiometric array detector system with a small internal
unsharpness and high image contrast is used for the 2- and 3-dimensional visualization and sizing of planar defects
with a defect opening of less than 100 µm. This detector is based on a CMOS-flat panel with a direct converting
CdTe-single crystal layer. The small design allows the application of the mobile testing equipment for mechanized
X-ray inspection in industrial plants. The physical pixel size of the detector amounts to 0,1x0,1 mm². Nevertheless,
this system yields a better spatial resolution than indirect converting detectors (e.g. cameras with fluorescence
layers of Gd2O2S). It allows the reliable detection of planar defects with openings far below the detector pixel size
by subpixel resolution.
'TomoCAR' is qualified at present in the context with a German pilot study following to the ENIQ guidelines for
the employment within the nuclear power industry.