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- Computed radiography (5) (entfernen)
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Different girth welds of tube sections have been inspected by elliptical projection technique
according to the EN 1435. The radiographic images were taken by using both film
radiography and computed radiography. The purpose of this study was to compare a C3
(AGFA D4) film system and a Duerr HDCR 35 NDT / HR IP imaging plate system with
respect to the exposure time, image quality and the detection of fine weld imperfections. The
results indicate to a dominant influence of the lead screens on the image contrast sensitivity if
doing the inspection according to the EN 14748 -2 for imaging plate exposures. New screen
combinations had been applied to make a computed radiograph of a testing class B quality
possible.
Computed Radiography exposure experiments on welded plate sections
were performed to demonstrate that the requirements for pressure vessels weld
inspection according to EN1435 or EN14784-2 class B can be achieved. The
representative comparative studies of the image qualities were performed with
standardized image quality indicators and image evaluation procedures on both film
and digital radiographs. Recommendations for weld inspections with CR systems
are drawn from the results. It is demonstrated that present CR systems can be used
for weld inspection and produce images with testing class B if the selected X-ray
tube voltage is reduced compared with the max. voltage of EN 14784-2 and set
equivalent to maximum X-ray voltage values for steel as defined in the radioscopic
standard EN 13068-3. The work was part of the European 'Filmfree' Project
promoted during the 6th framework.
The presently active standards on Computed Radiography (CR) need a major revision. It was observed by many users that the image quality for class B of EN 14784-2 is not achievable under the same exposure conditions as used for film exposure. A mathematical model was developed and tested, which allows the calculation of the image quality, proven by image quality indicators (IQI), depending on the fixed pattern noise and the efficiency of the used imaging plate (IP) scanner system. All tested IP scanner systems provide a fixed correlation between the measured signal/noise ratio (SNR) and the grey values in the digital images. The maximum achievable SNRmax depends on the fixed pattern noise of the plate (high dose limit). Depending on the exposure dose an optimum visibility of IQIs can be predicted by calculation and measured considering the attenuation coefficient for calculation of the contrast/noise ratio (CNR). The diameter of the just visible wire is proportional to 1/sqrt(CNR). The optimum tube voltage for best visibility of IQIs and maximum CNR depend on the exposure dose. The optimum tube voltage for best visibility is achieved only at exposures with high dose. A dose dependant optimal tube voltage was not observed for film radiography.
Industrial Radiology is used for volumetric inspection of industrial objects. By penetration of these objects (typically weldments, pipes or castings) with X-ray or Gamma radiation the 3D-volume is projected onto a 2D image detector. The X-ray film is the oldest radiographic image detector and still in wide use in industry. The industrial X-ray film systems used today differ from these used in medicine. Medical film systems are described well in the literature, but industrial film systems not. So we start with a description of the properties and standards for industrial film systems. The requirements on image quality are defined by several standards and can be verified with different image quality indicators (IQIs). They describe the ability of the human being to detect small and low contrast indications in a noisy image background. The essential parameters for digital industrial radiology are described.
Since about 30 years electronic image detectors are gradually replacing the industrial film. These detectors are based on storage phosphor imaging plates in combination with Laser scanners (“Computed Radiography”, CR) or a variety of different digital detector arrays (DDA). Typical applications of CR and DDAs are discussed as well as new possibilities by digital image processing, which is enabled by the computer based image handling, processing and analysis.