Title :
High energy X-ray computed tomography for industrial applications
Author :
Izumi, S. ; Kamata, S. ; Satoh, K. ; Miyai, H.
Author_Institution :
ERL Hitachi Ltd., Ibaraki, Japan
fDate :
4/1/1993 12:00:00 AM
Abstract :
A high energy X-ray computed tomography (CT) system with an electron linear accelerator was developed to image cross-sections of large-scale and high-density materials. An electron linear accelerator is used as the X-ray source. The maximum X-ray energy is 12 MeV, and the average energy is around 4 MeV. The intensity of the X-ray fan beam passing through the test object is measured by a 15-channel detector array. CWO (CdWO4) scintillators and photodiodes are used as the X-ray detectors. The crosstalk noise due to scattering of X-ray photons by adjacent detectors is reduced to less than 1.6% by installing tungsten shields between the scintillators. Extra channels are used to compensate for base line shift of the circuits. These techniques allowed attainment of a dynamic range of more than 85 dB and a noise level comparable to the signal amplitude of X-rays transmitted in a 420-mm thick iron block. A spatial resolution of 0.8 mm was confirmed with an iron test piece 200 mm in diameter
Keywords :
X-ray applications; computerised tomography; electron accelerators; linear accelerators; nondestructive testing; 0.8 mm; 12 MeV; 4 MeV; CdWO4 scintillator; X-ray detectors; X-ray source; crosstalk noise; dynamic range; electron linac; electron linear accelerator; high energy X-ray computed tomography; high-density materials; photodiodes; spatial resolution; Computed tomography; Computer industry; Electrons; Iron; Large-scale systems; Linear accelerators; Testing; X-ray detection; X-ray detectors; X-ray imaging;
Journal_Title :
Nuclear Science, IEEE Transactions on
