Title :
Fogging in Polyvinyl Toluene Scintillators
Author :
Cameron, Richard J. ; Fritz, Bradley G. ; Hurlbut, Charles ; Kouzes, Richard T. ; Ramey, Ashley ; Smola, Richard
Author_Institution :
PNNL, Richland, WA, USA
Abstract :
It has been observed that large polyvinyl toluene (PVT)-based gamma-ray detectors can suffer internal “fogging” when exposed to certain outdoor environmental conditions over long periods of time. When observed, this change results in reduced light collection by photomultiplier tubes connected to the PVT. Investigation of the physical cause of these changes has been explored, and a root cause identified. Water penetration into the PVT from hot, high-humidity conditions results in reversible internal water condensation at room temperature, and permanent micro-fracturing of the PVT at very low environmental temperatures. Mitigation procedures and methods are being investigated.
Keywords :
gamma-ray detection; photomultipliers; scintillation counters; PVT-based gamma-ray detectors; fogging; high-humidity condition; internal water condensation; light collection; mitigation procedures; permanent microfracturing; photomultiplier tubes; polyvinyl toluene scintillators; temperature 293 K to 298 K; Humidity; Permeability; Plastics; Polymers; Temperature measurement; Testing; Aging effects; PVT; crazing; fogging; linear expansion coefficient; plastic scintillator; polyvinyl toluene;
Journal_Title :
Nuclear Science, IEEE Transactions on
DOI :
10.1109/TNS.2015.2390076
