Conventional design of radiation detectors uses sintered ceramic insulating
modules. The major drawback of these ceramic components is their inherent
brittleness, Ion chambers, in which these ceramic spacers are replaced by m
etallic components with plasma spray coated alumina, have been developed in
our Research Centre. These components act as thin spacers that have good m
echanical strength as well as high electrical insulation and replace alumin
a insulators with the same dimensions. As a result, the design of the beam
loss monitor ion chamber for CAT could be simplified by coating the outer s
urface of the HT electrode with alumina. One of the chambers developed for
isotope calibrator for brachytherapy gamma sources has its outer aluminium
electrode (60 mm dia x 220 mm long) coated with 250 mu thick alumina (97%)
+ titania (3%).
In view of potential applications in neutron-sensitive ion chambers used in
reactor control instrumentation, studies were carried out on alumina 100 m
u to 500 mu thick coatings on copper, aluminium and SS components. The elec
trical insulation varied from 10(8) ohms to 10(12) ohms for coating thickne
sses above 200 mu. The porosity in the coating resulted in some fall in ele
ctrical insulation due to moisture absorption. An improvement could be achi
eved by providing the ceramic surface with moisture-repellent silicone oil
coating. Irradiation at Apsara reactor core location showed that the coatin
g on aluminium was found to be unaffected after exposure to 10(17) nvt flue
nce.