Abstract
The bushing described is characterized by a hollow with a joining member provided inside of at least one of the bushing's electrically conductive core soldered or embedded into a bore in the insulator. Thus, the concentration is limited of the material of the electrically conductive core in the area of the soldered or embedded joint of the support of the electrically conductive core and the insulator, and the resulting force effect is reduced of the difference in thermal dilatations of the materials of the electrically conductive core and the insulator.
Citation Formats
Zajic, V, and Banyr, J.
Radiation resistant electrical bushing for high pressures and temperatures.
Serbia and Montenegro: N. p.,
1980.
Web.
Zajic, V, & Banyr, J.
Radiation resistant electrical bushing for high pressures and temperatures.
Serbia and Montenegro.
Zajic, V, and Banyr, J.
1980.
"Radiation resistant electrical bushing for high pressures and temperatures."
Serbia and Montenegro.
@misc{etde_5473624,
title = {Radiation resistant electrical bushing for high pressures and temperatures}
author = {Zajic, V, and Banyr, J}
abstractNote = {The bushing described is characterized by a hollow with a joining member provided inside of at least one of the bushing's electrically conductive core soldered or embedded into a bore in the insulator. Thus, the concentration is limited of the material of the electrically conductive core in the area of the soldered or embedded joint of the support of the electrically conductive core and the insulator, and the resulting force effect is reduced of the difference in thermal dilatations of the materials of the electrically conductive core and the insulator.}
place = {Serbia and Montenegro}
year = {1980}
month = {Nov}
}
title = {Radiation resistant electrical bushing for high pressures and temperatures}
author = {Zajic, V, and Banyr, J}
abstractNote = {The bushing described is characterized by a hollow with a joining member provided inside of at least one of the bushing's electrically conductive core soldered or embedded into a bore in the insulator. Thus, the concentration is limited of the material of the electrically conductive core in the area of the soldered or embedded joint of the support of the electrically conductive core and the insulator, and the resulting force effect is reduced of the difference in thermal dilatations of the materials of the electrically conductive core and the insulator.}
place = {Serbia and Montenegro}
year = {1980}
month = {Nov}
}