Add to ORKGAt the end of their service lives, various stainless steel components of nuclear weapons that have been exposed to tritium gas are evaluated to determine the extent of the tritium permeation. This information is then used to assess the decrement to performance caused by hydrogen (tritium) embrittlement. This evaluation is currently performed using a photo-emulsion based method and requires 24 hours or longer to complete. A system based on digital imaging technology has recently been designed and built at the Savannah River National Laboratory that performs this evaluation in 10 minutes or less on typical samples
The Enhanced Surveillance Campaign is funding a program to investigate tritium aging effects on the ...
Characterizing, handling, and storing tritiated waste is challenging because of the physical and che...
Stainless-steel specimens of 15 mm square and 0.5 mm thickness in which tritium was dissolved with a...
This report introduces a technique known as tritium autoradiography which may be useful in the detec...
Systems to safely analyze for tritium in moisture collected from glovebox atmospheres are being deve...
Tritium accumulation in fusion reactor materials is considered a serious radiological issue, therefo...
Tritium distribution in stainless steel type 316 exposed to tritium-containing hydrogen at various t...
In order to locate hydrogen trapped in the microstructure of stainless alloys and/or steels, tritium...
International audienceTritium is a radionuclide very difficult to analyze mainly because of its ener...
Princeton Plasma Physics Laboratory (PPPL) has developed a method of imaging tritium on in-situ surf...
grantor: University of TorontoTritium Imaging electrostatically focuses secondary electron...
Tritium has applications in the pharmaceutical industry as a radioactive tracer, in the radiolumines...
The objective of this Plant Directed Research and Demonstration (PDRD) task was to develop a system ...
A imaging detector has been developed for the purpose of providing a non-destructive, real time meth...
There are specific components in the SRS Tritium Facilities that are required to introduce as few ch...
The Enhanced Surveillance Campaign is funding a program to investigate tritium aging effects on the ...
Characterizing, handling, and storing tritiated waste is challenging because of the physical and che...
Stainless-steel specimens of 15 mm square and 0.5 mm thickness in which tritium was dissolved with a...
This report introduces a technique known as tritium autoradiography which may be useful in the detec...
Systems to safely analyze for tritium in moisture collected from glovebox atmospheres are being deve...
Tritium accumulation in fusion reactor materials is considered a serious radiological issue, therefo...
Tritium distribution in stainless steel type 316 exposed to tritium-containing hydrogen at various t...
In order to locate hydrogen trapped in the microstructure of stainless alloys and/or steels, tritium...
International audienceTritium is a radionuclide very difficult to analyze mainly because of its ener...
Princeton Plasma Physics Laboratory (PPPL) has developed a method of imaging tritium on in-situ surf...
grantor: University of TorontoTritium Imaging electrostatically focuses secondary electron...
Tritium has applications in the pharmaceutical industry as a radioactive tracer, in the radiolumines...
The objective of this Plant Directed Research and Demonstration (PDRD) task was to develop a system ...
A imaging detector has been developed for the purpose of providing a non-destructive, real time meth...
There are specific components in the SRS Tritium Facilities that are required to introduce as few ch...
The Enhanced Surveillance Campaign is funding a program to investigate tritium aging effects on the ...
Characterizing, handling, and storing tritiated waste is challenging because of the physical and che...
Stainless-steel specimens of 15 mm square and 0.5 mm thickness in which tritium was dissolved with a...