Patent Number: 062228986
Section: description

For the purpose of this invention, it is preferred that the container and cover or cap be composed of a material non-fissionable by thermal neutrons, such as aluminum. The graphite coating to be applied to the container consists of colloidal graphite in water. When these preferred materials are used, the general method set forth above is observed within certain prescribed limits. In the first place, the coating may be applied to the exterior of the aluminum container by means of either simple immersion or spraying, the latter being preferred where the container has external radial fins in order to assure complete coverage of the corners or crevices with the coating. It was found that the coatings could be dried expediently by means of a brief exposure to a radiant lamp prior to coating. This method produced a uniform graphite coating free from cracks where the graphite applied consists of colloidal graphite in water. In the alternative, a commercial product, commonly know as Alrok, may be used. Alrok is composed of sodium carbonate and dichromate solution. The bonding agent is preferably an alloy of aluminum and silicon, having a melting point between 577.degree. and 584.degree. C. However, where the coating comprises a sodium carbonate and dichromate solution, a chemical reaction occurred with the exterior surface of the aluminum container causing the formation of an oxide thereon. Such coating proved to be permanent and could not be removed upon quenching as is possible in the case of graphite. In either case, the graphite and oxide proved to be resistant to the corrosive characteristics of the bonding alloy of aluminum and silicon. It has been found that the aluminum-silicon alloy must be maintained within the temperature limits of 588.degree.-594.degree. C. A lower temperature caused the alloy to begin to solidify, and the higher temperature caused the alloy to attack the aluminum container in an accelerated manner. Because the reaction of the alloy with the container is a function of temperature the time interim from the moment the aluminum-silicon alloy is placed in the container until the assembly is quenched in water, should be no greater than 30-40 seconds. A longer time has proven sufficient to permit the bonding agent to corrode completely through the aluminum container. Accordingly, as soon as the uranium is inserted into the container and the aluminum cap attached thereto, the assembly is quenched in water, causing the aluminum-silicon alloy to solidify into a uniform bond over the entire interface of the container and body. Of course, solidification of the alloy terminates its reaction with the aluminum container. Where graphite coating is used as distinguished from the oxide coating, the quench causes the graphite to flake off, because the coefficient of expansion of aluminum is greater than that of graphite. It is apparent, however, that inasmuch as the oxide coating is chemical in nature, it will not be removed by the water quench for which reason the graphite coating is preferred. Other variations from the preferred methods will be apparent and may be made without departing from the spirit and scope of the invention.