Patent Number: 
Section: claims

1. The method of protectively coating metallic uranium which comprises dipping the metallic uranium in a molten alloy comprising about 20-75% of copper and about 80-25% of tin, dipping the coated uranium promptly into molten tin, withdrawing it from the molten tin and removing excess molten metal, thereupon dipping it into a molten metal bath comprising aluminum until it is coated with this metal, then promptly withdrawing it from the bath. 2. The process of  claim 1  wherein the aluminum bath comprises about 80-95% aluminum and about 20-5% silicon. claim 1 3. The method of protectively coating metallic-uranium which comprises dipping the metallic uranium in a molten alloy comprising about 20-75% of copper and about 80-25% of tin, dipping the coated uranium promptly into molten tin, withdrawing it from the molten tin and removing excess molten metal, thereupon dipping it into a molten alloy, comprising about 80-95% aluminum and about 20-5% silicon at a temperature of about 600xc2x0 C., promptly withdrawing the coated uranium from the aluminum silicon alloy and brazing it to solid aluminum by aluminum-silicon alloy of the aforesaid composition by bringing it while still at about 600xc2x0 C. into assembled relation with the molten alloy and solid aluminum and cooling the assembly to solidify the alloy. 4. The process of  claim 3  wherein the metallic uranium is maintained at a temperature of at least about 600xc2x0 C. throughout the process from the copper-tin alloy dip to the assembly. claim 3 5. The method of protectively coating a metallic uranium rod, which comprises dipping the metallic uranium rod in a molten alloy comprising about 20-75% of copper and about 80-25% of tin, dipping the coated uranium rod promptly into molten tin, withdrawing it from the molten tin and removing excess molten metal, thereupon dipping it into a molten metal bath of aluminum-silicon alloy comprising about 80-95% aluminum and about 20-5% silicon until it is coated with aluminum-silicon, then promptly withdrawing it from the aluminum-silicon bath, inserting the hot coated rod into a loosely fitting aluminum can at about 600xc2x0 C. containing sufficient molten aluminum-silicon alloy of the aforesaid composition to fill the space between the rod and the can, and cooling the resulting assembly to solidify the alloy. 6. The process of  claim 5  wherein the assembly of rod and can is immediately chilled to solidify the aluminum-silicon alloy. claim 5 7. The process of  claim 5  wherein the metallic uranium is maintained at a temperature of at least about 600xc2x0 C. throughout the process from the copper-tin alloy dip to insertion in the aluminum can. claim 5 8. The process of  claim 5  wherein the metallic uranium is maintained at a temperature of at least about 600xc2x0 C. throughout the process from the copper-tin dip to insertion in the aluminum can and the can is capped with an aluminum cap so that the clearance between cap and can is filled with the molten aluminum silicon alloy, and the assembly is thereupon chilled at once to cause the aluminum-silicon alloy to harden rapidly, forming a fine-grained alloy bond between the uranium rod and the aluminum can and cap. claim 5 9. The method of protectively coating a metallic uranium rod, which comprises dipping the metallic uranium rod in a molten alloy, comprising about 20-75% of copper and about 80-25% of tin, dipping the coated uranium promptly into molten tin, withdrawing it from the molten tin and removing excess molten metal, thereupon dipping it into a molten metal bath of sodium-modified, degassed aluminum-silicon alloy comprising about 80-95% aluminum and about 20-5% silicon until it is coated with sodium modified aluminum-silicon, then promptly withdrawing it from the sodium-modified aluminum-silicon bath, inserting the hot coated rod into a loosely fitting aluminum can at about 600xc2x0 C. containing sufficient sodium-modified, degassed aluminum-silicon alloy of the aforesaid composition to fill the space between the rod and the can, and cooling the resulting assembly to solidify the alloy. 10. The process of  claim 9  wherein the metallic uranium rod is maintained at a temperature of at least about 600xc2x0 C. throughout the process from the copper-tin alloy dip to insertion in the aluminum can. claim 9