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Chemical Coolants for Machining Uranium in the Presence of Trace Amounts of Chloride
Discussion of laboratory tests to reduce uranium corrosion.
Date:
October 14, 1964
Creator:
Sprague, T. P.; Googin, J. M. & Phillips, L. R.
System:
The UNT Digital Library
X-Ray Fluorescence Tables: Program Description
Report discussing the mechanics of X-Ray and COMBO computer programs.
Date:
July 20, 1964
Creator:
Amsbury, W. P.; Lee, W. W.; Rowan, J. H. & Walden, G. E.
System:
The UNT Digital Library
Welded Repair of Fill and Drain Holes in High-Carbon Steel Gas Storage Cylinders
Report discussing the results of fill and drain holes for hydrostatic pressure tests on head knuckle radius of forged-steel gas storage cylinders.
Date:
November 5, 1964
Creator:
Thompson, J. C. & Lambert, F. J.
System:
The UNT Digital Library
Effect of Explosive Impacting on Uranium
Abstract: The tensile and yield strengths of both cast and wrought uranium discs were substantially increased by explosively impacting them at room temperature and at 375 deg F. However, the room-temperature impacting caused gross damage in the cast material and slight internal damage in the wrought material at the highest impacting pressures. Impacting at 375 deg F, which is just above the brittle-ductile transition temperature for uranium, was the most effective method for increasing the strengths with no damage to either the cast or wrought material. This impacted material retained some of its increased strength after a low temperature (425 deg C) vacuum anneal that greatly increased the elongation. A salt anneal caused a partial recrystallization in the impacted cast uranium. (auth).
Date:
April 23, 1964
Creator:
Burditt, R. B.; Carey, W. T. & Coughlen, C. P.
System:
The UNT Digital Library