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Oriented Dioxide Films on Uranium
This report deals with the formation of oriented layers of an oxide which form during oxidation without any evident relationship to the parent and underlying metal. It is offered without explanation or proposed mechanism.
Date:
July 6, 1954
Creator:
Waber, James T. & O'Rourke, J. A.
System:
The UNT Digital Library
Radiation Effects Quarterly Progress Report for April-June 1954
A report about anomalous low temperature thermal conductivity of grapnite samples.
Date:
December 6, 1954
Creator:
Faris, Frank E.
System:
The UNT Digital Library
Corrosion Effects of Lowering the pH in TBP Waste Storage Tanks
Large savings in waste storage space may be realized by lowering the pH at which TBP waste is stored. Additional savings in neutralizing chemicals and operating time would also increase the monetary gain from such a process change. However, before such a change could be made, the corrosive effect of TBP waste at a lower pH on the mild steel waste storage tanks had to be determined.
Date:
April 6, 1954
Creator:
Groves, N. D.
System:
The UNT Digital Library
Maximum Temperature in Thin Rectangular Uranium Wafers
Temperature calculations have been made to aid in planning a production test for low level irradiation of the thin rectangular uranium wafers. These uranium wafers, under irradiation in the outer fringe sone, are expected to have a maximum temperature which is less than 10 C above the local water temperature.
Date:
January 6, 1954
Creator:
McNutt, C. R.
System:
The UNT Digital Library
A Comparison of the Neutron Yields from Low-Voltage Sources
The description of the thick-target neutron yields from the D(t,n)He4 and the D(d,n)He3 reactions is calculated as a function of the energy of the bombarding particles. For 60-kev particles the ratio is 108. I increases to 168 at 100 Kev and to 194 for 120-kev particles. A qualitative discussion of the yields from various deuterium target leads to the conclusion that the greatest yield would come from the target which has the lowest stopping cross section per deuterium atom.
Date:
October 6, 1954
Creator:
Cooper, John N.
System:
The UNT Digital Library