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FABRICATION OF SMALL-DIAMETER ALUMINUM-S:EATED IRRADIATION CAPSULES
AUG 1 1 1964
J. D. Seace? und it. L. Lotts
Metals and Ceramics Division
Oak Ridge Nacional Laboratory
Oak Ridge, Tennessee
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LEGAL NOTICE
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A reliable procedure has been developed for making small-diameter
aluminun-sheathed irradiation capsules with high-integrity ision-welded
ciosures. Typically, an irradiation capsule (Fig. 1) consists on a
3;'S-in.-diam aluminum tube loaned with compacted PuO2-A2 pellets. These
capsules, which are being used to validate the design of the elements
For the FIR target, are currently being irradiated in the MAR (ref. 3)
and ir, a Savannah River Laboratory production reactor.
Mie major problem in fabricating aluminum capsules has been ena-
closure welås. Tais problem, which increases with decreasino tube diameter,
is typii'ied by "blowouts" or large voiá treas at the root of the weld
caused by the expansion of Gases inside the tube during welding. The
"blowoui" problem can be solved by welding under a vacuum with an electron
deam; however, the necessity for a heliun atmosphere inside the tube for
leak testing and heat transfer, plus the expense of electron-beam equilucent,
essentially eliminates this method.
In developing a successful fusion-welding procedure, a large number
of conventional weld joints, namely, butt, plug, and edge fusion designs,
were examined without satisfaction in light of a complete spectrum of
welding variables. With the joints investigated, the required rull
weld penetration could not be consistently obtained nor could the "blowout"
problem be eliminated regardless of the type of external heat sink applied.

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,
Research sponsored by the U. S. Atomic Energy Commission under contract
with the Union Carbide Corporation.
2Speaker. Sponsor: A. R. Olsen.
3J. D. Sease and D. M. Hewette II, Fabrication and Preirradiation Data
for HFI? Prototype Target Rods, ORNL TM-811 (June, 1964).
NCT FOR PUBLIC RELEASE OFFICIAL
1.77i.urlör SAME. OFFICIAL
REQUEST WAY BE FILLEO. REPCRT
CONTA!KS li bitilG OF PATENT INTEREST
PROCEDURES ON FILE IN RECEIVING
SECTION.
-
-
-
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The closure-welding procedure developed uses a standard tungsüen
inert-gas welding torch and a constant-current programmed direct-current
welding power supply. The weld is made under a helium blanke with the
rod rotating and with a heat sink attached to the tube. The success of
this welding procedure is the result of two significant developments:
First, rull one-wall thickric:68 weld penetration results from a step-type
Lid-flug design with a unique filler-metal principle (see insert, wg. 1)
in which the filler-metal is an integral part of the machined tube hardware.
Second, the "blowout" problem is eliminated by reducing the internal
pressure in the tube. Before welding, the end plug is mechanically bonded
to the tube by deforming the tubing in te swagging groove (Hg. 1, insert),
thereby effecting a vacuum-tight seal. The internal. gas pressure can then
be reduced by submerging the closed end of the tube in a bath of liquid
nitrogen, thus chilling th: gas in the tube. Using this procedure, 10
out of ll weld attempts on the last group of plutonium-containing
irradiation samples were successful ir. obtaining full weld penetration.
These welds were examined by soft x-ray techniques.
The major application for the welding procedure at ORNL is the
fabrication of the HFIR target elements. The fabrication for the first
loading of the target, which will contain 242 Pu, should present no
particular problem as the fabrication can be a gloved-box type oneration.
Subsequent loadings of the target will contain the transplutonic elements,
thus making complete remote fabrication mandatory. The fabrication of the
transplutonic-containing elements will be accomplished in the Oak Ridge
National Laboratory's Transuranium Facility. Currently, an in-cell
welding machine is being designed utilizing the principles outlined.
The major design problem in the in-cell machine is remote torch position-
ing and maintaining a reduced pressure inside the tube during welding.
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DATE FILMED
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LEGAL NOTICE
This report was prepared as an account of Government sponsored work. Neither the United
States, aor the Commission, nor any person acting on behalf of the Commission:
A. Makes any warranty or representation, expressed or implied, with respect to the accu-
racy, completeness, or usefulness of the information contained in this report, or that the use
of any information, apparatus, method, or process disclosed in this report may not infringe
privately owned rights; or
B. Assumes any llabilities with respect to the use of, or for damages resulting from the
use of any information, apparatus, method, or process disclosed in this report.
As used in the above, “person acting on behalf of the Commission” includes any em-
ployos or contractor of the Commission, or employee of such contractor, to the extent that
such employee or contractor of the Commission, or employee of such contractor prepares,
disseminates, or provides access to, any information pursuant to his employment or contract
with the Commission, or his employment with such contractor.
END
.