N.J. Carson scite author profile

A total of 11,117 enriched uranium-5 w/o fissium alloy fuel pins were manufactured for EBR-II, Core I. These were made from a synthetic fission product alloy of nonradioactive elements, natural uranium, and enriched uranium. The material was supplied as precast billets. The manufacturing methods were developed for the EBR-II Fuel Cycle Facility. Experimental refabrication equipment was used to production test both the methods and the equipment. The billets were induction melted and pressure cast into precision-bore, high-silica glass molds in batches of 90 to 160. The number of molds used was adjusted according to batch w^eight. After casting, the molds were broken away and the castings were fed into a pin-process and inspection machine. Both ends were sheared from the castings to produce finished pins measuring 0.144 in. in diameter by 14.22 in. long. The pins were inspected for diameter, porosity, weight, and length. Rejected pins and sheared ends were broken into short lengths and returned for consolidation. Acceptable fuel pins w^ere sealed and sodium bonded in stainless steel jackets, and assembled into Core-I fuel elements.

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The Development of a Design and Fabrication Method for Plutonium-Bearing Zero-Power Reactor Fuel Elements.

Shuck¹,

Jelinek²,

Hins³

et al. 1967

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The Manufacture of Reactivity-Coefficient Elements for Zero-Power Reactor Experiments.

Carson¹,

Hins²,

Jelinek³

et al. 1968

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N.J. Carson

Manufacture of Fuel Plates for the Experimental Boiling Water Reactor

Measurement of cold work in Type 316 stainless steel

Fabrication of Ebr-Ii, Core-I Fuel Pins

The Development of a Design and Fabrication Method for Plutonium-Bearing Zero-Power Reactor Fuel Elements.

The Manufacture of Reactivity-Coefficient Elements for Zero-Power Reactor Experiments.

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