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Eddy-Current Inspection of a Possible PWR Fuel Element

The following report follows the inspections of a number of eddy-current instrument procedures. The objectives of these tests were to detect both weld defects and lack of integrity of the body of the fuel elements.

Date: August 22, 1955

Creator: Stutz, David E.; Gibbs, Richard L.; Dickerson, Ronald F. & Wenk, Samuel A.

Item Type: Report

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Extrusion Cladding of Fuel Element

From introduction: "This investigation was undertaken with the general objective of determining whether uranium core could be sheathed with aluminum by an extrusion-cladding process. The ultimate objective of this work was to determine the feasibility of extrusion cladding flat plates of uranium."

Date: March 22, 1955

Creator: Slunder, C. J.; Fiorentino, R. J. & Hall, A. M.

Item Type: Report

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Extrusion Cladding of Uranium Fuel Plates

The following report describes two methods of extrusion cladding of uranium fuel plates that were investigated and evaluated.

Date: August 22, 1958

Creator: Fiorentino, Robert J.; Drennen, David C.; Slunder, Charles J. & Hall, A. M.

Item Type: Report

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High-Temperature Oxidation Resistance of Thin Iron-Chromium-Aluminum Alloy Sheet

Abstract: "The oxidation resistance of thin sheets of iron-28 w/o chromium-2.67 to 10.0 w/o alloys, nominally 0.004, 0.006, 0.008, 0.012, and 0.016 in. thick, was determined by exposure in static air for 100 hr at 2100 and 2300 F. A minimum of 3.67 and 9.37 w/o aluminum was necessary to prevent excessive oxidation of 0.004-in.-thick sheet material at 2100 and 2300 F, respectively. Correspondingly, specimens of lower aluminum content and greater thickness withstood the oxidation attack. Oxidatio… more

Date: October 22, 1957

Creator: Jablonowski, Edward J.; Shober, Frederic R. & Dickerson, Ronald F.

Item Type: Report

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Hydrogen Embrittlement of Zirconium

Abstract: "The amount of hydrogen normally present in zirconium and zirconium alloys suffices to reduce their ductility greatly in an impact test at room temperature, after slow cooling from 600 F. Quenching from 600 F or above gives high impact strength, as does removal of hydrogen by high-temperature vacuum annealing. This report discusses the evidence on hydrogen embrittlement, the diffusion, solid solubility, and equilibrium pressure of hydrogen of hydrogen in zirconium, the microstructure,… more

Date: August 22, 1952

Creator: Dayton, Russell Wendt; Schwope, A. D.; Muehlenkamp, G. T.; Saller, Henry A.; Dickerson, R. F.; Schwartz, C. M. et al.

Item Type: Report

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Mechanical Properties of Zirconium-Tin Alloys

Abstract: "The mechanical properties and corrosion resistance of induction-melted, zirconium-tin alloys have been determined. The alloys investigated contained from zero to five per cent tin and up to 0.3% carbon. The zirconium used was United States Bureau of Mines sponge zirconium. The mechanical properties investigated include the tensile, hot-hardness, and impact properties."

Date: December 22, 1952

Creator: Schwope, A. D. & Chubb, Walston

Item Type: Report

UNT Libraries Government Documents Department - 6 Matching Results

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Eddy-Current Inspection of a Possible PWR Fuel Element

Extrusion Cladding of Fuel Element

Extrusion Cladding of Uranium Fuel Plates

High-Temperature Oxidation Resistance of Thin Iron-Chromium-Aluminum Alloy Sheet

Hydrogen Embrittlement of Zirconium

Mechanical Properties of Zirconium-Tin Alloys