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Response of Solute and Precipitation Strengthened Copper Alloys at High Neutron Exposure

A variety of solute and precipitation strengthened copper based alloys were irradiated to displacement levels of 34 dpa at 411 deg C, and 50, 100, and 150 dpa at 414 deg C in the fast flux test facility to assess their potenital for high heat flux applications in fusion reactors. Several MZC-type al...

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Main Authors:	Garner, F A, Hamilton, M L, Shikama, T, Edwards, D J, Newkirk, J W
Format:	Conference Proceeding
Language:	English
Subjects:	360106 70 PLASMA PHYSICS AND FUSION TECHNOLOGY 700480 COMPONENT DEVELOPMENT COPPER BASE ALLOYS DAMAGING NEUTRON FLUENCE DISPLACEMENT RATES MATERIALS SCIENCE MATERIALS STUDIES PHYSICAL RADIATION EFFECTS RADIATION EFFECTS SWELLING TENSILE PROPERTIES THERMAL CONDUCTIVITY THERMONUCLEAR REACTOR MATERIALS
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container_volume	191-194
creator	Garner, F A Hamilton, M L Shikama, T Edwards, D J Newkirk, J W
description	A variety of solute and precipitation strengthened copper based alloys were irradiated to displacement levels of 34 dpa at 411 deg C, and 50, 100, and 150 dpa at 414 deg C in the fast flux test facility to assess their potenital for high heat flux applications in fusion reactors. Several MZC-type alloys appear to offer the most promise for further study. For low fluence applications CuBeNi and spinodally strengthened CuNiTi alloys may also be suitable. Although Cu--2Be resists swelling, it is not recommended for fusion reactor applications because of its low conductivity.
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Several MZC-type alloys appear to offer the most promise for further study. For low fluence applications CuBeNi and spinodally strengthened CuNiTi alloys may also be suitable. 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ispartof	Journal of nuclear materials, 1991, Vol.191-194, p.386-390
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source	Backfile Package - Energy and Power [YER]; Backfile Package - Materials Science [YMS]
subjects	360106 70 PLASMA PHYSICS AND FUSION TECHNOLOGY 700480 COMPONENT DEVELOPMENT COPPER BASE ALLOYS DAMAGING NEUTRON FLUENCE DISPLACEMENT RATES MATERIALS SCIENCE MATERIALS STUDIES PHYSICAL RADIATION EFFECTS RADIATION EFFECTS SWELLING TENSILE PROPERTIES THERMAL CONDUCTIVITY THERMONUCLEAR REACTOR MATERIALS
title	Response of Solute and Precipitation Strengthened Copper Alloys at High Neutron Exposure
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