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Radiation enhanced diffusion in face centered cubic cu-zn alloys
Authors:W. Schüle  E. Lang  D. Donner  H. Penkuhn
Affiliation:1. Solid State Physics , Euratom (CCR), Ispra, Italy;2. Solid State Physics , Euratom (CCR), Ispra, Italy;3. Now at Reactor Materials Laboratory , C.C.R. EURATOM, Petten, N.H., Holland;4. Reactor Physics , Euratom (CCR), Ispra, Italy
Abstract:The enhancement of diffusion by neutron irradiation has been investigated on a Cu-36 percent Zn alloy for various neutron fluxes and irradiation temperatures by means of in-pile measurements of electrical resistivity. For fresh samples the diffusion rate depends on temperature with an activation energy of 0.35 eV. During repeated irradiations the diffusion rate decreases and becomes nearly temperature independent. The variation of the concentration of interstitials and vacancies with irradiation time has been numerically calculated for various neutron fluxes, irradiation temperatures and sink concentrations. A comparison of the experimental and theoretical results shows that the point defects annihilate in fresh samples mainly by pair recombination and in samples which had been repeatedly cycled by pair recombination and at fixed sinks. Point defect clusters acting as sinks are created during the course of the irradiation as shown by electron microscope investigations. The radiation enhanced diffusion rate was found to depend on interstitials only, the activation energy of which was determined to 0.70 eV.
Keywords:Energy loss  Ranges  Xenon  Mica  Makrofol-KG
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