Irradiation-enhanced creep of cold-worked Zr-2.5Nb tubes and helical-springs by A. R. Causey

Cover of: Irradiation-enhanced creep of cold-worked Zr-2.5Nb tubes and helical-springs | A. R. Causey

Published by Reactor Materials Research Branch, Chalk River Laboratories in Chalk River, Ont .

Written in English

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Subjects:

  • Nuclear fuel claddings -- Effect of radiation on,
  • Zirconium alloys -- Creep

Edition Notes

Book details

Other titlesAugmentation par irradiation du fluage des tubes et des ressorts hélicoïdaux en Zr-2, 5Nb travaillés à froid.
Statementby A.R. Causey and R.J. Klassen.
SeriesAECL research -- 10756, AECL research (Series)
ContributionsKlassen, R. J.
Classifications
LC ClassificationsTK9207.5 .C28 1993
The Physical Object
Pagination20 p. :
Number of Pages20
ID Numbers
Open LibraryOL17378832M
ISBN 100660154986

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Irradiation-enhanced creep of cold-worked ZrNb tubes and helical-springs. Chalk River, Ont.: Reactor Materials Research Branch, Chalk River Laboratories, (OCoLC) Online version: Causey, A.R., Irradiation-enhanced creep of cold-worked ZrNb tubes and helical-springs.

For cold-worked zirconium alloys, such as SRA Zircaloy or cold-worked Zr–Nb alloy, the SIPA mechanism on the initial dislocations is a likely mechanism for irradiation creep. However, according to Holt, the creep anisotropy of cold-worked zirconium alloys computed from the SIPA mechanism assuming only hai type dislocations is not in.

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