Historical experiment to measure irradiation-induced creep of graphite

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Abstract

This paper presents historical results of graphite irradiation-induced creep experiments that were performed at Oak Ridge National Laboratory from the 1950's to the 1970's. These experiments were performed at temperatures from 150°C to 1000 °C, and bend stresses ranging from 500 to 5000 psi (∼3.3–34.5 MPa). The experimental setup utilized in-situ measurement of specimen displacement, on-line applied stress control, and the ability to change stress during the experiment. The different stress conditions showed that the primary creep strain and the steady-state creep rates both have a linear stress dependence. The temperature range used in this work resulted in trends that have not be previously presented in the literature: 1) a linear dependence of primary creep strain on temperature, and 2) the shape of steady state creep rate versus temperature (see graphical abstract). The maximum dose in the specimens was 0.9 dpa, which is sufficient to achieve steady-state creep without the structural changes that alter the observed creep behavior. The results from this experiment provide evidence that dispels that the pinning-unpinning model describes the mechanism of irradiation creep in graphite. Instead these results suggest a dislocation climb mechanism is the probable mechanism for creep within the crystalline regions.

Original languageEnglish
Pages (from-to)279-288
Number of pages10
JournalCarbon
Volume139
DOIs
StatePublished - Nov 2018

Funding

Primary acknowledgement goes to C.R. Kennedy, whom was the principal researcher when these experiments were performed. This research was historically sponsored by the U.S. Department of Energy Gas-Cooled Reactor Program under contract W-7405-eng-26 . Oak Ridge National Laboratory is managed by UT-Battelle, LLC under Contract No. DE-AC05-00OR22725 for the U.S. Department of Energy. The author wishes to commend the ORNL research library staff for their invaluable assistance for locating many of these reports. The author wishes to thank David Hoelzer and Cristian Contescu at ORNL for valuable comments of this manuscript.

FundersFunder number
UT-Battelle, LLC
U.S. Department of EnergyW-7405-eng-26
Oak Ridge National Laboratory

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