The Plymouth Student Scientist
Document Type
Geography, Earth and Environmental Sciences Article
Abstract
Gilsocarbon is a graphite grade used as a main structural proponent of the current UK fleet of Advanced Gas-Cooled Reactors. In this research, multiple gilsocarbon graphite samples were thermally oxidised in an attempt to simulate the effects on the graphite of radiolytic oxidation, which occurs in the reactors core. A combined technique of characterising virgin and thermally oxidised samples was taken, the Grand-canonical Monte-Carlo data from gas adsorption isotherms and mercury porosimetry intrusion data, giving percolation characteristics across the entire pore range of the graphite by stitching this data together via the simulation software PoreXpert. It was confirmed that oxidation did increase the specific pore volume significantly within the oxidised sample. The majority of this increased pore-volume was found to be from the creation of new smaller features by oxidation, while smaller void-structures were also found to coalesce to increase the number of larger pores present too. This information will allow future work to more easily draw parallels or see differences between thermal and radiolytic oxidation of gilsocarbon, further developing the current models pertaining to the radiolytic oxidation of nuclear graphite.
Publication Date
2019-07-24
Publication Title
The Plymouth Student Scientist
Volume
12
Issue
1
First Page
440
Last Page
466
ISSN
1754-2383
Deposit Date
July 2019
Creative Commons License
This work is licensed under a Creative Commons Attribution 4.0 International License.
Recommended Citation
Swain, Thomas
(2019)
"Thermal Oxidation and Subsequent Characterisation of Gilsocarbon Nuclear Graphite,"
The Plymouth Student Scientist: Vol. 12:
Iss.
1, Article 12.
DOI: https://doi.org/10.24382/qfg7-d388
Available at:
https://pearl.plymouth.ac.uk/tpss/vol12/iss1/12
