The effect of temperature on the growth and properties of chemical vapor deposited ZrC films on SiC-coated graphite substrates

SiC and ZrC are critical and essential materials in TRISO coated fuel particles since they act as protective layers against the diffusion of metallic and gaseous fission products and provide mechanical strength for the fuel particles. However, SiC and ZrC have critical disadvantages in that SiC lose...

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Bibliographic Details
Published in:Ceramics international 2015-01, Vol.41 (1), p.211-216
Main Authors: Kim, Jun Gyu, Park, Si Jung, Park, Ji Yeon, Choi, Doo Jin
Format: Article
Language:English
Subjects:
B. Whisker
Ceramics
Chemical composition
Deposition
Graphite
Hardness
Hardness and elastic modulus
Mechanical properties
Modulus of elasticity
Silicon carbide
TRISO-coated fuel particles
Vapour
Zirconium carbide
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Summary:SiC and ZrC are critical and essential materials in TRISO coated fuel particles since they act as protective layers against the diffusion of metallic and gaseous fission products and provide mechanical strength for the fuel particles. However, SiC and ZrC have critical disadvantages in that SiC loses its chemical integrity by thermal dissociation at high temperature and the mechanical properties of ZrC are weaker than those of SiC. In order to address these problems, we made new combinations of ZrC coating layers and deposited them on SiC using a chemical vapor deposition process. We varied the growth temperature to optimize the growth conditions and analyzed the changes of the microstructure, chemical composition, and mechanical properties of the ZrC films. The deposition temperature was varied from 1200 to 1500°C and ZrC changed from a whisker structure to a film at a temperature of 1400°C. The preferred orientation was changed from the (111) plane to (220) and the chemical composition became stoichiometric. Also, the hardness and elastic modulus of ZrC increased when it was deposited at a higher temperature.
ISSN:0272-8842
1873-3956
DOI:10.1016/j.ceramint.2014.08.060