Microstructure and molten salt impregnation characteristics of a micro-fine grain graphite for use in molten salt reactors

Publication date: December 2016 Source:New Carbon Materials, Volume 31, Issue 6 Author(s): Wen-ting Zhang, Bao-liang Zhang, Jin-liang Song, Wei Qi, Xiu-jie He, Zhan-jun Liu, Peng-fei Lian, Zhou-tong He, Li-na Gao, Hui-hao Xia, Xiang-dong Liu, Xing-tai Zhou, Li-bin Sun, Xin-xin Wu The microstructure and molten salt impregnation characteristics of a micro-fine grain isotropic graphite ZXF-5Q from Poco Inc. was investigated. The microstructural characteristics of the pores caused by gas evolution, calcination cracks, Mrozowski cracks, and the crystal structure were characterized by optical microscopy, mercury porosimetry, helium pycnometry, transmission electron microscopy, X-ray diffraction and Raman spectroscopy. Results show that the ZXF-5Q has uniformly-distributed pores caused by gas evolution with very small entrance diameters (∼0.4 μm), and numerous lenticular Mrozowski cracks. Molten salt impregnation with a molten eutectic fluoride salt at 650 °C and 1, 3 and 5 atm, indicate that ZXF-5Q could not be infiltrated even at 5 atm due to its very small pore entrance diameter. Some scattered global salt particles found inside the ZXF-5Q are possibly formed by condensation of the fluoride salt steam during cooling.
Source: New Carbon Materials - Category: Chemistry Source Type: research
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