2017
DOI: 10.1155/2017/4275375
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Oxidation Behavior of Matrix Graphite and Its Effect on Compressive Strength

Abstract: Matrix graphite (MG) with incompletely graphitized binder used in high-temperature gas-cooled reactors (HTGRs) is commonly suspected to exhibit lower oxidation resistance in air. In order to reveal the oxidation performance, the oxidation behavior of newly developed A3-3 MG at the temperature range from 500 to 950 ∘ C in air was studied and the effect of oxidation on the compressive strength of oxidized MG specimens was characterized. Results show that temperature has a significant influence on the oxidation b… Show more

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Cited by 14 publications
(13 citation statements)
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“…This observation can be explained by the incomplete graphitization of the binder at 1800°C. 4,[7][8][9]13 Although this temperature is below temperatures required for complete graphitization, the lower temperature is necessary to prevent uranium from diffusing out of the fuel kernel. 13,17 Indications of the anisotropic nature (ie, the tendency of the graphite flake to align in the same direction) of the stacking of graphite sheets were identified in the bright-field images ( Figures 1A and 2B) and supported by the selected area electron diffraction (SAED) shown in Figure 2D in which the (2000) reflection displays two arcs rather than one full ring, though additional SAED patterns were not acquired.…”
Section: Density Of Matrix Graphitementioning
confidence: 99%
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“…This observation can be explained by the incomplete graphitization of the binder at 1800°C. 4,[7][8][9]13 Although this temperature is below temperatures required for complete graphitization, the lower temperature is necessary to prevent uranium from diffusing out of the fuel kernel. 13,17 Indications of the anisotropic nature (ie, the tendency of the graphite flake to align in the same direction) of the stacking of graphite sheets were identified in the bright-field images ( Figures 1A and 2B) and supported by the selected area electron diffraction (SAED) shown in Figure 2D in which the (2000) reflection displays two arcs rather than one full ring, though additional SAED patterns were not acquired.…”
Section: Density Of Matrix Graphitementioning
confidence: 99%
“…The higher oxidation rate of PGC is consistent with the previous work demonstrating that the oxidation of PGC has a lower activation energy than that of graphite. 4,8,13 It could be inferred that the inflection point in Figure 6B around 685°C is a peak in PGC oxidation rate, above which point oxidation of PGC diminishes and is outweighed by Regime I oxidation of graphite. Therefore, these results support the argument that the oxidation of PGC is predominant over that of graphite below ~700°C.…”
Section: Oxidation Behavior Of Matrix Graphitementioning
confidence: 99%
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“…Sample trimming has been utilized previously with good results. [25] A representation of samples tested after trimming can be seen in Figure 3. These samples show similar failures to unoxidized graphite, thus demonstrating that the applied stress has been distributed throughout the specimen volume.…”
Section: Mechanical Testingmentioning
confidence: 99%
“…Oxidation reaction was observed to be controlled by chemical kinetics at lower temperature and in-pore diffusion at higher temperature 25 – 27 . Arrhenius plots have been used for the estimation of activation energies during the oxidation process 28 , 29 . The transition temperature for in-pore diffusion depends on impurities, density and microstructure of graphite 30 .…”
Section: Introductionmentioning
confidence: 99%