| 소성 점토의 침탄에 따른 동결융해 저항성 및 적외선 방사특성 연구 |
| 김기호, 김상명1, 강병철1 |
충북대학교 신소재공학과
1한국건자재시험연구원 |
| A Study on the Infrared Emission Properties and Freeze-thaw Resistance for Calcined Clay by Carburization Treatment |
| Ki-Ho Kim, Sang-Myoung Kim1, Byung-Chul Kang1 |
Department of Materials Engineering, Chungbuk National University
1Korea Institute of Construction Materials |
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| ABSTRACT |
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The Physical property changes of calcined clay by carburization were investigated studied. The carburization mechanism is the penetration of carbon which occurred during incomplete fuel combustion into crevice of clay structure. The experiments for elasticity and freeze-thaw resistance were conducted, and the results can be summarized as follows: Dynamic modulus of elasticity and also freeze-thaw resistance of calcined clay by carburization treatment increased more than 92% after testing 300 cycle, which was more improved than 88% of calcined clay. Therefore, it can decrease the possibility of winter-sowing, which is one the weakness of calcined clay. It is on the basis of the fact that the porosity of calcined clay by carburization treatment is about 12%, which indicates smaller pore spaces comparing with the 14% of porosity of calcined clay and those values were calculated by apparent porosity show and also supported by SEM images. Infrared emissivity of calcined clay by carburization treatment and calcined clay were respectively 0.92 and 0.9l at $80^{circ}C$. However, those values were 0.91 and 0.88 at $200^{circ}C$, which means infrared emissivity of calcined clay by carburization treatment shows 3.6% higher than the calcined clay. Moreover, within the wavelength range from 3 to $7;{mu}m$, while the calcined clay had low infrared emissivity, the calcined clay by carburization treatment had increased infrared emissivity. It is inferred that it was affected by carbon element that has high infrared absorptivity within this wavelength range. |
| Key words:
Calcine clay, Carburized treatment, Crystalline graphite, Freeze-thaw, Dynamic modulus of elasticity, Thermal analysis, Infrared |
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