게르마늄 화합물의 원적외선 방사특성

이현경; 이경미; Hyun-Kyung Lee; Kyung-Mee Lee

Journal of the Korean Industrial and Engineering Chemistry, Vol.17, No.6, 597-603, December, 2006

Export Citation

게르마늄 화합물의 원적외선 방사특성

Far Infrared Radiation Characteristics of Germanium Compounds

이현경^†, 이경미¹

상명대학교 공업화학과
¹상명대학교 화학과

Hyun-Kyung Lee^†, and Kyung-Mee Lee¹

Department of Industrial Chemistry, Sang Myung University, Seoul 110-743, Korea
¹Department of Chemistry, Sang Myung University, Seoul 110-743, Korea

E-mail:

초록

XSiO2.YGeO2계 화합물과 XSiO2.YNaO2.ZGeO2계 화합물을 제조하고 이들 화합물에서 GeO2의 함량을 변화시켜 원적외선 방사율과 원적외선 방사에너지에 미치는 영향을 연구하였다. 제조된 시료의 특징은 TG-DTA, XRD, FT-IR spectrophotometer 그리고 FT-IR spectrometer에 의해 조사되었다. XSiO2.YGeO2와 XSiO2.YNaO2.ZGeO2계의 화합물은 GeO2의 함량이 증가할수록 원적외선 방사율과 방사에너지가 점차적으로 증가하였다. 원적외선 방사율과 방사에너지는 XSiO2. YGeO2계 화합물의 경우가 XSiO2.YNaO2.ZGeO2계 화합물보다 높게 나타났다.

In order to study the effects of GeO2 contents in XSiO2.YGeO2 and XSiO2.YNa2O.ZGeO2 compounds on far infrared ray radiation, we investigated the sample of XSiO2.YGeO2 and XSiO2.YNa2O.ZGeO2 using TG-DTA, XRD, FT-IR spectrophotometer and FT-IR spectrometer. The far infrared ray emissivity and emission power were increased with the increase of GeO2 contents in XSiO2.YGeO2 and XSiO2.YNa2O.ZGeO2 compounds. The far infrared ray emissivity and emission power of XSiO2.YGeO2 compounds were higher than those of XSiO2.YNa2O.ZGeO2 compounds.

Keywords:XSiO2.YGeO2;XSiO2.YNa2O.ZGeO2;far infrared ray;emission power

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[2] Lee DK, Proc. KIIEE, 15, 14 (2001)

[3] Lee JM, Park JO, Choi JS, J. KIIEE, 18 (1991)

[4] Jin YS, Lee HY, Kim YK, Kim KR, Lee HJ, J. Korean Soc. Jungshin Sci., 7, 19 (2003)

[5] Kim YH, Ji TH, Kim SY, Rhee GH, Korean J. Air-Condition and Refrigeration Eng., 18, 526 (2006)

[6] 高鳥廣夫, 杉山豊彦 , セラミツクス, 23, 263 (1988)

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[8] 根岸直樹, 菊地眞, セラミツクス, 23, 325 (1988)

[9] 高鳥廣夫, 濟業協會誌, 10, 373 (1982)

[10] 高鳥廣夫, 工業奇術, 20, 66 (1972)

[11] 高鳥廣夫, 濟業協會誌, 10, 373 (1982)

[12] 山本博孝, 二官秀明, 荏業協會誌, 82, 80 (1981)

[13] Choi TS, Industrial Mineralogy Symposium, 46 (1997)

[14] N. J. H, MS. Dissertation, Kyung Hee Univ., Seoul, Korea (1991)