Far Infrared Radiation Characteristics of Germanium Compounds

게르마늄 화합물의 원적외선 방사특성

  • Received : 2006.07.12
  • Accepted : 2006.11.20
  • Published : 2006.12.10

Abstract

In order to study the effects of $GeO_{2}$ contents in $XSiO_{2}{\cdot}YGeO_{2}$ and $XSiO_{2}{\cdot}YNa_{2}O{\cdot}ZGeO_{2}$ compounds on far infrared ray radiation, we investigated the sample of $XSiO_{2}{\cdot}YGeO_{2}$ and $XSiO_{2}{\cdot}YNa_{2}O{\cdot}ZGeO_{2}$ 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 $GeO_{2}$ contents in $XSiO_{2}{\cdot}YGeO_{2}$ and $XSiO_{2}{\cdot}YNa_{2}O{\cdot}ZGeO_{2}$ compounds. The far infrared ray emissivity and emission power of $XSiO_2{\cdot}YGeO_2$ compounds were higher than those of $XSiO_{2}{\cdot}YNa_{2}O{\cdot}ZGeO_{2}$ compounds.

Keywords

$XSiO_{2}{\cdot}YGeO_{2}$;$XSiO_{2}{\cdot}YNaO_{2}{\cdot}ZGeO_{2}$;far infrared ray;emission power

Acknowledgement

Supported by : 상명대학교 자연과학 연구소

References

  1. Y. S. Jin, H. Y. Lee, Y. K. Kim, K. R. Kim, and H. J. Lee, J. Korean Soc. Jungshin Sci., 7, 19 (2003)
  2. 高鳥廣夫, 工業 奇術, 20, 66 (1972)
  3. C. K. Chee, T. S. Choi, and S. I. Jang, J. KIIEE, 16, 7 (2002)
  4. 山本博孝, 二官秀明, 荏業 協會誌, 82, 80 (1981)
  5. J. M. Lee, J. O. Park, and J. S. Choi, J. KIIEE, 18 (1991)
  6. Y. H. Kim, T. H. Ji, S. Y. Kim, and G. H. Rhee, Korean J. Air-Condition and Refrigeration Eng., 18, 526 (2006)
  7. J. H. Choi, J. S. Im, and D. H. Oh, J. Korean Soc. Food Sci. Nutr., 35, 635 (2006) https://doi.org/10.3746/jkfn.2006.35.5.635
  8. 高鳥廣夫, 濟業 協會誌, 10, 373 (1982)
  9. D. K. Lee, Proc. KIIEE, 15, 14 (2001)
  10. 根岸直樹, 菊地眞, セラミツクス, 23, 325 (1988)
  11. 高鳥廣夫, 杉山豊彦 , セラミツクス, 23, 263 (1988)
  12. 高鳥廣夫, 濟業 協會誌, 10, 373 (1982)
  13. T. S. Choi, Industrial Mineralogy Symposium, 46 (1997)
  14. N. J. H, MS. Dissertation, Kyung Hee Univ., Seoul, Korea (1991)