Journal of the Mineralogical Society of Korea (한국광물학회지)

The Mineralogical Society of Korea (한국광물학회)
권호 표지
DOI QR코드

DOI QR Code

Mineralogical Characteristic Changes of Noerok Occurred from Noeseong Mountain, a Raw Material for Pigment, Depending on its Firing Process

안료 원료인 뇌성산 산출 뇌록의 소성에 따른 광물학적 특성 변화

  • Lee, Jang Jon (Division of Conservation Science, National Research Institute of Cultural Heritage) ;
  • Kim, Jae Hwan (Division of Natural Science, National Research Institute of Cultural Heritage) ;
  • Han, Min Su (Department of Heritage Conservation and Restoration, Korea National University of Cultural Heritage)
  • 이장존 (국립문화재연구소 보존과학연구실) ;
  • 김재환 (국립문화재연구소 자연문화재연구실) ;
  • 한민수 (한국전통문화대학교 문화재수리기술학과)
  • Received : 2018.03.06
  • Accepted : 2018.03.28
  • Published : 2018.03.31
Download PDF
⟨ Previous Next ⟩

Abstract

Noerok ia a green pigment used in Joseon dynasty, and its main usage was for forming foundation layers of Dancheong, the ornamental paintings on the surface of traditional buildings in Korea, such as the Daeung-jeon(main hall) of Bulguk-sa temple. In this research, we investigated the mineralogical characteristic changes of Noerok, a traditional Korean pigment, depending on its firing temperature. The Noerok that we experimented on was mined from Noeseong Mountain, Pohang where it is locally reserved. The major composition mineral is Celadonite, and the main constituent elements are Fe, Si, K and Mg, that refers to the existence of Fe-rich mica. As a result of phased firing experiment from $105^{\circ}C$ to $1000^{\circ}C$, the color was changed from green to pale green, then to brown, and finally to red in order. In the thermal analysis, endothermic reaction induced by the dehydration of crystalline water was confirmed at around $616^{\circ}C$. In the mineralogical change, the crystal surface [($11{\bar{1}}$) and ($02{\bar{1}}$)] of the mineral collapsed at temperatures above $600^{\circ}C$, and iron oxide was formed at $1000^{\circ}C$ or higher. Therefore, it is estimated that the crystallization temperature of Noerok is below $600^{\circ}C$, and it is also considered that it has undergone the alteration phase up to stage I, based on the presence of only a celadonite.

뇌록은 조선시대 건축물의 바탕칠(가칠)에 사용된 녹색 안료이며, 불국사 대웅전 등 주요 건축물의 단청에 사용되었다. 본 연구에서는 한국 전통 안료 원료인 뇌록을 이용하여 소성온도에 따른 광물학적 특성 변화를 살펴보았다. 포항 뇌성산 일대에 국부적으로 산출하고 있는 뇌록은 주구성 광물이 셀라도나이트(celadonite)이며, 주요 구성 원소는 Fe, Si, K, Mg 등으로 주로 Fe가 풍부한 운모류임을 알 수 있다. $105^{\circ}C{\sim}1000^{\circ}C$까지 단계적 소성실험 결과, 색상이 녹색 ${\rightarrow}$ 담녹색 ${\rightarrow}$ 갈색 ${\rightarrow}$ 적색으로 변하였으며, 열분석에서는 $616^{\circ}C$ 부근에서 결정수의 탈수작용에 의한 흡열반응이 확인되었다. 광물의 변화는 $600^{\circ}C$ 이상에서 결정면[($11{\bar{1}}$), ($02{\bar{1}}$)]이 붕괴되고, $1000^{\circ}C$ 이상에서 철산화물이 형성되었다. 따라서 뇌록의 정출 온도가 $600^{\circ}C$ 이하인 것으로 추정되며, 셀라도나이트만이 확인되는 것으로 보아 Stage I 단계만의 변질을 겪은 것으로 판단된다.

Keywords

References

  1. Ahn, B.C., Do, J.Y., Kim, S.J., Lee, K.K., and Lee, S.J. (2007) Study on the development of high performance Noerok pigments through characterization of traditional minerological raw material, Project Research Report, National Science Museum (in Korean).
  2. Bailey, S.W. (1980) Summary of recommendation of AIPEA Nomenclature Commitee, Clay Mineral, 15, 85-93. https://doi.org/10.1180/claymin.1980.015.1.07
  3. Buckley, H.A., Bevan, J.C., Brown, K.M., and Johnson, L.R. (1978) Glauconite and celadonite: two separate mineral species, Minralogical Magazine, 42, 373-382. https://doi.org/10.1180/minmag.1978.042.323.08
  4. Do, J.Y., Lee, S.J., Kim, S.J., Yun, Y.K., and Ahn, B.C. (2008) Characterization of Noerog, A traditional green mineral pigment, Journal of the Mineralogical Society of Korea, 21(3), 271-281 (in Korean with English abstract).
  5. Do, J.Y., Kim, S.J., Lee, S.J., Ahn, B.C., and Yun, S.C. (2009) A study on functionality of the Ulreungdo Seokganju as korean traditional red pigment, Journal of the Mineralogical Society of Korea, 22(2), 153-162 (in Korean with English abstract).
  6. Eastaugh, N., Walsh, V., Chaplin, T., and Siddall, R. (2004) Pigment compendium-a dictionary of historical pigments. Elsevier Butterworth-Heinemann Linacre House, Burlington, Great Britain, 8p-249.
  7. Fabrice M., Victor, D., Alain, P., and Jean-Louis R. (2000), Structural Transformation of 2 : 1 Dioctahedral layer silicates during dehydroxylation-rehydrolation reactions, Clays and Clay Minerals, 48(5), 572-585. https://doi.org/10.1346/CCMN.2000.0480510
  8. Jang, Y.D. (2017) A report on the collection and preservation methods of Noerok and its causes occurred the southeastern part of Gwangjeong mountian in Jang-meon of Nam-gu, Pohang, Kyungpook National University, Korea Lang & Housing Corporation, 5-18 (in Korean).
  9. Kim, H.S. (2017) The study on green earth pigment using Noerok of the Mt. Guangjung, Pohang, Master's thesis, Kunkuk University (in Korean with English abstract).
  10. Kim, J.S., Son, M., Kim, J.S., and Kim, J.M. (2005) 40Ar/39Ar ages of the Tertiary dike swarm and volcanic rocks, SE Korea, Journal of the Petrological Society of Korea, 14, 93-107 (in Korean with English abstract).
  11. Kim, M.C., Kim, J.S., Jung, S.H., Son, M., and Sohn, Y.K. (2011), Bimodal volcanism and classification of the Miocene Basin fill in the northern area of the Janggi-myeon, Pohang, southeast Korea, Journal of the Geological Society of Korea, 47(6), 585-612 (in Korean with English abstract).
  12. Lee, S.J., Lee, K.K., Do, J.Y., Kim, S.J., and Ahn, B.C. (2007) A study on the material properties of Noerok pigments produced in the Janggi of Pohang during the Joseon Dynasty, Announcement Book of the International Symposium on the Preservation of East Asian Cultural Heritage, 231-232 (in Korean).
  13. Leslie, L.B., William, C.R., Kenneth, F.S., and Daniel, G.S. (2012) Celadonite in continental flood basalts of the Columbia River Basalt Group, American Mineralogist, 97(8-9), 1284-1290. https://doi.org/10.2138/am.2012.4129
  14. Lee, S.J., Choi, I.S., Lee, K.K., Do, J.Y., and Ahn, B.C. (2007) An analysis of Noerok used in temple Dancheong in Gyeongju area, The Kyong ju Mun Hwa Youn Gu, 9, 1-12 (in Korean with English abstract).
  15. Park, J.H., Jeong, H.Y., Go, I.H., Jeong, S.L., and Jo, A.H. (2015) A study on the physical properties of Seokrok and Noerok used as green pigment, Journal of Conservation Science, 31(4), 429-441 (in Korean with English abstract). https://doi.org/10.12654/JCS.2015.31.4.10
  16. Philip, S.N., Thra, I.F., Stefa, N., Arno, R., and Dennis, K.B. (1999) Porosity evolution and mineral paragenesis during low-grade metamorphism of basaltic lavas at Teigarhorn, eastern Iceland, American Journal of Science, 299, 474.
  17. Son, M. (1998) Formation and evolution of the tertiary miocene basins in southeastern Korea: structural and paleomagnetic approaches, Doctor's Thesis, Busan University, 233 (in Korean with English abstract).
  18. Son, M., Kim, I.S., Lee, D.H., Kim, J.S., and Paik, I.S. (2000) Geological characteristics in the eastern part of the Ulsan fault area, Korea : Structural geology and anisotropy of magnetic susceptibility (AMS) in the Tertiary Miocene Waup Basin, Journal of the Geological Society of Korea, 36, 195-216 (in Korean with English abstract).
  19. Son, M., Kim, S.H., Kim, J.S., Song, C.W., and Kim, I.S. (2009) Age and structural origin of the Tertiary Churyeong breccia in the Gyeongju city, Korea, Journal of the Petrological Society of Korea, 18, pp.137-151 (in Korean with English abstract).
  20. Tateiwa, I. (1924) 1 : 50,000 Geological atlas of Chosen, No. 2, Ennichi, Kuryuho and Choyo sheets, 6., 3map. Geological Survey, Government-General of Chosen (in Japanese).
  21. Wise, W.S. and Eugster H.P. (1964) Celadonite: Synthesis, thermal stability and occurrence, American Mineralogist, 49, 1031-1083.
  22. Yoder, H.S. and Eugster, H.P. (1955) Synthetic and natural muscovites, Geochim. Cosmochim. Acta, 8(5/6), 225-280. https://doi.org/10.1016/0016-7037(55)90001-6
  23. Yoo, Y.M., Han, M.S., and Lee, J.J. (2014) Species and characteristics of particles for traditional red and green pigments used in temples, Journal of Conservation Science, 30(4), 365-372 (in Korean with English abstract). https://doi.org/10.12654/JCS.2014.30.4.05
  24. Yoon, S. (1986) Tectonic history of the Tertiary Pohang and Yangnam basins, Korea. in: Essays in Geology, Professor Nobu Kitamura Commemorative Volume, Tohoku University, 637-644 (in Japanese).
  25. You, K.S. (2013) A study on paints producing centers supply and demand environment of Chosun Dynasty color pigment, Korea Society of Color Studies, 27(4), 24 (in Korean with English abstract).

Cited by

  1. 포항 광정산 일대 산출 뇌록으로 제조한 안료의 특성 분석 vol.36, pp.6, 2018, https://doi.org/10.12654/jcs.2020.36.6.09