보존과학회지 (Journal of Conservation Science)

  • 제33권3호
  • /
  • Pages.167-179
  • /
  • 2017
  • /
  • 1225-5459(pISSN)
  • /
  • 2287-9781(eISSN)
한국문화재보존과학회 (The Korean Society Of Conservation Science For Cultural Heritage)
권호 표지
DOI QR코드

DOI QR Code

서산 비경도 출수 상평통보의 혐기성 부식 특성

Anaerobic Corrosion Properties of Sangpyeongtongbo Excavated at Bigyeongdo, Seosan

  • 김규빈 (국립해양문화재연구소 수중발굴과) ;
  • 정광용 (한국전통문화대학교 문화재보존과학과)
  • Kim, Kyu Been (Department of Marine Excavation, National Institute of Maritime Cultural Heritage) ;
  • Chung, Kwang Yong (Department of Conservation Science, Korea National University of Cultural Heritage)
  • 투고 : 2017.03.30
  • 심사 : 2017.06.16
  • 발행 : 2017.06.20
PDF 다운로드
⟨ 이전 논문 다음 논문 ⟩

초록

서산 비경도 출수 상평통보를 대상으로 혐기성 수중 매장환경에서 형성되는 부식화합물 성분과 이에 따른 혐기성 부식 원인을 추정하였다. 미세조직 관찰, 원소 mapping, 층위별 주성분 분석, 부식화합물 동정을 실시하였다. 그 결과 표면의 고착물은 침상형 육면체형 팔면체형으로 분류되며, 그에 따른 분석 결과 Cu, Pb, S 등의 원소가 검출되었다. 원소 mapping에서는 최외곽에 Cu-S로 이루어진 뚜렷한 층이 확인되었다. 층위별 주성분은 Cu, S, Pb 등이 검출되었고, Zn은 검출되지 않았다. 부식화합물은 $PbCO_3$(고착물), $Cu_{1.96}S$(소지금속)이 나타났다. 따라서 서산 비경도 출수 상평통보의 혐기성 부식 특성은 탈아연, 황화동, 납화합물 세 가지로 요약할 수 있다.

In this study, Sangpyeontongbo excavated at Bigyeongdo, Seosan, were investigated to determine the components of the corrosion products that were formed while they were buried underwater in an anaerobic environment. The causes of corrosion product formation were also determined. Microstructure observation, element mapping, principle component analysis for each year, and the detection of corrosion products were carried out. Results indicate that the concretions of corrosion products on the surface are needle-, hexahedral-, and octahedral-shaped; Pb, Cu, and S were among the elements detected. The Cu-S layer was clearly verified using element mapping. An analysis of major elements for each layer showed that Cu, S, and Pb were present and that most Zn was eliminated. The corrosion products detected were $PbCO_3$ (concretion) and $Cu_{1.96}S$ (metal). Accordingly, the anaerobic corrosion properties of Sangpyeongtongbo are summarized as follows: dezincification, copper sulfide, and lead compound.

키워드

참고문헌

  1. Bass, C., Sanders, P. and Lappin-Scott, H., 1998, Study of biofilms of sulfidogens from North Sea oil production facilities using continuous-flow apparatus. Geomicrobiology Journal, 15(2), 101-120. https://doi.org/10.1080/01490459809378068
  2. Campbell, H.S. and Mills, D.J., 1977, Marine treasure trove: a metallurgical examination. Metallurgist and materials technologist, 9(10), 551-556.
  3. Hamilton, W.A. and Lee, W., 1995, Biocorrosion. in Barton, L.L.(ed.), Sulfate-Reducing Bacteria. Plenum Press, New York, 243-264.
  4. Hyun, J.H., Lee, H.G. and Gwon, G.G., 2003, Sulfate reduction in the marine environments: Its controlling factors and relative significance in mineralization of organic matter. Journal of the Korean Society of Oceanography, 8(2), 210-224. (in Korean with English abstract)
  5. Kim, T.J. and Wi, K.C., 2013, Study of corrosion characteristics of corroded iron objects from underwater by sulfides. Journal of Conservation Science, 29(2), 187-196. (in Korean with English abstract) https://doi.org/10.12654/JCS.2013.29.2.09
  6. Korshin, G.V., Ferguson, J.F. and Lancaster, A.N., 2000, Influence of natural organic matter on the corrosion of leaded brass in potable water. Corrosion Science, 42(1), 53-66. https://doi.org/10.1016/S0010-938X(99)00055-4
  7. Lee, J.I. and Seo, M.P., 1992, Microbiologically corrosion of metal. Corrosion Science and Technology, 21(1), 50-65. (in Korean)
  8. Lee, S.Y. and Jeong, J.T., 2013, Corrosive characteristics of metal materials by a sulfate-reducing bacterium. Journal of the Mineralogical Society of Korea, 26(4), 219-228. (in Korean with English abstract) https://doi.org/10.9727/jmsk.2013.26.4.219
  9. MacLeod, I.D., 1982, Formation of marine concretions on copper and its alloys. International Journal of Nautical Archaeology, 11(4), 267-275. https://doi.org/10.1111/j.1095-9270.1982.tb00091.x
  10. MacLeod, I.D. and North, N.A., 1980, 350 years of marine corrosion in Western Australia. Corrosion Australasia, 5(3), 11-15.
  11. North, N.A. and MacLeod, I.D., 1987, Corrosion of metals. Conservation of Marine Archaeological Objects, 68-98.
  12. National Research Institute of Maritime Cultural Heritage, 2011, Yearbook of National Research Institute of Maritime Cultural Heritage, 2010. 66-67. (in Korean)
  13. Park, G.H., Lee, M.H., Kim, K.J. and Moon, G.M., 2001, A electrochemical study on general corrosion and microbiological influenced corrosion of a steel. The Corrosion Science Society of Korea, 40-41. (in Korean)
  14. Scott, D.A., 2002, Copper and bronze in art: corrosion, colorants, conservation. Getty Publications, Los Angeles.