Journal of Conservation Science (보존과학회지)

The Korean Society Of Conservation Science For Cultural Heritage (한국문화재보존과학회)
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The Effects of Anoxic Treatments on Color and Mechanical Property in Fabrics, Natural Dyed Fabrics, Papers, Natural Dyed Papers and Paints

저산소 농도 살충처리가 직물, 염색 직물, 종이, 염색지 및 채색편의 색상 및 기계적 성질에 미치는 영향

  • Oh, Joon Suk (Conservation Laboratory, The National Folk Museum of Korea) ;
  • Choi, Jung Eun (Conservation Laboratory, The National Folk Museum of Korea) ;
  • Noh, Soo Jung (Conservation Laboratory, The National Folk Museum of Korea) ;
  • Eum, Sang Wook (Conservation Laboratory, The National Folk Museum of Korea)
  • 오준석 (국립민속박물관 보존과학실) ;
  • 최정은 (국립민속박물관 보존과학실) ;
  • 노수정 (국립민속박물관 보존과학실) ;
  • 엄상욱 (국립민속박물관 보존과학실)
  • Received : 2014.03.12
  • Accepted : 2014.05.20
  • Published : 2014.06.20
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Abstract

Fabrics, natural dyed fabrics, papers, natural dyed papers and paints were examined effects of colors and mechanical properties for materials of museum collections under anoxic treatment. Anoxic conditions using nitrogen and argon were oxygen concentration 0.01%, temperature($20^{\circ}C$, $25^{\circ}C$, $30^{\circ}C$), 50% RH and exposure time 30 days. Examined fabrics were raw silk fabric, UV irradiated raw silk fabric, degummed silk fabric, UV irradiated degummed silk fabric, cotton fabric, and UV irradiated cotton fabric. Natural dyed silk and cotton fabrics were dyed with fresh indigo, indigo, safflower, gromwell, madder sappanwood, amur cork tree, turmeric, gardenia, barberry root, pagoda tree flower, cochineal, lac, alnus japonica, gallnut, chestnut shell, and combination(indigo and safflower, indigo and amur cork tree, indigo and pagoda tree flower, indigo and sappanwood). Papers were Korean papers(mulberry paper, mulberry(70%) and rice straw(30%) mixed paper), Japanese paper(gampi paper), cotton paper, refined linen paper, cotton, linen & manila mixed fibre furnish, copy paper, news print, and alum sized mulberry paper. Natural dyed papers were dyed with indigo, sappanwood, madder, safflower, gardenia, amur cork tree, and pagoda tree flower. Paints were painted on alum-sized papers and silk fabrics using glue and pigments(azurite, malachite, cinnabar, vermilion, orpiment, gamboge, red lead, haematite, iron oxide red, indigo(lake), lac, cochineal, safflower, madder root lake, celadonite, smalt, ultramarine blue, lapis lazuli, prussian blue, kaolin, lead white, oyster-shell white, and clam-shell white). The color differences(${\Delta}E^*$) of all examined materials were below 1.5 or lowered than control samples after anoxic treatment. The variations of tenacity of yarns of fabrics and natural dyed fabrics after anoxic treatment were within that of standard silk and cotton fabrics. Gases(nitrogen and argon) and temperatures of anoxic treatment did not also affected color differences and variations of tenacity of materials.

박물관에서 소장품의 저산소 농도 살충처리를 위해, 직물, 염색 직물, 종이, 염색지 및 채색편의 색상 및 기계적 성질에 미치는 영향을 평가하였다. 저산소 농도 살충 조건은 질소 및 아르곤을 사용하여 조성한 산소 농도 0.01%, 온도($20^{\circ}C$, $25^{\circ}C$, $30^{\circ}C$), 습도 50%, 살충 시간 30일이였다. 직물은 생견 직물, 자외선 열화 생견 직물, 정련 견직물, 자외선 열화 정련 견직물, 광목 및 자외선 열화 광목을 평가 대상으로 하였다. 천연염색 견직물과 면직물은 생쪽, 쪽, 홍화, 자초, 꼭두서니, 소목, 황벽, 울금, 치자, 황련, 괴화, 코치닐, 자광, 오리나무, 오배자, 밤피 및 쪽과 홍화 복염, 쪽과 황벽 복염, 쪽과 괴화 복염, 쪽과 소목 복염 등 천연염색 직물 각 20종이었다. 평가 대상 종이는 한지(닥지, 닥과 볏짚 혼합지), 화지(안피지), 면지, 린넨지, 면, 아마 및 마닐라삼 혼합지, 복사지, 신문지, 반수 닥지 등 9종이었다. 염색지는 한지에 쪽, 소목, 꼭두서니, 홍화, 치자, 황벽, 괴화로 천연염색한 것을 평가하였다. 채색편은 반수 한지와 반수 화견에 석청, 석록, 주사, 주, 석자황, 등황, 연단, 대자, 석간주, 니람, 연지(자광, 코치닐, 홍화, 꼭두서니), 뇌록, 스몰트, 울트라마린블루, 라피스라즈리, 프러시안블루, 백토, 연백, 호분(굴껍질 호분, 대합껍질 호분) 등 23종의 안료 분말을 아교물에 개어 도포한 것이었다. 평가 대상 재료에 대해 저산소 농도 살충처리 전후의 색차를 평가한 결과, 색차 ${\Delta}E^*$는 1.5 이하이거나 대조군보다 낮았으며, 직물 및 염색 직물의 살충처리 전후의 인장강도 변동률은 기준치 이하였다. 그리고 가스(질소와 아르곤)와 살충 온도에 따른 색차 및 인장강도 변동률에 대한 영향도 없었다.

Keywords

References

  1. Brommelle, N.S., 1964, The Russell and Abney report on the action of light on water colours, Studies in Conservation, 9, 140-152. https://doi.org/10.1179/sic.1964.024
  2. Bott, G., 1990, Amylase for Starch Removal from a Set of 17th Century Embroidered Panels", The Conservator, 14, 23-29.
  3. Buss, J.J.B. and Crews, P.C., 2000, Influence of Nitrogen gas and Oxygen Scavengers on Fading and Color Changes in Dyed Textiles, Postprints of The Textile Specialty Group, The American Institute for Conservation of Historic and Artistic Works, Washington, DC, 55-67.
  4. Daniel, V., 1993, Storage in low-oxygen environments, Storage of natural history collections. Volume 1, A preventive conservation approach, Rose, C., Hawks, C.A., Genoways, H.H. eds., Society for the Preservation of Natural History Collections, 147-155.
  5. Kigawa, R., Mitazawa, Y., Kuchitsu, N., Sano, C., Yamano, K. and Miura, S., 1998, Anoxia Treatment by Various Kinds of Oxygen Scavenger: Evaluation of Effects on Pigments, Conservation Science, 37, 23-33. (in Japanese with English abstract)
  6. Kigawa, R., Mitazawa, Y., Kuchitsu, N., Sano, K., Miura, S., Nochide, H., Kimura, H. and Tomita, B., 1999, Evaluation of the Effects of Various Pest Controlling Regents on Pigments and Metals: Effects of Pesticides, Fumigants, Carbon Dioxide and Nitrogen", Bunkazai Hozon Shufuku Gakkaishi, 43, 12-21. (in Japanese with English abstract)
  7. Kigawa, R., Strang, T., Hayakawa, N., Naoto, Y., Kimura, H., and Young, G., 2011, Investigation of Effects of Fumigants on Proteinaceous Components of Museum Objects (Muscle, Animal Glue and Silk) in Comparison with Other Non-chemical Pest Eradicating Measures, Studies in Conservation, 56, 191-215. https://doi.org/10.1179/204705811X13110713013272
  8. Koestler. R.J., Parrerira, E., Santoro, E.D. and Noble, P., 1993, Visual Effects of Selected Biocides on Easel Painting Materials, Studies in Conservation, 38, 265-273. https://doi.org/10.1179/sic.1993.38.4.265
  9. Koestler, R.J., Tavzes, C., and Pohleven, F., 2004, A new approach on conservation of wooden heritage, International Research Group on Wood Preservation, 35th Annual Meeting Stockholm.
  10. Korenberg, C., 2008, The Photo-ageing behaviour of selected watercolour paints under anoxic conditions, Technical Research Bulletin, 2, 49-57.
  11. Maekawa, S., 1998, Conservation of the Royal Mummy Collection at the Egyptian Museum, Oxygen Museum Cases, Maekawa, S. ed., Getty Conservation Institute, Los Angeles, 1-5.
  12. Oh, J.S., Choi, J.E., and Lee, J.M., 2012, Trial Manufacture and Disinfection Evaluation of Anoxic Chamber System for Museum Insects, Journal of Conservation Science, 28, p377-385. (in Korean with English abstract). https://doi.org/10.12654/JCS.2012.28.4.377
  13. Rowe, S., 2004, The Effect of Insect Fumigation by Anoxia on Textiles Dyed with Prussian Blue, Studies in Conservation, 49, 259-270. https://doi.org/10.1179/sic.2004.49.4.259
  14. Selwitz, C. and Maekawa, S., 1998, Anoxia as a Conservation Procedure, Inert Gases in the Control of Museum Insect Pests, Getty Conservation Institute, Los Angeles, 7-15.

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