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http://dx.doi.org/10.5659/JAIK.2022.38.5.259

Changes in the Characteristic of Traditional Lime Reproduction Specimens by adding Perilla Oil  

Kang, San-Ha (Restoration Technology Division, National Research Institute of Cultural Heritage)
Kang, So-Yeong (Restoration Technology Division, National Research Institute of Cultural Heritage)
Publication Information
Journal of the Architectural Institute of Korea / v.38, no.5, 2022 , pp. 259-267 More about this Journal
Abstract
With the introduction of modern materials, such as cement and concrete, the use of traditional lime(aerial lime) have decreased. Traditional lime manufacturing and its construction methods have been cut off in Korea. However, modern materials being used at the site of repair and restoration of cultural heritages, not only heterogeneity but also secondary damage is induced. Therefore this study aims to reproduce traditional lime with added perilla oil to confirm the possibility of improving the performance of traditional lime through the characteristics of aerial lime. Aerial lime plaster specimen containing perilla oil was prepared by securing evidence from the ancient literature, and its characteristics were investigated. The addition of perilla oil revealed that the advanced workability of the flow value declined. However, only a small amount of perilla oil gave discoloration to the aerial lime specimen. It is necessary to control the amount of perilla oil used when it is applied to the conservation and restoration of historical sites. Through the neutralization test and the 𝜇-CT analysis image that carbonation of aerial lime was delayed due to the addition of perilla oil. Additionally perilla oil imparted water resistance. Since freezing-thawing of water is the main cause of damage to aerial lime materials, the performance improvement of aerial lime can be expected by adding perilla oil.
Keywords
Traditional lime; Aerial lime; Organic additives; Perilla Oil; Carbonation; Hydrophobic;
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Times Cited By KSCI : 1  (Citation Analysis)
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1 Kang, S. H., & Kang, S. Y. (2020a). A preliminary study on the effect of perilla oil additive of traditional lime based plaster. 2020 Proceeding of Annual Conference of the Architectural Institute of Korea, 40(2), 538.
2 Elert, K., Garcia Sanchez, R. M., Benavides-Reyes, C., & Linares Ordonez, F. (2019). Influence of animal glue on mineralogy strength and weathering resistance of lime plasters, Construction and Building Materials, 226, 625-635.   DOI
3 Han, J., Liu, W., Wang, S., Du, D., Xu, F., Li, W., & Geert, D.S. (2016). Effect of crack and ITZ and aggregate on carbonation penetration based on 3D micro X-ray CT microstructure evolution, Construction and Building Materials, 128, 256-271.   DOI
4 Kang, S. H., Kwon, Y. H., & Moon, J. H. (2020b). Controlling the hydration and carbonation in lime-based materials: Advantage of slow carbonation in CO2 curable construction materials, Construction and Building Materials, 249, 1-13.
5 Han, J., Sun, W., & Pan, G. (2013). X-ray microtomography of the carbonation front shape evolution of cement mortar and modeling of accelerated carbonation reaction, Journal of Wuhan University of Technology. Materials Science Edition, 28(2), 303-308.   DOI
6 National Research Institute of Cultural Heritage. (2020b). Trial applications of traditional lime mortar.
7 Lawrence, R.M.H., Mays, T.J., Walker, P., & D'Ayala, D. (2006). Determination of carbonation profiles in non-hydraulic lime mortars using thermogravimetric analysis, Thermochimica, 444, 179-189.   DOI
8 Liao, X. K., Kim, D. H., Lim, N. G., & Lee, K. Y. (2016). Durability Evaluation of Sand Coat Wall as Eco-Friendly Plaster Material, 2016 Proceeding of Annual Conference of the Architectural Institute of Korea, 36(2), 1017-1018.
9 National Research Institute of Cultural Heritage. (2020a). Lime of the Joseon dynasty recorded in the Oegyujanggak-Uigwe.
10 Nunes, C., & Slizkova, Z. (2016). Freezing and thawing resistance of aerial lime mortar with metakaolin and a traditional water-repellent admixture, Construction and Building Materials, 114, 896-905.   DOI
11 Nunes, C., Macova, P., Frankeova, D., Sevcik, R., & Viani, A. (2018). Influence of linseed oil on the microstructure and composition of lime and lime-metakaolin pastes after a long curing time, Construction and Building Materials, 189, 787-796.   DOI
12 Pahlavan, P., Manzi, S., Sansonetti, A., & Bignozzi, M.C. (2018). Valorization of organic additions in restorative lime mortars: Spent cooking oil and albumen, Construction and Building Materials, 181, 650-658.   DOI
13 Park, C.W., Lee, H.I., & Lee, K.Y. (2012). A Research Study on Fundamental Properties of Traditional Oil Compound Lime as Eco-friendly Building Material, Journal of the Architectural Institute of Korea Structure&construction, 28(7), 107-115.   DOI
14 Taylor, H.F.W. (1997). Cement Chemistry, London: T.Telford, 231-237, 245.
15 Park, C.W., Lim, N.G., & Lee, K.Y. (2014). A Experimental Study on Property if Matters of Traditional Starch Lime as Eco-Friendly Plaster Material, Journal of the Architectural Institute of Korea Structure&construction, 30(7), 47-54.   DOI