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http://dx.doi.org/10.12654/JCS.2019.35.4.02

Evaluation of Nondestructive Diagnosis and Material Characteristics of Stone Lantern at Damyang Gaeseonsaji Temple Site in Korea  

Lee, Chan Hee (Department of Cultural Heritage Conservation Sciences, Kongju National University)
Araki, Naruto (Department of Preservation and Restoration of Cultural Assets, Tohoku University of Art and Design)
Publication Information
Journal of Conservation Science / v.35, no.4, 2019 , pp. 279-293 More about this Journal
Abstract
The stone lantern of the Damyang Gaeseonsaji temple site is a cultural heritage built during the Unified Silla period (AD 868). The reason for its value as a cultural property is due to wittern the background and the period created on inscription of the lamp stone engraved by letters. The stone lantern consists of two types of lithic tuffs for the 23 original properties, the replaced stones in 1991, and the biotite granite for its ground stones replaced in 2005. The lithic tuffs selected as the replacement parts in 1991 and 2017 have been examined and got to properties of hardly exposure moisture as well as very similar geochemical characteristics. There were various types of physical deterioration of the stone properties and structural cracks; in particular, on the northern side of the stylobates. Chemical and biological deterioration can be identified as black, white, and brown discolorations as well as by the presence of lichens, bryophytes, and herbaceous plants. In the evaluation of the physical properties of the stone lantern, the mean and maximum ultrasonic velocities were found to be similar in each direction. However, the lowest velocity on the east and south sides were found to be lower than those of other stone properties. It was found that physical damage to the stylobates resulted from water expansion in a freeze-to-thaw phenomena related to water content. Therefore, dismantling repair was carried out in the protection facility to restrict further water supply to the stone as much as possible.
Keywords
Stone lantern; Tuff; Crack; Discoloration; Dismantling repair;
Citations & Related Records
Times Cited By KSCI : 3  (Citation Analysis)
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1 Cultural Heritage Administration, 1993, Research of repairs for cultural heritage of Korea in 1991. 763-793. (in Korean)
2 Fitzner, B. and Heinrichs, K., 2001, Damage diagnosis on stone monuments-Weathering forms, damage categories and damage indices. Stone Weathering and Atmospheric Pollution Network (SWAPNET), Decin, May 7-11, 11-56.
3 Fitzner, B., Heinrichs, K. and La Bouchardiere, D., 2003, Weathering damage on Pharaonic sandstone monuments in Luxor-Egypt. Building and Environment, 38(9-10), 1089-1103.   DOI
4 Govindaraju, K., 1989, 1989 Compilation of working values and samples description for 272 geostandards. Geostandards Newsletter, 13(Special issue, July), 1-113.   DOI
5 Iliev, I.G., 1966, An attempt to estimate the degree of weathering of instructive rocks from their physicomechanical properties. International Society for Rock Mechanics and Rock Engineering, Lisbon, September 25-October 1, 109-114.
6 Jo, Y.H. and Lee, C.H., 2011, Making method of deterioration map and evaluation techniques of surface and threedimensional deterioration rate for stone cultural heritage. Journal of Conservation Science, 27(3), 251-260. (in Korean with English abstract)
7 Jo, Y.H., Lee, C.H. and Yoo, J.H., 2013, Study on applicability of passive infrared thermography analysis for blistering detection of stone cultural heritage. Journal of Conservation Science, 29(1), 55-67. (in Korean with English abstract)   DOI
8 Jo, Y.H. and Lee, C.H., 2014, Quantitative modeling of blistering zones by active thermography for deterioration evaluation of stone monuments. Journal of Cultural Heritage, 15(6), 621-627.   DOI
9 Jo, Y.H. and Lee, C.H., 2015, A study on selection of ultrasonic transducer and contact material for surface irregularities of stone cultural heritage. Journal of Conservation Science, 31(3), 267-278. (in Korean with English abstract)   DOI
10 Kahraman, S., 2002, Estimating the direct P-wave velocity value of intact rock from indirect laboratory measurements. International Journal of Rock Mechanics and Mining Sciences, 39(1), 101-104.   DOI
11 Kim, Y.H., 2005, The Compilations of archaeological data in Korea. Atlas of archaeological sites in Joseon dynasty 4, National Culture, 4, 500-501. (in Korean)
12 Koo, M.H., 2000, Review of the engraving record in stone lantern of Gaeseonsaji temple site at Damyang-Focused on land deal case of the 9th century in United Silla Kingdom. The Journal of History and Practical Thought Studies, 15.16, 59-80. (in Korean)
13 Lee, C.H. and Jo, Y.H., 2017, Correlation and correction factor between direct and indirect methods for the ultrasonic measurement of stone samples. Environmental Earth Science, 76(14), 477-489.   DOI
14 Lee, C.H., Chun, Y.G., Jo Y.H. and Suh, M.C., 2012, Evaluation of slope stability and deterioration degree for Bangudae petroglyphs in Ulsan, Korea. Journal of Conservation Science, 28(2), 153-164. (in Korean with English abstract)   DOI
15 Lee, C.H., Kim, Y.T. and Lee, M.S., 2007, Provenance presumption for rock properties of the five storied stone pagoda in the Jeongrimsaji temple site, Buyeo, Korea. Journal of the Geological Society of Korea, 43(2), 183-196. (in Korean with English abstract)
16 Lee, C.H., Jo, Y.H. and Chun, Y.G., 2009, Establishment of ultrasonic measurement and correlations of direct-indirect method for weathering evaluation of stone cultural heritage. Journal of Conservation Science, 25(3), 233-244. (in Korean with English abstract)
17 Lee, C.H., Kim, M.Y., Jo, Y.H. and Lee, M.S., 2010, Conservation treatment based on material characteristics, provenance presumption and deterioration diagnosis of the seven-storied Jungwon Tappyeongri stone pagoda, Chungju, Korea. Korean Journal of Cultural Heritage Studies, 43(3), 4-25. (in Korean with English abstract)
18 National Highway Cooperative Research Program, 1969, Identification of frost susceptible particles in concrete aggregates. Report 66, 1-62.
19 National Research Institute of Cultural Heritage, 2001, Research of stone lanterns in Korea. II. 13-29. (in Korean with English abstract)
20 Nockolds, S.R., 1954, Average chemical compositions of some igneous rocks. Bulletin of the Geological Society of America, 65(10), 1007-1032.   DOI
21 Park, S.M., Lee, M.S., Kim, J.H. and Lee, C.H., 2012, Material characteristics and deterioration assessment for multi-storied round shape stone pagoda of Unjusa temple, Hwasun, Korea. Korean Journal of Cultural Heritage Studies, 45(1), 86-101. (in Korean with English abstract)
22 Uchida, E., Cunin, O., Suda, C., Ueno, A. and Nakagawa, T., 2007, Consideration on the construction process and the sandstone quarries during the Angkor period based on the magnetic susceptibility. Journal of Archaeological Science, 34(6), 924-935.   DOI
23 Pearce, J.A., 1983, Role of sub-continental lithosphere in magma genesis at active continental margins. In: Hawkesworth, C.J. and Norry, M.J. (eds.), Continental basalts and mantle xenolith, Shiva, Nantwich, 230-349.
24 Taylor, S.R. and Maclennan, S.M., 1985, The continental crust: Its composition and evolution. Blackwell, Oxford, 312-312.