• Title/Summary/Keyword: Bronze Bell

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Metallurgical study of bronze bells excavated from the Miruksa (temple) site in Iksan (익산 미륵사지 출토 동종의 금속학적 연구)

  • Cho, Nam-chul;Huh, Il-kwon;Kang, Hyung-tae
    • 보존과학연구
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    • s.27
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    • pp.5-22
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    • 2006
  • Mireuksa is a temple that was established in the Baekjea Period and continued around to the 16thcentury. The sites of the temple throughout diverse periods such as the United Shilla Period, KoryuPeriod, and Chosun Period including the one of the early temple in the late Baekjea Period were discovered. In those temple sites, there were lots of diverse artifacts discovered including artifacts in the Bronze Age. In this study, the compositions of four bronze bells excavated from Mireuksa site in Iksan were analyzed and the manufacturing technique of bronze bells was studied through the observation of microstructure. Also, the analytical cases of ancient bronze bells were collected and compared. Furthermore, the provenance study of the bronze bells site was attempted with the Pbisotope ratio. The results aim to offer crucial keys for discovering the aspect of society as well as information about the origin, development, and the route of propagation of ancient technologies. Bronze bell No. 1 showed an unexpected composition as Cu was found 98.5% in it. There were shown twins which were created by annealing and an even phase in the fine grains. It was also shown that bronze bell No. 2 and 4 had a high content of Pb although they showed a similar composition with general bronze bells in terms of Sn content. As shown in the analysis characteristics table of Korean bronze bell of this study, the ancient bronze bell used Pb of which content was limited to 2.12% in general, however, the results showed 15.5% and 13.2% respectively, which is an excessive amount. Asa result of analyzing inclusion in the microstructure of bronze bell No. 2, it was found that sulfide group mineral was used since there appeared S(14.55%). Also, it was proven that $CuFeS_2$ or$Cu_5FeS_4$ was used as a raw material because there was a small amount of Fe. As a result of analyzing inclusion of bronze bell No. 4, the bronze bell sample contained S(13.43%) and it is thought that sulfide group mineral was used, however, it had no Fe. Therefore, it is not connected to $CuFeS_2$ which is the main mineral of Korea. In addition, a strain line was shown with processing in bronze bell No. 2 and 4. As a result of provenance study of bronze bell No. 2 and 4 using the Pb isotope ratio, they or their raw materials are estimated to come from the southern China. Bronze bell No. 3 showed only Cu and Sn, and it is featured with a relatively low amount of Sn(6.63%). The microstructure has only phase, andintergranular corrosion was highly in progress.

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Non-destructive Analysis of Bronze Bell in the Heungguksa Temple (흥국사 동종의 비파괴 조사 분석)

  • Hong, Jong-Ouk;Lee, Jea-Jin
    • 보존과학연구
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    • s.31
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    • pp.131-140
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    • 2010
  • This study shows the comparison of chemical compositions of main component with other bronze bells after the research on the component analysis by non-destructive XRF analysis. There are shrinkage cavities caused by the shrinkage defect and pores with pollutants on Bronze Bell of Heungguksa Temple with gamma radiation images and 77.3% of copper, 8.4% of tin and 10.9% of lead were determined as the main components of it with XRF analysis The tin content of Brozen Bell of Heungguksa Temple is less than those (11~18%) of other bronze bells but the lead content of that is higher. The lead content of it shows 10.91% which is quite high while generally the lead contents of other bells were controlled lower than 2.1%. Buddhist bells have the different lead content according to the period. The lead content was low until Silla Dynasty and Unified Silla period but it has been getting higher since some point of Koryo Dynasty. It is assumed that expensive copper and tin were replaced with lead.

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Scientific Analysis and Conservation of Goryeo Bronze Bell at Buyeo National Museum (국립부여박물관 소장 고려시대 동종의 과학적 분석과 보존)

  • Lee, Sunmyung;Namkung, Seung;Kim, Yeonmi;Kim, Jongoh
    • Conservation Science in Museum
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    • v.10
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    • pp.1-13
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    • 2009
  • A part of the bronze bell from Goryeo (918-1392) in the collection of Buyeo National Museum was missing, and it was noted to retain corrosion products and burial accretions. Chemical analysis showed that the chemical composition of the bronze bell is Cu (74.18%), Sn (9.58%), Pb (15.77%), and very small amounts of As, Fe, Sb, Bi, and Ag. It was noted that the microstructure of the bronze bell was mainly made up of α phase and α+δ eutectoid phase, and gray (S) and black (Pb segregation) prevailed. Conservation treatment has been done for the preservation of this bronze bell.

Component Analysis and Metallurgical Study of Bronze Bell in the Naksan-sa (낙산사 동종의 성분분석 및 금속학적 고찰)

  • Hwang, Jin-Ju;Han, Min-Su
    • 보존과학연구
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    • s.26
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    • pp.27-40
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    • 2005
  • This study is to be investigated through component analysis and metallurgical texture in order to save an information of the manufacturing technique for the bronze bell in Naksan-sa. The bronze bell was analyzed with nine samples not stirred by the fire and except the contents of tin is the maximum and minimum the average of Cu is 81.8wt%, Sn is15.8wt% and indicates that some impurities are in it. With the result of an analysis of component and microtexture for impurities material which exists in it with using the SEM-EDS, the material was revealed the sulfur. As the result of these factors, the bronze bell of Naksan-sa is used from ore which mainly consist of the Chalcopyrite($CuFeS_2$) or Bornite($Cu_5FeS_4$) containing much sulfur.

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Scientific Analysis of Bronze Materials of Sanoisa Temple in Chongju(I) (청주(淸州) 사뇌사지(思惱寺地) 청동기(靑銅器)의 과학(科學) 분석(分析)(I))

  • Kang, H.T.;Yu, H.S.;Moon, S.Y.;Kwon, H.N.
    • Conservation Science in Museum
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    • v.2
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    • pp.57-68
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    • 2000
  • This study is a scientific analysis of 12 bronze materials which were excavated from Sanoisa temple in Chongju. Analysis of crystalline shape, size and distribution of the each sample metal suggested that they can be classified as tableware(wrought), vessels for memorial service(casting) and bell bronze, which is the same result as classification based on elemental composition. Most of the tableware are forging wares with composition of 8:2:0 in Cu:Sn:Pb, and vessels for memorial service are casting wares whose composition is 7:1:2 in Cu:Sn:Pb, and bell bronze's composition is Cu:Sn:Pb = 85:10:5/9:1:0. The result clearly shows that composition is closely related with usage and manufacturing method of wares. Trace elements such as Co, Fe and As are the elements with high correlation coefficient with Cu, which means they exist as impurities in Cu, and the content of As showed an increase in the order of tableware, memorial service vessels and bell bronze. In addition, the analysis of lead isotope ratio showed that 3 bronze materials with high lead content were made from the lead coming from Japan and China. The composition of the solder was Cu:Sn:Pb = 83:12:5 where small Pb crystals were distributed evenly.

Nondestructive Analysis on Miniature Pagoda of Sarira Reliquary (Treasure No. 259-2) from Sujong-sa Temple (수종사(水鍾寺) 석조(石造) 부도내(浮屠內) 금동제구층탑(金銅製九層塔)(보물(寶物) 제(第)259-2호(號))의 비파괴(非破壞) 분석조사(分析調査))

  • Kwon, Hyuknam;Yu, Heisun;Kang, Hyungtae
    • Conservation Science in Museum
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    • v.4
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    • pp.57-61
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    • 2003
  • From the stupa of Sujongsa-Temple, located in Yangpyeong, Gyeonggi-do province, was excavated a celadon jar with lid, a gilt-bronze nine-storied miniature pagoda and a silver-plate hexagonal miniature shrine, etc. Among them, the gilt-bronze miniature pagoda has been known as a gilt-bronze product since most of its surface has copper tint and the base part has bronze corrosion. Its formal title registered on the Cultural Properties Administration also begins with "a gilt-bronze". However, it was supposed to be a gold product in many aspects: the color and status of the surface, degree of the bronze corrosion creation and the metal thread joining the wind bell. So the necessity to prove its material by a scientific analysis was raised. We examined it with nondestructive method. The results were traces of open-working on many parts of the surface, but no traces of gilding. Moreover, as we perform an XRF analysis, the main component were gold and silver(16%) and some impurities such as copper and iron were found. Therefore, it could be inferred that this miniature pagoda is a gold product.