• Title/Summary/Keyword: 전통도자기의 유약성분

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A Study of the Chemical Composition of Korean Traditional Ceramics (I): Celadon and Kory$\v{o}$ Whiteware (한국 전통 도자기의 화학 조성에 대한 연구 (I): 고려청자와 고려백자)

  • Koh, Kyong-Shin Carolyn;Choo, Woong-Kil;Ahn, Sang-Doo;Lee, Young-Eun;Kim, Gyu-Ho;Lee, Yeon-Sook
    • Journal of Conservation Science
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    • v.26 no.3
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    • pp.213-228
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    • 2010
  • The composition of Chinese ceramic shards has been the subject of analysis in Europe, beginning in the 18th century, and in China from the 1950s. Scientific studies of traditional Korean shards commenced in the United States and Germany in the 1980s, and studies within Korea began in the 1990s. From analysis of a large systematically collected dataset, the composition of porcelain produced during the Kory. dynasty, including 21 celadon and 10 whiteware groups, was characterized and compared with that of Chinese ceramics. The average composition of the body and glaze of several shards (usually three to five) from each group was determined, enabling comparisons between groups. The results show that the majority of groups were derived from mica-quartz porcelain stone, which was commonly used in Yuezhou, Jingdezhen, and other southern Chinese kilns. The composition of glazes includes clay and flux components; the latter were typically wood ash and limestone, initially as burnt but later as crushed forms. The earliest of the Kangjin glazes contained substantially less titanium oxide than did the Yuezhou glazes, which were typically formulated from body material and wood ash. The present study provides a comparative framework for the growing number of analytical investigations associated with excavations occurring in Korea.

Study of the Chemical Composition of Korean Traditional Ceramics (II): Chos$\breve{o}$n Whiteware (한국 전통 도자기의 화학 조성에 대한 연구 (II): 조선백자)

  • KohChoo, Carolyn Kyong-Shin;Choo, Woong-Kil;Ahn, Sang-Doo;Lee, Young-Eun;Kim, Gyu-Ho;Lee, Yeon-Sook
    • Journal of Conservation Science
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    • v.27 no.1
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    • pp.61-74
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    • 2011
  • The material characteristics of Chos$\breve{o}$n whiteware were investigated by analyzing and comparing the body and glaze compositions of whiteware shards excavated at the Kwangju royal kilns, Ch'unghyodong, and four other local-level kilns. In Korea, the rise of whiteware technology began in the early years of the Chos$\breve{o}$n dynasty, when the indigenous tradition of Kory$\breve{o}$ celadon was strongly influenced by the whiteware aesthetics of the Chinese Ming dynasty. The Kwangju royal kilns eventually made hard-textured whiteware of a quality equivalent to that of the Chinese by using type of porcelain stone that contained slightly less $Fe_2O_3$ and $TiO_2$ and slightly more $K_2O$ than that used for celadon. In contrast, the potters of Ch'unghyodong achieved the same level of quality by finding and using a totally different material: kaolinitic clay. The porcelain stone used at the Kwangju kiln was commonly found in Korea and south China, whereas kaolinitic clay (which has a high aluminum content) was typically found in north China, and was only rarely used in Korea. The flux component of the glaze compositions was mostly limestone, first in burnt form and later in crushed form, and the clay component was often glaze stone, which was a finer-grained porcelain stone with a higher proportion of feldspar. In the future, this comparative analytical study of Korean whiteware components should be extended to the $18^{th}$- and $19^{th}$-century kilns that are currently being excavated at a rapid pace.

A Study of the Chemical Composition of Korean Traditional Ceramics (III): Comparison of Punch'$\breve{o}$ng with Kory$\breve{o}$ Ware and Chos$\breve{o}$n Whiteware (한국 전통 도자기의 화학 조성에 대한 연구 (III): 분청에 대한 고려자기와 조선백자와의 비교)

  • KohChoo, Carolyn Kyong-Shin;Choo, Woong-Kil;Ahn, Sang-Doo;Lee, Young-Eun;Kim, Gyu-Ho;Lee, Yeon-Sook
    • Journal of Conservation Science
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    • v.27 no.1
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    • pp.75-90
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    • 2011
  • At the beginning of the Chos$\breve{o}$n dynasty, punch'$\breve{o}$ng began as a simplified form of inlaid celadon, and in the two following centuries it developed into a popular folk craft in various styles and expressive decorations; overtime, it was increasingly made to resemble whiteware, and its production stopped after the Japanese invasion of Korea. In the present study, the body and glaze compositions of punch'$\breve{o}$ng were examined and compared with those of celadon and whiteware, whose compositions have previously been compared with those of Chinese ceramics. Here, the analyzed shards were organized into 28 groups based on their production sites and archaeological characteristics. For each group, the body and glaze compositions of several shards(usually three to five) were obtained, averaged, and compared with those of the other groups. These comparisons showed that the majority of the punch'$\breve{o}$ng bodies were formed, like those of celadon and whiteware, with mica-quartz porcelain stone, which was commonly used in Yuezhou, Jingdezhen, and other southern Chinese kilns. The glazes consisted of clay materials and flux components made from various proportions of wood ash, burnt limestone (glaze ash) and crushed limestone. Overall, the punch'$\breve{o}$ng glazes resembled the Kory$\breve{o}$ celadon and Kory$\breve{o}$ whiteware glazes more closely than the Chos$\breve{o}$n white wareglazes. However, the $TiO_2$ levels found in the tested punch'$\breve{o}$ng were low, similar to those of Chos$\breve{o}$n whiteware; this indicated that glaze stone was used as the clay component of the punch'$\breve{o}$ng glazes, as was the case for Chos$\breve{o}$n whiteware. This study of the material characteristics of punch'$\breve{o}$ng may be used as a comparative framework for analyzing ceramic shards discovered at current and future excavations within Korea.

A Microstructural Study on Firing Process of Korean Traditional Ceramics;Punch'ong from Ch'unghyodong, Kwangju (한국 전통 도자기의 번조 공정에 관한 미세구조 연구;광주 충효동 분청사기를 중심으로)

  • Lee, Yeong Eun;Go, Gyeong Sin
    • Journal of the Korean Chemical Society
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    • v.46 no.2
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    • pp.125-138
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    • 2002
  • The kiln at Chollanamdo Kwangjusi Ch'unghyodong, which produced punch'ong and white wares for a period of 70 to 80 years in the 15th century, is examined for their scientific technological param-eters. Punch'ong sherds were divided into seven different groups according to the location and the layer of the waste mounds from which they were excavated. Optical and scanning electron microscope were used for microstructural observations and X-ray diffraction and polarized microscope for mineral characteristics. For determining the firing temperature, sherds were refired at different temperatures and their micro-structural changes were observed. Some wares such as the group CHE2 was high quality wares fired at high emperature around 1200$^{\circ}C$ for palace use, but as the ceramics ware became more widely used and the white wares increasingly preferred over punch'ong, lower quality wares of rougher raw materials were firedat lower temperatures around 1100-1150$^{\circ}C$ in quantity. They used local raw materials of several types, all available locally.

Physicochemical properties of the materials used for the production of celadon maebyeong inlaid with cloud-and-crane designs and changes in their morphological properties by production stage (청자상감운학문매병 제작 재료의 물리화학적 특성 및 제작 단계별 형상학적 특성 변화)

  • Kim, Jihye;Ha, Jihyang;Han, Minsu
    • Conservation Science in Museum
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    • v.25
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    • pp.63-84
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    • 2021
  • In order to investigate the diverse physicochemical changes that occurred in traditional Korean pottery during its production, including before and after firing, this study produced six replicas of a celadon maebyeong inlaid with cloud-and-crane designs, respectively corresponding to the process of shaping, carving, inlaying designs, first firing, glazing and second firing, respectively. It then conducted a scientific study of these six replicas and analyzed their images through high-resolution three-dimensional transmission imaging. The materials used for the replicas show different mineral phases and even colors depending on the components of each material. For example, black inlay with a high content of iron oxide (Fe2O3) shows dark colors and white inlay with a high alumina (Al2O3) content appears white. Physicochemical properties such as chromaticity and magnetic susceptibility and major components of the replicas were confirmed by the differences in the density in the computed tomography (CT) images. The characteristics of fired products such as fine structure, absorption ratio, apparent porosity, and other characteristics of the major mineral components were identified by the presence of pores and the formation of cracks inside the replicas in the image analysis.