• Title/Summary/Keyword: Chimi(ridge-end tile)

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Manufacturing Techniques and the Conservation Treatment of Chimi - (Ridge-end tile) Excavated from the Beopcheonsa Temple Site, Wonju - (원주 법천사지 토제 치미의 제작기법과 보존처리)

  • Lee, Seung Gang;Jo, Seong Yeon;Huh, Il Kwon
    • Journal of Conservation Science
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    • v.35 no.5
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    • pp.518-527
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    • 2019
  • This investion studies the manufacturing techniques of chimi(ridge-end roof tiles based on the) fragments excavated from the Wonju Beopcheonsa temple site(Historic site No. 466) and aids in the conservation of the fragments. The results of the investigation are categorized into the production of the body parts, the wing and the feather attachment, the production of the decorative parts, the scratches in the upper and lower part, the perforations connecting the upper and lower parts, and the formative features(bending phenomenon). The procedures in the conservation treatment of the chimi was performed in a sequential order beginning with a preliminary examination, followed by the removal of foreign substances, coating, joining and restoration, and color retouching. A three-dimensional scanning data was employed to restore the missing parts after adhesion to determine the location, size, and angle of the original shape. The restored chimi measures 118 cm in height and weighs 121 kg, which makes it the fifth largest in size among any chimi(including restored) in Korea. We expect that the pointed feathers will make the chimi from the Beopcheonsa temple site a rare reference as no specimens with these features have been found in Korea until now.

A Study on the Restoration of Chimi Excavated the Wangheungsa Temple Site using 3D Scanning and Computer Numerical Control (3차원 스캐닝과 컴퓨터 수치 제어 기술을 이용한 왕흥사지 출토 치미의 복원 연구)

  • Park, Min Jung;Hwang, Hyun Sung;Hong, Shin Yeon
    • Journal of Conservation Science
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    • v.35 no.3
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    • pp.217-225
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    • 2019
  • The chimi(ridge-end tile) of Wangheungsa temple is the oldest in our country. The upper part of the chimi was excavated from the southern side of Wangheungsa temple and the lower part from the northern side. These parts are considered to be portions of the same chimi, because they are similar in shape and are excavated from two sides of the same temple structure. However, the original shape of the chimi cannot be determined owing to substantial deterioration. Hence, in this study, replicas of the deteriorated chimi portions of Wangheungsa temple were fabricated by employing 3D scanning technology and the computer numerical control machining method. While observing the bending phenomenon of the chimi, the proposed model was warped realistically on the basis of the bending direction of the actual chimi. Consequently, the restoration process was modified several times. The results indicated that no gaps can be found between the upper and lower parts, and the corresponding patterns connect naturally. Furthermore, the proposed method is contactless, safe, operable, reproducible, and appropriate for restoration of artifacts. Additionally, the modeling data is semi-permanent. Hence, if modelling data is appropriately applied as per the characteristics of artifacts, it can be utilized in various fields such as virtual exhibitions, hands-on exhibitions, cultural heritage restoration, and production of teaching aids and souvenirs.