• 한국의상디자인학회지
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• 제10권1호
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• pp.99-116
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• 2008

This study reviewed pertinent literature and examined relics of manggon(a headband worn to hold a man's topknot hair in place), donggot(a topknot pin), and chigwan(a topknot cover). Before the modernized short hair style, wearing a gat was an important custom. Therefore, manggon, which was used to hold a man's hair in place under the gat, was considered an essential part of the man's official dress code. Donggot is a pin that held the topknot hair in place. It was a must have for a married man, like the binyeo, a lod-like hairpin, for a married woman. Unlike gwanja, it had nothing to do with official rank, but materials were of a variety of materials, including jade and gold. The structure of the donggot was studied in three parts-head, neck and body. Major forms for the head include the mushroom, bean and ball. Bullet and half-cut bullet forms were also found. Forms for the neck include straight-neck and curved-neck. A neck with a belt around a double chin was also found. Forms for the body include the tetrahedron, octahedron and cylinder. The most popular form for silver and white bronze donggot heads was the mushroom, followed by bean and pile forms. Chigwan is also called chipogwan, chichoal, choalgyesogwan, noingwan and sangtugwan. In poetry it was called chichoal, and it used to be called taegogwan in the past as well. Chigwan was so small that it managed to hold a topknot. According to confucian custom in the Joseon period, by wearing chigwan, men didn't display their bare topknot even when they didn't dress up. When they went out, they wore another official hat over the chigwan.

• 보존과학회지
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• 제37권2호
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• pp.120-134
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• 2021

조선 말기 방한용 깔개인 모담(毛毯)이 창덕궁 성정각의 해체 공사 중 발견되었다. 문헌기록에 비해 현전하는 조선시대 모직물 유물이 많지 않아 유물로서 가치가 높다. 특히 1907년 창덕궁 성정각을 수리한 기록이 있어, 모담은 19세기 말 또는 20세기 초에 제작된 것으로 생각된다. 출토 모담은 자적색 계열의 바탕 직물로 위에 황색, 홍색 등으로 선염한 색사를 표면에만 삽입하여 문양을 시문하였다. 모담의 식서부분은 S연의 면사가 확인되었으며, 지경사는 Z연의 황마사, 지위사는 S연의 황마사, 문경사는 S연의 모사를 사용했다. 특히 무늬는 루프파일의 색사로, 색사의 경계면에서 일부 컷 파일이 확인되나 지위사로 고정되어 표면에 거의 드러나지 않는 다. 황마사와 모사를 사용한 것은 18세기 중엽 유럽의 브뤼셀 카펫의 영향을 받은 것으로 짐작된다. 모담의 문양을 밝히는 데 한계가 있으며 다만 문양이 부분적으로 반복됨을 알 수 있다. 이상의 연구내용을 도출하기 위해 문헌과 회화자료 외에 현미경 분석, 적외선 분광분석을 실시하였다. 또한 유물에 사용된 염료를 밝히기 위해 색도측정을 토대로 자외-가시광 분광분석을 실시하여 천연 염색한 직물 샘플에 대한 교차분석을 시도하였다. 그 결과 모담의 녹색 모사는 쪽을 사용하지 않았으며, 자적색의 바탕조직은 소목으로 염색한 것으로 추정할 수 있다.

• 한국의상디자인학회지
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• 제23권1호
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• pp.37-45
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• 2021

This study observed the release of microplastics according to washing weights and filtering conditions, measured microplastic generation rates, fiber lengths, and fiber diameters. This study attempted to present data for the development of filters that decrease microplastic generation. For test samples, polyester piled knit fabric (cut-pile) was selected, which currently has the highest amount of consumption in the clothing industry, but can easily cause marine pollution because of its low biodegradability. For test equipment, a drum washer was used and microplastics were collected using two filter pore sizes, 5 ㎛ and 20-25 ㎛. Microplastic fibers weights and lengths were measured. The results of the experiment showed the following: 1) The release of microplastics differed according to the fabric weights and washing process; 2) washing fabric weights showed a differences in the collection amount according to the filter pore size (5 ㎛, 20-25 ㎛); 3) observations of differences in the lengths of the microplastics that occur during the washing process by filter pore size were made. Fibers with shorter lengths appeared with filter pore sizes of 5㎛ in comparison to filter pore sizes of 20-25㎛. The results from this study on microplastic generation by fabric during washing, demonstrated the following conclusions that can be used to reduce the release of microplastics. First, the release of microplastics according to fabric weights and washing courses are affected by physical force. Therefore, it is necessary to reduce the amount of physical force due to water flow, increase the fabric weight, or wash the material in low temperatures. Second, in the manufacturing of washing machines, microplastic filtration can be promoted or legislatation supporting microplastic filtration can be introduced.