생몰정보
소속
직위
직업
활동분야
주기
서지
국회도서관 서비스 이용에 대한 안내를 해드립니다.
검색결과 (전체 1건)
원문 있는 자료 (1) 열기
원문 아이콘이 없는 경우 국회도서관 방문 시 책자로 이용 가능
목차보기더보기
표제지
목차
Ⅰ. 서 론 7
Ⅱ. 시 료 12
A. 한국 고대유리의 특성 12
1. 화학 조성 12
2. 역사적 변천 13
3. 형태별 분류 15
4. 색상별 분류 16
B. 분석 시료 20
1. 지역과 시대에 따른 거시적 특징 20
2. 고분별 특징 26
2-1. 양동리 고분(良洞里 古墳) 26
2-2. 계성 고분(桂城 古墳) 26
2-3. 다호리 유적(茶戶里 遺蹟) 27
2-4. 팔달동 유적(八達洞 遺蹟) 27
2-5. 옥성리 고분(玉城里 古墳) 28
2-6. 임당 유적(林堂 遺蹟) 28
2-7. 성동리 고분(城洞里 古墳) 29
2-8. 황남대총 남분(皇南大? 南墳) 29
2-9. 무령왕릉(武寧王陵) 30
2-10. 오창 유적(梧倉 遺蹟) 31
2-11. 복암리 3호분(伏岩里 3號墳) 32
2-12. 미륵사지(彌勒寺址) 33
2-13. 마하리 고분군(馬霞里 古墳群) 33
Ⅲ. 실 험 34
A. 고대유리의 화학 조성 분석 34
B. 분석 조건 35
1. 표준시료 35
2. 측정 시간 및 횟수 36
3. 풍화층과 조성 변화 37
C. 미세구조 39
1. 광학현미경 및 편광현미경 관찰 39
2. 전자현미경 관찰 39
3. X-선 회절분석 40
D. 납동위원소비 40
E. 주성분분석법 41
Ⅳ. 분석 결과 42
A. 고대유리의 조성 분류 42
B. 납유리(Lead glass group) 45
1. 화학 조성 45
2. 색 상 48
C. 포타쉬유리(Potash glass group) 48
1. 화학 조성 48
2. 색 상 50
D. 소다유리(Soda glass group) 52
1. 화학 조성 52
2. 색 상 56
3. 황남대총 남분 유리용기 65
4. 금박구슬 73
5. 유리곡옥 79
E. 알칼리혼합유리(Mixed alkali glass group) 79
F. 미세구조 81
G. 납동위체원소비 91
Ⅴ. 종합 고찰 121
A. 지역별 특성 변화 121
B. 시대별 특성 변화 122
Ⅵ. 결 론 133
Ⅶ. 참고문헌 137
초록 144
Abstract 147
Table 1. Some of the common colorants for glass 16
Table 2. Glass color according to the composition of glass group 17
Table 3. The basic classification system for glasses according to color 18
Table 4. General informations about the semples analyzed in this study 23
Table 5. The quantitative results of secondary standard material 35
Table 6. The comparison of quantitative results in secondary standard material by live time of measurement 36
Table 7. Comparison of the composition between original and weathering layer in ancient alkali glass beads 37
Table 8. The compositional classification of ancient glasses found in Korea 42
Table 9. The characteristics and compsitions of the lead glass group analyzed in this stydy 100
Table 10. The characteristics and compsitions of the potash glass group analyzed in this study 102
Table 11. The characteristics and compsitions of the soda glass group analyzed in this study 108
Table 12. Factor loadings and communality of the glass vessels from Hwangnam Daech'ong South, Kyongju, Kyo ngsangbukdo 68
Table 13. The characteristics and compsitions of the glass vessels from Hwangnam Daech'ong South. kyongju. Kyo ngsangbukdo 69
Table 14. The The characteristics and compsitions of gold foil beads in soda glass group 76
Table 15. The characteristics and compsitions of mixed alkali glass group analyzed in this study 80
Table 16. Lead isotope ratios of glasses and Glazes from Korea 93
Table 17. The characteristics and compsitions according to glass classification and color in glasses excavated in various tombs in Korea 125
Fig. 1. Pictures of major color on ancient glasses in Korea 19
Fig. 2. The map of tomb sites investigated in this study. In the parentheses are shown the symbols and the number of analyzed glass samples 22
Fig. 3. Backscattered electron images of original and weathering layer in different glass group. (a) lead barium glass(pd-14), (b) potash glass (pd-6), (c) soda glass(os-22) 38
Fig. 4. The compositional classifcations of ancient glasses in this study 44
Fig. 5. The relationship between CaO and Al₂O₃ composition for lead groupanalyzed in this study 47
Fig. 6. The relationship between CaO and Al₂O₃ composition for potash glass analyzed in this study 51
Fig. 7. The relationship between CaO and Al₂O₃ composition for soda glass analyzed in this study 57
Fig. 8 (a). The relationship between CaO and Al₂O₃ composition for soda glass exccavated from Yangdong(yd) and Kyeso ˇ ng(gs) at Kyo ˇ ngnamdo 58
Fig. 8 (b). The relationship between CaO and Al₂O₃ composition for soda glass exccavated from Okso ˇ ngri(os), Imdangdong(im), So ˇ ngdongri(sd) and Hwangnam Daech'ong(hn) at Kyo ˇ ngnsangbukdo 59
Fig. 8 (c). The relationship between CaO and Al₂O₃ composition for soda glass exccavated from Muryo ˇ ngwangnu ˇ ng(mn) in Ch'ungch'ongnando, Och'ang(och) in Ch'ungch'ongbukdo, Pogamri(ba) in Cho ˇ llabukdo and Mahari (mh) in Kyonggido. 60
Fig. 9. The relationship between MgO and K₂O composition for soda glass group in this study 61
Fig. 10 (a). The relationship between MgO and K₂O composition for soda glass group excavated from Yangdongri(yd) and Kyeso ˇ ng(gs) in Kyo ˇ ngsangnamdo 62
Fig. 10 (b). The relationship between MgO and K₂O composition for soda glass group excavated from Okso ˇ ngri(os), Imdangdong(im), Soˇngdongri(sd) and Hwangnam Daech'ong(hn) in Kyo ˇ sangbukdo 63
Fig. 10 (c). The relationship between MgO and K₂O composition for soda glass group excavated from Muryo ˇ ngwangnu ˇ ng (mn) in Ch'ungch'ongnando, Och'ang(och) in Ch'ungch'ongbukdo, Pongmri(ba) in Cho ˇ llabuldo and Mahari(mh) 64
Fig. 11. Principal component analysis of the glass vessels from Hwangnam Daech'ong South, Kyongju, Kyo ngsangbukdo 67
Fig. 12. Distribution of factor loading in the principal component analysis of the glass vessels from Hwangnam Daech'ong South, Kyongju, Kyo ngsangbukdo 68
Fig. 13. The relationship between CaO and Al₂O₃ composition of vessels and beads from Hwangnam Daech'ong South (hn) in soda glass group 71
Fig. 14. The relationship between MgO and K₂O composition vessels and beads from Hwangnam Daech'ong South (hn) in soda glass group 72
Fig. 15. Backscattered electron image (�50) of a section in gold foil bead excavated at Bogamri No.3 (10 site), Naju, Cho llanamdo. (GF-out; gold foil bead outside layer, GF-in; gold foil bead inside layer) 74
Fig. 16. The relationship between CaO and Al₂O₃ of gold foil bead from Yangdongri (yd) and Bongmri (ba) compared with soda glass of Hwangnam Daech'ong South (hn) 77
Fig. 17. The relationship between MgO and K₂ of gold bead from Yangdongri (yd) and Bongamri (ba) composition with soda glass of Hwangnam Daech'ong South (hn) 78
Fig. 18. Microscopic pictures(�20) and backscattered electron images(�100, �500) of a section of glass bead excavated at Och'ang, Ch'o ngwon, Ch'ungch'o nbukdo 83
Fig. 19. Pictures of glasses excavated at Hwangnam Daech'ong South, Kyongju, Kyo ngsangbukdo 84
Fig. 20. Backscattered electron images of a section in the glasses excavated at Hwangnam Daech'ong South, Kyongju, Kyo ngsangbukdo 85
Fig. 21. Backscattered electron images of a section of the glasses excavated at Hwangnam Daech'ong South, Kyongju, Kyo ngsangbukdo 86
Fig. 22. Backscattered electron images of a section in the glasses excavated at Kyeo ng, Ch'angnyo ng, Kyo ngsangnamdo 87
Fig. 23. Backscattered electron images of a section in the glasses excavated at Kyeo ng, Ch'angnyo ng, Kyo ngsangnamdo 88
Fig. 24. X-ray mapping images of a section in yellow glass (mhr-4) excavated at Mahari, Hwaso˘ ng, Kyo˘ nggido (京畿道 華城 馬霞里) 89
Fig. 25. X-ray diffractogram of a section of yellow glass (mhr-4) excavated at Mahari, Hwaso˘ ng, Kyo˘ nggido (京畿道 華城 馬霞里) 89
Fig. 26. The formation process of lead tin oxide(PbSnO₃) in yellow glass 90
Fig. 27 (a). The distribution of lead isotope ratios for glasses and glazes from Korea (A type) 95
Fig. 27 (b). The distribution of lead isotope ratios for glasses and glazes from Korea (B type) 96
Fig. 28. The Relationship of distribution of lead isotope ratios for glasses and glazes from Korea (A type) 97
Fig. 29 (a). The distribution of lead isotope ratios for glass from Korea and Japan and China (A type) 98
Fig. 29 (b). The distribution of lead isotope ratios for glass from Korea and Japan and China (B type) 99
Fig. 30. A compositional distribution chart from different periods 124
원문구축 및 2018년 이후 자료는 524호에서 직접 열람하십시요.
도서위치안내: / 서가번호:
우편복사 목록담기를 완료하였습니다.
* 표시는 필수사항 입니다.
* 주의: 국회도서관 이용자 모두에게 공유서재로 서비스 됩니다.
저장 되었습니다.
로그인을 하시려면 아이디와 비밀번호를 입력해주세요. 모바일 간편 열람증으로 입실한 경우 회원가입을 해야합니다.
공용 PC이므로 한번 더 로그인 해 주시기 바랍니다.
아이디 또는 비밀번호를 확인해주세요