표제지
목차
Abstract 6
I. 서론 13
II. 연구사 17
2.1. 제지기술의 전래 17
2.2. 제지수공업 연구 18
2.3. 조선시대 종이 명칭과 특성 연구 21
2.4. 제지기술의 과학적 분석 24
III. 재료 및 방법 28
3.1. 공시재료 28
3.2. 실험방법 38
3.2.1. 물리적 특성 38
3.2.2. 원료 섬유의 정색반응 특성 38
3.2.3. 초지용 발의 특성 39
3.2.4. 초지방법 및 가공특성 39
IV. 결과 및 고찰 41
4.1. 물리적 특성 45
4.1.1. 두께(Thickness)와 겉보기 밀도(Apparent density) 50
4.1.2. 평량(Basis weight)과 벌크(Bulk) 59
4.2. 원료 섬유의 정색반응 특성 68
4.2.1. C-stain에 의한 섬유식별 68
4.2.2. Safranine과 astra blue 이중염색 70
4.3. 초지용 발의 형태 73
4.3.1. 편사(編絲) 74
4.3.2. 발 무늬 79
4.3.3. 초지용 발의 규격 80
4.4. 초지법과 가공방법 85
4.4.1. 초지법 85
4.4.2. 가공방법 93
4.4.3. 충전제 성분분석 108
V. 결론 120
인용문헌 122
Table 1. Classification of paper names in Joseon Dynasty 23
Table 2. Diplomatic documents(외교문서) 29
Table 3. Gosin-gyojis(고신교지) 31
Table 4. Yuseos(유서) and Chujeung-gyojis(추증교지) 36
Table 5. Paper names and usages in Tagjijunjeol 43
Table 6. The physical properties of Diplomatic document 46
Table 7. The physical properties of Gosin-gyoji 47
Table 8. The physical properties of Yuseo and Chujeung-gyoji 49
Table 9. C-stain result of fibers from documents 69
Table 10. Images of fiber staining with safranine and astra blue from documents 71
Table 11. Metric units conversion of traditional measures 82
Table 12. Metric units conversion of traditional Korean paper sizes 84
Table 13. Stereomicroscope images of Diplomatic documents 87
Table 14. Stereomicroscope images of Gosin-gyojis 88
Table 15. Stereomicroscope images of Yuseos and Chujeung-gyojis 91
Table 16. Element contents of samples and controls by XRF spectrometer analysis 119
Figure 1. Samples of Diplomatic document. 30
Figure 2. Samples of Gosin-gyoji. 35
Figure 3. Samples of Yuseo. 37
Figure 4. Samples of Chujeung-gyoji. 37
Figure 5. Apparent density and thickness distributions of Diplomatic documents. 50
Figure 6. Apparent density and thickness distributions of Gosin-gyojis. 53
Figure 7. Apparent density and thickness distributions of Yuseos and Chujeung-gyojis. 55
Figure 8. Comparison with apparent density and thickness of documents. 57
Figure 9. Bulk and basis weight distributions of Diplomatic documents. 60
Figure 10. Bulk and basis weight distributions of Gosin-gyojis. 62
Figure 11. Images of the sample 19A19 by floodlighting. 63
Figure 12. Bulk and basis weight distributions of Yuseos and Chujeung-gyojis. 64
Figure 13. Image of the sample 19C2 by floodlighting. 65
Figure 14. Comparison with bulk and basis weight of documents. 66
Figure 15. Distribution of chain line width of documents. 75
Figure 16. Chain lines of sample 17D8 by floodlighting. 75
Figure 17. Chain lines of sample 17A1 by floodlighting. 76
Figure 18. Chain lines of sample 18A12 by floodlighting. 77
Figure 19. Connection part of laid. 78
Figure 20. Chain lines of sample 19A29 by floodlighting. 78
Figure 21. Distribution of laid lines per 3㎝. 80
Figure 22. Korean papermaking (1940's scenes). 81
Figure 23. Polarizing microscope images of sample 19D26 (×100). 94
Figure 24. Polarizing microscope images of sample 17A1 (×100). 96
Figure 25. Polarizing microscope images of sample 17A8 (×100). 97
Figure 26. Polarizing microscope images of sample 18A10 (×100). 98
Figure 27. Polarizing microscope images of sample 18A12 (×100). 99
Figure 28. Polarizing microscope images of sample 19A23 (×100). 100
Figure 29. Polarizing microscope images of sample 19A62 (×100). 101
Figure 30. Polarizing microscope images of sample 17Y1 (×100). 103
Figure 31. Polarizing microscope images of sample 17Y4 (×100). 104
Figure 32. Polarizing microscope images of sample 18C1 (×100). 105
Figure 33. Polarizing microscope images of sample 19C2 (×100). 106
Figure 34. Filler XRF spectrogram of sample 19D26. 110
Figure 35. Filler XRF spectrogram of sample 17A1. 110
Figure 36. Filler XRF spectrogram of sample 17A8. 111
Figure 37. Filler XRF spectrogram of sample 18A10. 111
Figure 38. Filler XRF spectrogram of sample 18A12. 112
Figure 39. Filler XRF spectrogram of sample 19A23. 112
Figure 40. Filler XRF spectrogram of sample 19A34. 113
Figure 41. Filler XRF spectrogram of sample 19A35. 113
Figure 42. Filler XRF spectrogram of sample 19A60. 114
Figure 43. Filler XRF spectrogram of sample 17Y1. 114
Figure 44. Filler XRF spectrogram of sample 18C1. 115
Figure 45. Filler XRF spectrogram of sample 19C2. 115
Figure 46. Filler XRF spectrogram of Oebal-ji (Korea, 2006). 117
Figure 47. Filler XRF spectrogram of Uda-gami (Japan, 2007). 117
Figure 48. Filler XRF spectrogram of Misu-gami (Japan, 2007). 118
Figure 49. Filler XRF spectrogram of Seon-ji (China, 2001). 118