• Proceedings of the Korean Society of Dyers and Finishers Conference
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• 2011.03a
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• pp.81-81
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• 2011

식물성 원료인 콩, 쌀이나 밀기울의 풀, 송진 등과 알긴산이 포함되어 있는 해조류는 예로부터 접착제로 사용되어 왔으며, 최근 친환경 소재 개발의 영향으로 천연바인더에 대한 기술개발이 큰 관심이 되고있다. 국내에서는 재지분야에서 천연바인더 기술개발이 이루어진 바 있으며, 잉크 고착제로써 개발이 시도된 적이 있으나 천연 바인더가 섬유의 염색가공에서 사용된 예는 거의 찾아보기 어렵다. 최근, 염색공정 중 날염시 염료와 섬유를 고착시키기 위해 로진을 천연바인더로 사용된 예가 있으나, 원료 추출의 어려움과 날염 후 접착력 및 끈적임 등의 문제로 인해 상용화에 필요한 기술개발이 문제로 남아 있다. 독일의 한 연구에 의하면 천연바인더로 녹말, 설탕, 셀룰루오스, 식물성 기름, 식물성 단백질 등이 합성 바인더와 비교 실험된 예가 있으며, 이런 천연바인더가 파이버보드(섬유판)에 사용되기도 하였다. 또한 미국의 바이오물질, 바이오시스템 공학과에서 옥수수대와 switchgrass를 이용하여 천연바인더를 개발하였으며, bridge 타입의 메카니즘을 연구한 바 있다. 천연바인더는 여전히 값비싸고, 바인더로서 섬유에 적용하기에는 딱딱한 단점이 있으며, 수분에 대한 저항력이 떨어져 추출에서부터 적용까지 전반에 걸쳐 기술개발이 필요한 분야이다. 본 연구에서는 셀룰로오스 섬유의 염색가공 공정에서 기능성 마이크로 캡슐을 부착할 수 있는 천연바인더를 개발하기 위하여 갈조류에서 알긴산을 추출하였으며, 알긴산이 셀룰로오스 섬유에 바인더로서 어떤 특징을 나타내는지에 대하여 연구하였다.

• Journal of the Korean Wood Science and Technology
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• v.29 no.1
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• pp.60-67
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• 2001

The microscopic characteristics and cellulose structures of primary and secondary tissues in Pinus densiflora S. et Z. were examined. Cells of primary tissue in cross section showed an irregular arrangement and round shape. Fiber lengths were 200 to $250{\mu}m$ in primary tissue, and 1,500 to $1,600{\mu}m$ in secondary tissue. Cell diameters in primary tissue were larger than those in secondary tissue; 40 to $50{\mu}m$ in former and 10 to $20{\mu}m$ in latter. Crystallite width and d-spacing of (200) in both tissues did not show any significant differences. However, crystallinity indices by Segal's method showed significant differences as 23% in primary tissue and 35% in secondary tissue. In the orientation of cellulose microfibril, primary tissues had a random pattern, whereas, secondary tissues presented an oriented pattern with 20 to 30 degree. The cellulose crystalline of primary tissue was easily transformed into cellulose II by mercerization, but that of secondary tissue hardly transformed. It is considered that the difference of crystal transformation in both tissues could be caused by the difference of lignification.

• Clean Technology
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• v.13 no.3
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• pp.201-207
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• 2007

Carboxymethylcellulose (CMC), which is water-soluble at room temperature, was synthesized from cellulose in this study. Experimental parameters included reaction temperature, time, concentration of NaOH, and monochloroacetic acid (MCA). In mercerization and etherification, solubility and degree of substitution (DS) increased when NaOH (or MCA) concentration increased and maximum solubility and DS were achieved when NaOH or MCA was 30%. The effect of MCA concentrations on the DS was larger than that of the NaOH concentration. Tensile strength of the CMC was decreased by the increases of reaction time, reagent concentration and reaction temperature. Tensile strength also decreased by NaOH and MCA. However, low decrease of tensile strength was observed in near neutral region.

• Proceedings of the Korean Fiber Society Conference
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• 1990.06a
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• pp.40-40
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• 1990

• Proceedings of the Korean Fiber Society Conference
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• 1994.10a
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• pp.108-109
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• 1994

• Journal of the Korean Wood Science and Technology
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• v.39 no.3
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• pp.197-205
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• 2011

Cellulose nanofibrils (CNF) with 50~100 nm diameter were manufactured from micro-size cellulose by an application of a high-pressure homogenizer at 1,400 bar. High strength nanopapers were prepared over a filter paper by a vacuum filtration from CNF suspension. After reinforcing and dispersing CNF suspension, hydroxypropyl cellulose (HPC) and polyvinyl alcohol (PVA)-based composites were tailored by solvent- and film-casting methods, respectively. After 2, 4, 6 and 8 passes through high-pressure homogenizer, the tensile strength of the nanopapers were extremely high and increased linearly depending upon the pass number. Chemical modification of 1H, 1H, 2H, 2H-perfluorodecyl-triethoxysilane (PFDTES) on the nanopapers significantly increased the mechanical strength and water repellency. The reinforcement of 1, 3, and 5 wt% CNF to HPC and PVA resins also improved the mechanical properties of the both composites.

• Proceedings of the Korean Fiber Society Conference
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• 2007.11a
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• pp.199-200
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• 2007

• Proceedings of the Korean Fiber Society Conference
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• 2007.11a
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• pp.517-518
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• 2007

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• Proceedings of the Korean Fiber Society Conference
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• 1994.04a
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• pp.114-114
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• 1994

• Proceedings of the Korean Society of Dyers and Finishers Conference
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• 2006.11a
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• pp.189-192
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• 2006