• 제목/요약/키워드: sea algae pulp

검색결과 7건 처리시간 0.02초

내부 결합 강도 개선을 위한 인쇄용지 제조 최적화 연구 (Optimization of the Paper Making Raw Materials for Improvement of the Internal Bonding Strength of Printing Paper)

  • 김병현
    • 한국인쇄학회지
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    • 제30권3호
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    • pp.35-43
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    • 2012
  • Internal bonding strength of printing paper was increased with sea-algae pulp treatment. Spacially, 9% contents sea-algae pulp treatment in the hardwood pulp are more effective than in the softwood pulp. Most effective mixture ratio of the raw matrials for improvement of the internal bonding strength are softwood pulp 30%, hardwood pulp 70%, sea-algae pulp 9%. Internal bonding strength is effective in more sea-algae pulp contents and softwood pulp contents and wetness.

인쇄 전자 용지의 특성 구현을 위한 치수 안정성 향상에 대한 연구 (Improvement of Paper Dimensional Stability for The Printed Electronics Base Paper)

  • 김병현;유희태;강영립
    • 한국인쇄학회지
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    • 제29권1호
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    • pp.35-44
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    • 2011
  • For printed electronic paper making which is high leveled dimensional stability. The furnish which is hard wood pulp and soft wood pulp, mixed with hard and soft wood pulp is added sea algae pulp. If sea algae pulp was added 15% contents, paper which is made with hard wood pulp is increased about 28% dimensional stability and soft wood pulp is increased about 32%, dimensional stability and hard wood 30% and soft wood 70% mixed pulp is increased about 40% dimensional stability.

출판물 보존성 향상을 위한 인쇄용지의 개선 (Improvement of the Printing Paper for advanced Preservation of a Publication)

  • 강영립;김천석
    • 한국인쇄학회지
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    • 제30권3호
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    • pp.57-64
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    • 2012
  • When papers each made with sea-algae pulp 1%, 5% and soft, hard wood pulp were aged for 12days. Paper made with soft wood pulp is 30% loss of folding endurance, made with hard wood pulp is 50% loss of folding endurance. On the other, papers each made with 9% sea-algae pulp and soft, hard wood pulp were 18% loss of folding endurance. In the aging test of paper made with different freeness paper made with 300ml CSF, is more effective than 400ml CSF, 500ml CSF.

활판 인쇄용지의 압축성 및 물리적특성 향상을 위한 해조류 섬유의 적용 (Application of Sea Algae Fiber for the Improvement of Compressibility and Physical Properties of Letter Press Printing Paper)

  • 김병현;서영범
    • 펄프종이기술
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    • 제40권1호
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    • pp.15-22
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    • 2008
  • For the improvement of letterpress printing paper quality, special fibers obtained from the sea were used by mixing with wood fibers. The sizes of the special fibers, which were from red algae in the sea, were 0.5-1 mm in length, and 3-7 ${\mu}m$ in width, respectively, and the fibers were supplied by Pegasus Research Inc. for the study. From the study, it was found that 10% addition of algae fibers greatly improved paper surface strength and internal bonding strength. The compressibility was estimated by utilizing 'Print-surf method' at high clamping pressure and with hard backing. Again, 10% addition of algae fibers greatly improved the compressibility of the paper. These results were expected that algae and wood fibers were distributed evenly through the sheet, and integrated one another to leave no empty space inside the paper.

홍조류 종이의 인쇄 뒤비침에 관한 연구 (On the Print Through of the paper prepared from red algae pulp)

  • 임수만;윤종태;이영세;서영범
    • 한국펄프종이공학회:학술대회논문집
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    • 한국펄프종이공학회 2008년도 춘계학술대회
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    • pp.129-134
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    • 2008
  • Properties of newly developed paper from Red Algae Pulp (RAP) were examined. The paper samples were prepared by mixing RAP fiber with wood fibers, HwBKP and SwBKP, to form a paper with $60g/m^2$ in weight. It was prepared in three to four different levels of refining degree and pressure so that it can reveal different bulk level in order to clearly compare the opacity at equivalent bulk for each furnish compositions. Printability of RAP fiber revealed superior effect on print through repression and initial ink absorption. Those properties are expected to improve further if printability improvement effect due to smoothness improvement is added.

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특수섬유를 이용한 보안용지의 개발 (Use of New Fibers for the Development of Security Paper)

  • 정선영;길상혁;김영욱;서영범
    • 펄프종이기술
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    • 제44권1호
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    • pp.16-23
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    • 2012
  • Use of security papers for monetary papers, gift certificates, and lottery tickets increases every year. As the use of security papers increase, there are more possibility of counterfeits. In this study, we used unique fibers from the sea to increase the difficulties against counterfeiting. The red algae fibers give opacity as much as calcium carbonates, and have unique shape in length ($500{\sim}900\;{\mu}m$) and width ($1{\sim}4\;{\mu}m$) to be discerned from other natural fibers such as wood and cotton fibers. We mixed red algae fibers to wood fibers in a series of fixed ratios to make single and multiply papers for making security papers. Paper with dyed red algae fibers were also used. Paper made without fillers gave enough opacity for printing when red algae fibers were used more than 20% of the fiber furnish. Those properties may allow red algae fibers to be a potential candidate for fiber raw materials of security paper.

홍조류 섬유를 보강재로 사용한 바이오복합재료의 특성 (Use of Red Algae Fiber as Reinforcement of Biocomposite)

  • 이민우;서영범;한성옥
    • 펄프종이기술
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    • 제40권1호
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    • pp.62-67
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    • 2008
  • Biocomposite was fabricated with biodegradable polymer and natural fiber that has potential to be used as replacement for glass fiber reinforced polymer composite with the benefits of low cost, low density, acceptable specific strength, biodegradability, etc. Until now, mostly natural cellulosic fibers on land have been used as reinforcement for biocomposite. The present study focused on investigating the fabrication and the characterization of biocomposite reinforced with red algae fibers from the sea. The bleached red algae fiber (BRAF) showed very similar crystallinity to the wood cellulose. It has high stability against thermal degradation (maximum thermal decomposition temperature of 359.3$^{\circ}C$) and thermal expansion. Biocomposites reinforced with BRAF have been fabricated by a compression molding method and their mechanical and thermal properties have been studied. The storage modulus and the thermomechanical stability of PBS (polybuthylenesuccinate) matrix are markedly improved by reinforcing with the BRAF. These results indicate that red algae fiber can be used as an excellent reinforcement of biocomposites, which are sometimes called as "green-composites" or "eco-composites".