1 |
명소영, 제지 산업의 기후변화협약 대응방안, 한국펄프종이공학회 2008년 춘계학술논문발표집, pp. 25-37 (2008).
|
2 |
서동준, 제지업체의 에너지 절감 추진 동향, 2009년 한국펄프종이공학회 콜로퀴엄, pp. 47-67 (2009).
|
3 |
김은영, 원종명, 습부압착과 건조 조건이 종이의 해리 특성 및 물성에 미치는 영향, J. Korea TAPPI 35(2): 12-17 (2003).
|
4 |
Lee, J. H., and Park, J. M., Influences of Wet-Pressing Types on Internal Structure of Paper, J. Korea TAPPI 37(4):32-37(2005).
|
5 |
성용주, and Keller, D. S., 습지압착 조건에 따른 압착탈수 공정효율과 종이구조변화, 한국펄프종이공학회 2010년 춘계학술논문발표집, pp. 9-15 (2010).
|
6 |
Back, E., A review of press drying, STFI Meddelande Series D., No. 224, Sept. (1984).
|
7 |
KS M ISO 8226-1:2008, 종이 및 판지-흡습팽윤도 측정-1부 : 최대상대습도 68%까지의 흡습팽윤도.
|
8 |
Leisen, J., Hojjatie, B., Coffin, D., W., Lavrykov, S., A., Ramarao., B., V. and Beckham, H., W., Throughplane diffusion of moisture in paper detected by magnetic resonance imaging, Ind. Eng. Chem. Res., 41:6555-6565 (1978).
|
9 |
Larsson, P., Hygro- and hydroexpansion of paper, Doctoral Thesis, KTH Royal Ins. of Technology, Sweden, (2010).
|
10 |
Jarrell, T.,D., Effect of atmospheric humidity on the moisture content of paper, Paper Trade, J. 85:47-51 (1927).
|
11 |
Larsson, P. A., and Wagberg Lars, Influence of fibre- fibre joint properties on the dimensional stability of paper, Cellulose 15(4): 515-525 (2008).
DOI
ScienceOn
|
12 |
Brecht. W., Hildebrand, W. and Uber die flachenbestandigkeit der Papiere. Das Papier 14(10A):610-624 (1960).
|
13 |
Thalen, N., Kolmodin, H., and Glasare, K. Dimensional changes of newsprint in offset printing, In Moisture-Induces Creep Behaviour of Paper and Board, Fellers, C., and Laufenberg, T. L. (ed.), pp. 149-165, (1994).
|
14 |
Tattari, H., and Niskanen, K., Mechanical deformation of paper in the printing nip, PSC Communication 115, KCL, Helsinki, Finland, (1998).
|
15 |
Tattari, H., and Niskanen, K., Dynamic dimensional changes of paper in the printing nip, PSC Communication 119, KCL, Helsinki, Finland, (1998).
|
16 |
Bostrom, B., How to measure dimensional stability, In PITA Coating Conference, pp. 45-50, (2001).
|
17 |
Salmen L., Boman R., Fellers C. and Htun M., The implications of fiber and sheet structure for the hygroexpansivity of paper, Nordic Pulp Paper Res. J. 2:127-131(1987).
|
18 |
Ketoja, J. A., Kananen, J., Niskanen, K. J., and Tattari, H., Sorption and web expansion mechanisms, In The Science of Papermaking: Transactions of the 12th Fundamental Research Symposium held in Oxford, Vol. 2, pp.1357-1366, (2001).
|
19 |
Coffin, D. W., The creep response of paper, In Advances in Paper Science and Technology: Transactions of the 13th Fundamental Research Symposium Held in Cambridge Vol. 2, pp.651-747, (2005).
|
20 |
Nordman L., Laboratory investigations into the dimensional stability of paper, Tappi 41:23-30 (1958).
|
21 |
Wahlstrom, B. P., Our present understanding of the fundamentals of pressing, P & P Mag. Canada 70:19:T349, Dec. 20, (1969).
|
22 |
Casey, J. P., Pulp and Paper Chemistry and Chemical Technology, Third Ed. Vol II, pp. 1065-1077 (1980).
|
23 |
Wahlstrom, B. P., Wet pressing in the 20th century: evolution, understanding and future, P & P Mag. Canada 102:12:T133, Dec. (2001).
|
24 |
Reese, R. A., Pressing operations, Pulp and Paper Manufacture, Vol. 7, Paper Machine Operations, Thorp, B. A., and Kocurek, M. J. (ed.), Joint Textbook Committee of the Paper Industry, TAPPI & CPPA, pp. 278-280, (1991).
|
25 |
Baum, G. A., Sheet structure considerations - Paper as an engineered material, Pulp and Paper Manufacture, Vol. 7, Paper Machine Operations, Thorp, B. A., and Kocurek, M. J. (ed.), Joint Textbook Committee of the Paper Industry, TAPPI & CPPA, pp. 69-70, (1991).
|
26 |
Gustafsson, J.-E., and Vomhoff, H., Modelling of mechanical dewatering in contact with rough permeable surfaces, In Advances in Paper Science and Technology: Transactions of the 13th Fundamental Research Symposium Held in Cambridge Vol. 1, pp.109-128, (2005).
|
27 |
McDonald, J. D., Pikulik, I. I., Mentele, C. J. and Lange, D. V., A pilot paper machine evaluation of the effect of pressing on newsprint quality, Tappi J. 81(6):131-137(1998).
|