1 |
Son, D. J.and Kim, B.Y., Effects of branch degree of CPAM for retention and drainage, 2007 Korea-Tappi fall proceeding, Korea TAPPI, Seoul, pp 21.
|
2 |
Shin, J. H., Han, S. H., Son, C. M. and Ow, S. K., Highly branched cationic polyelectrolytes: Filler flocculation, Tappi J., 80 (11) :179-185(1997).
|
3 |
Shin, J. H., Han, S. H., Son, C. M. and Ow, S. K., Highly branched cationic polyelectrolytes: Fines retetion, Tappi J., 80 (10):185-189(1997).
|
4 |
Son, D. J. and Kim, B. Y., New retention system using branched polymer, 2006 Panpacific conference proceeding, Vol. 2, Korea TAPPI, Seoul, pp. 251, (2006).
|
5 |
Vaughan, C. W., A new approach to wet-end drainage, retention, and formation technology, Tappi J., 79 (7):103-109 (1996).
|
6 |
Huber, P., Pierre, C., and Carre, B., Comparing the fiber flocculation behavior of several wet-end retention systems, Tappi J., 3 (4):19-24 (2004).
|
7 |
Liu, W., Ni, Y., and Xiao, H., Preparation and synergy with anionic polymer in filler flocculation, J. of Pulp and Paper Sci., 29 (5) :145-149 (2003).
|
8 |
Gaiolas, C., Silva, M. S., Costa, P. and Belgacem, M. N., Influence of the combined use of cationic starch and cationic polyacrylamide on the quality of printing paper, Tappi J., 5 (6):3-8 (2006).
|
9 |
Gibbs, A., Xiao, H., Deng, H. and Pelton, R., Flocculants for precipitated calcium carbonate in newsprint pulps, Tappi J., 80 (4):163-170 (1997).
|
10 |
Polverari, M., Hamel, J. Sithol, B. and Allen, L., A new retention aid for the production of SC printing grades: pilot paper machine results, Tappi J., 2 (9):3-8 (2003).
|
11 |
Ovenden, C., Xiao, H. and Wiseman, N., Retention aid systems of cationic microparticles and anionic polymer: experiments and pilot machine trials, Tappi J., 83 (3):80-85 (2000).
|
12 |
Xiao, H., Novel retention aids for mechanical pulps, Tappi J., 79 (4) :129-135(1996).
|
13 |
Unbehend, J.E., Mechanisms of "soft" and " hard" floc. formation in dynamic retention measurement, Tappi J., 59 (10):74-77 (1976).
|