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Of cellulose and cellulose ethers
By means of 13C-NMR spectroscopy. Cellulose
Chem. Technol., 2000; 34: 21–34.
Baldinger, T., J. Moosbauer, H. Sixta,
Supermolecular structure of cellulosic
Materials by FTIR spectroscopy calibrat1066
Pulp Properties and Applications
Ed by WAXS and 13C NMR. Lenzinger
Ber., 2000; 79: 15–17.
Fink, H.-P., et al., Evaluation of new
organosolv dissolving pulps. Part II:
Structure and NMMO processability of
the pulps. Cellulose, 2004; 11: 85–98.
Akim, E.L., Manufacture and chemical
Treatment of dissolving pulps. Tappi,
1978; 61(9): 111–114.
Steege, H.H., B. Philipp, Production,
Characterization, and use of microcrystalline
cellulose. Zellst. Pap., 1974; 23(3):
68–73.
Sixta, H., Comparative evaluation of
TCF bleached hardwood dissolving
pulps. Lenzinger Ber., 2000; 79: 119–128.
Schleicher, H., B. Philipp, Effect of activation
On the reactivity of cellulose. Das
Papier, 1980; 34(12): 550–555.
Philipp, B., R. Lehmann, C. Rauscher,
Influence of cellulose material on the
Course of alkali cellulose formation. Faserforschung
und Textiltechnik, 1959; 10:
22–35.
Hinck, J.F., R.L. Casebier, J.K. Hamilton,
Dissolving Pulp Manufacturing. In
Sulfite Science & Technology, J.K.O. Ingruber,
P.E. Al Wong, Eds. TAPPI, CPPA:
Atlanta, 1985: 213–243.
Wallis, A.F.A., R.H. Wearne, Preparation
Of chemical cellulose from radiata
Pine bisulfite pulps without using chlorine-
Containing reagents. Appita, 1992;
45(4): 239–242.
Sioumis, A.A., A.F.A. Wallis, Chemical
Celluloses derived from Pinus radiata
Wood pulps for nitrocellulose preparation.
Polymer Int., 1991; 25: 203–209.
El-Din, N.M.S., F.F.A. El-Megeid, The
Effect of cold alkali pretreatment on the
Reactivity of some cellulosic pulps
Towards acetylation. Holzforschung,
1994; 48: 496–500.
Temming, H., H. Grunert, Temming
linters: technical informations about
Cotton cellulose, ed. Peter Temming
AG. Gluckstadt: J.J. Augustin, 1972.
Purz, H.J., H. Graf, H.-Fink, Electron
Microscopic investigations of fibrillar
And coagulation structure of cellulose.
Das Papier, 1995; 49(12): 714–730.
Yllner, S., B. Enstrom, Studies of the
Adsorption of xylan on cellulose fibres
During the sulphate cook. Part 1. Svensk.
Papperstidn., 1956; 59: 229–234.
Yllner, S., B. Enstrom, Studies of the
Adsorption of xylan on cellulosic fibres
During the sulphate cook. Part 2. Svensk.
Papperstidn., 1957; 60(15): 549–554.
Sixta, H., Investigation of xylan precipitation
during kraft cooking. R&D,
Lenzing AG: Lenzing, 2002: 8.
Hupfl, J., J. Zauner, Testing dissolving
Pulps by use of a laboratory-scale viscose
plant.. Das Papier, 20(3): 125–132.
Dahlmann, O., J. Sjoeberg. Comparative
Study of different approaches for analyzing
Carbohydrates at the surface of
Chemical pulp fibers. In Seventh European
Workshop on Lignocellulosics
and Pulp. Turku/Abo, Finland: Abo
Akademi, 2002: 111–114.
Sjoeberg, J., et al., Fiber surface and
Inner layer analysis of the polysaccharide
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