Случайная страница | ТОМ-1 | ТОМ-2 | ТОМ-3 Автомобили Астрономия Биология География Дом и сад Другие языки Другое Информатика История Культура Литература Логика Математика Медицина Металлургия Механика Образование Охрана труда Педагогика Политика Право Психология Религия Риторика Социология Спорт Строительство Технология Туризм Физика Философия Финансы Химия Черчение Экология Экономика Электроника

Kunze, J., A. Ebert, H.-Fink, Characterization

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

Дата добавления: 2015-10-21; просмотров: 101 | Нарушение авторских прав