Conclusions
-- The sorption of water vapor by copper-containing and by final hydrocellulose fibres from the cuprimonium preparation method essentially does not depend on the concentration of the water-diethylene glycol precipitation bath or on stretching in the range up to 34%, which indicates formation of structures which are close to amorphous fibre in packing density under these conditions.
-- The specific surface of both copper-containing and also of hydrocellulose fibres which have been dried by solvent replacement depends on the composition of the water-diethylene glycol bath, wherein this dependence has a bimodal character.
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Literature cited
S. P. Papkov and É. Z. Fainberg, The Interaction of Cellulose and of Cellulosic Materials with Water [in Russian], Khimiya, Moscow (1976).
A. T. Serkov, Production of Viscose Staple Fibre [in Russian], Khimiya, Moscow (1986).
A. Sh. Goikhman and V. P. Solomko, High-Molecular Inclusion Compounds [in Russian], Naukova Dumka, Kiev (1982).
I. P. Baksheev, G. G. Finger, M. A. Kop'ev, A. Kh. Khakimova, Z. A. Surnina, and A. B. Pashver, 4th Int. Symp. on Man-Made Fibres, Kalinin (1986). Preprints, Vol. 2, p. 139.
L. P. Mil'kova, N. S. Pozhalkin, M. A. Kop'ev, B. É. Mukhtarov, and S. I. Banduryan, in: Scientific Works, “Physico-Chemical Bases for the Preparation of Hydrocellulose Fibres by Nontraditional Methods,” [in Russian], S. P. Papkov and I. P. Baksheeva (eds.), Mytishchi (1989), p. 27.
M. M. Iovleva and L. Ya. Konovalova, Khim. Volokna, No. 2, 16 (1990).
G. S. Negodyaeva and L. Ya. Konovalova, in: Scientific Works, “Physico-Chemical Bases for the Preparation of Hydrocellulose Fibres by Nontraditional Methods” [in Russian], S. P. Papkova and I. P. Baksheeva (eds.), Mytishchi (1989), p. 58.
Additional information
VNIIPV, Mytishchi. Translated from Khimicheskie Volokna, No. 3, pp. 25–26, May–June, 1992.
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Konovalova, L.Y., Negodyaeva, G.S., Myasnikova, N.V. et al. Sorptive properties of fibres prepared from cuprimonium solutions of cellulose. Fibre Chem 24, 198–201 (1993). https://doi.org/10.1007/BF00554709
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DOI: https://doi.org/10.1007/BF00554709