Conclusions
The effect of the molecular-weight composition of CTA on the physicomechanical properties of films and yarns has been examined.
The possibility of processing a mixture containing an addition of high-molecular CTA into fibre has been demonstrated.
An increase in the strength of yarns and films containing an additive of high-molecular CTA has been established.
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Literature cited
A. V. Savitskii and I. L. Frolova, International Symposium on Man-Made Fibres, Kalinin (1981), Preprints, Vol. 5, p. 99.
A. V. Savitskii, G. N. Andreeva, et al., International Symposium on Man-Made Fibres, Kalinin (1986), Preprints, Vol. 1, p. 1.
K. E. Perepelkin and Z. Yu. Chereiskii, Mekh. Polimerov, No. 6, 1002 (1977).
N. P. Dymarchuk, N. V. Kornilova, and S. L. Talmud, in: Transactions of the Leningrad Technological Institute for the Cellulose-Paper Industry, Lesnaya Prom-St', Moscow (1964), No. 12, p. 144.
A. K. Dibrovy and V. S. Matveev (eds.), Analytical Control in the Manufacture of Artificial Fibres. A Handbook Aid [in Russian], Khimiya, Moscow (1986).
Additional information
Saratov State University. Translated from Khimicheskie Volokna, No. 2, pp. 42–44, March–April, 1992.
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Ryskina, I.I., Vakulenko, N.A., Novikova, I.A. et al. Molecular-weight distribution of cellulose triacetate and the strength of fibres and films. Fibre Chem 24, 139–143 (1993). https://doi.org/10.1007/BF00555034
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DOI: https://doi.org/10.1007/BF00555034