Abstract
It has been determined that introducing powdered cellulose obtained from oat straw by the chemomechano-destruction method in the composition of rubbers increases the tensile strength of vulcanizates as compared with samples that do not contain this filler. It was found that the pH of water medium and degree of mineralization influence on the degree of swelling of rubbers containing powdered cellulose from oat straw negligibly.
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REFERENCES
S. S. Lopatina, M. A. Vaniev, D. A. Nilidin, O. I. Tuzhikov, E. B. Chernyshova, and V. M. Yartseva, “Efficiency of the application of chitosane in water-swelling rubbers,” Izv. Volgograd. Gos. Tekh. Univ., No. 4, 123–127 (2018).
S. S. Lopatina, M. A. Vaniev, D. A. Nilidin, N. V. Sychev, E. V. Bryuzgin, S. Yu. Onokolov, “Influence of temperature on water-swellable rubbers,” Izv. Volgograd. Gos. Tekh. Univ., No. 4, 120–123 (2018).
Chitin and Chitosane. Production, Properties, and Application, Ed. by K.G. Skryabin (Nauka, Moscow, 2002) [in Russian].
E. N. Egorov, N. F. Ushmarin, K. V. Efimov, S. I. Sandalov, I. S. Spiridonov, and N. I. Koltsov, “The influence of functional ingredients on the technological properties of water-swelling rubber sealing elements,” Butlerovskie Soobshch. 58 (6), 146–151 (2019).
I. A. Novakov, M. A. Vaniev, S. S. Lopatina, D. A. Nilidin, N. V. Sychev, Ya. Yu. Savchenko, and A. D. Bruk, “Condition and development tendency in the production and application of waterand oil-swelling elastomers for packer equipment,” Kauch. Rezina 78 (4), 228–237 (2019).
M. A. Ibragimov, D. A. Arkhireev, A. Ya. Salikhov, and N. N. Shishkina, “Study of damages of swellable packer,” Prom. Proizvod. Ispol’z. Elastomerov, No. 2, 35–40 (2018).
O. V. Nesterova, E. N. Cherezova, M. A. Torlopov, I. S. Martakov, and E. V. Udoratina, “The modification process investigation of the of cellulose modificationproducts on SKI-3 elastomer and it is based on rubbers,” Butlerovskie Soobshch. 48 (12), 127–132 (2016).
E. N. Cherezova, Yu. S. Karaseva, E. V. Udoratina, and E. G. Shakhmatov, “Modification of vulcanizates based on styrene-butadiene rubber (SBR-1705 HI-AR) by lignocellulosic additives,” Butlerovskie Soobshch. 41 (1), 101–105 (2015).
K. S. Momzyakova, T. R. Deberdeev, Z. T. Valishina, R. Ya. Deberdeev, and A. V. Ibragimov, “Extrusion technology for producing powders of cellulose of various origin,” Fiz. Voloknistykh Mater.: Strukt., Svoistva, Naukoemkie Tekhnol. Mater., Nos. 1–2, 79–81 (2019).
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Cherezova, E.N., Karaseva, Y.S. & Momzyakova, K.S. Hydrophilic Rubber Based on Butadiene–Nitrile Rubber and Phytogenic Powdered Cellulose. Polym. Sci. Ser. D 15, 118–121 (2022). https://doi.org/10.1134/S1995421222010075
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DOI: https://doi.org/10.1134/S1995421222010075