Abstract
Biodegradable compositions based on low-density polyethylene and polylactide containing arabinogalactan are obtained. Their mechanical properties are studied. It is shown that the development of absorbents based on arabinogalactan is complicated by specific features of the structure of its macromolecules, and possible methods of for overcoming them are considered.
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REFERENCES
Innovative Technology in the Russian Forest Sector – The Way to the Green Economy (U. N. Econ. Comm. Eur., New York, 2012).
V. A. Babkin, L. A. Ostroukhova, and N. N. Trofimova, Larch Biomass: From Chemical Composition to Innovative Products (Siberian Branch, Russian Academy of Sciences, Novosibirsk, 2011) [in Russian].
V. A. Babkin, N. A. Neverova, E. N. Medvedeva, T. E. Fedorova, and A. A. Levchuk, “Investigation of the physicochemical properties of arabinogalactan of various types of larch,” Khim. Rast. Syr’ya, No. 2, 29–35 (2015).
V. A. Babkin, “The chemical composition of the biomass of Siberian and Dahurian (Larix gmelinii) larch wood and the technology of isolation of medicines from wood and bark,” in Innovative Technology in the Russian Forest Sector – The Way to the Green Economy (U. N. Econ. Comm. Eur., New York, 2012), pp. 31–36.
A. G. Kuznetsov, Extended Abstract of Candidate’s Dissertation in Engineering (St. Petersburg, 2015).
E. L. Akim, “Bio-refining of wood,” Fibre Chem. 48 (3), 181–190 (2016).
E. L. Akim, S. Z. Rogovina, and A. A. Berlin, “Fatigue strength of wood and the relaxation state of its polymer components,” Dokl. Phys. Chem. 491 (2), 33–35 (2020).
N. V. Vinogradov, Extended Abstract of Candidate’s Dissertation in Engineering (St. Petersburg, 2019).
E. Hansen, R. Panwar, and R. Vlosky, The Global Forest Sector: Changes, Practices and Prospects (CRC Press, New York, 2017).
J.-L. Wertz, M. Deleu, S. Coppée, and A. Richel, Hemicelluloses and Lignin in Biorefineries (CRC Press, New York, 2018).
S. Z. Rogovina, E. L. Akim, and A. A. Berlin, “The use of natural polysaccharide arabinogalactan in composite materials,” Vse Mater., Entsikl. Sprav., No. 3, 2–8 (2021).
A. Klesov, Wood-Polymer Composites (Nauchn. Osn. Tekhnol., St. Petersburg, 2010) [in Russian].
OOO “Prometei,” RU Patent No. 2596683 (2016).
E. L. Akim, A. A. Pekarets, S. Z. Rogovina, and A. A. Berlin, “The relaxation state of wood and production of cellulose composites for energy purposes—wood briquettes and pellets,” Vse Mater., Entsikl. Sprav., No. 9, 3–8 (2020).
P. Bajpai, “Wood and fiber fundamentals,” in Biermann’s Handbook of Pulp and Paper: Raw Material and Pulp Making (Elsevier, Amsterdam, 2018), p. 46.
H. J. Prado and M. C. Matulewicz, “Cationization of polysaccharides: A path to greener derivatives with many industrial applications,” Eur. Polym. J. 52, 53–75 (2014).
Funding
This work was supported in the framework of a state order of the Ministry of Science and Higher Education of the Russian Federation, state registration no. AAAA-A20-120030590042-8.
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Translated by K. Aleksanyan
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Rogovina, S.Z., Akim, E.L., Dubrovskii, S.A. et al. Polymer Composite Materials and Gels with Arabinogalactan. Polym. Sci. Ser. D 14, 563–567 (2021). https://doi.org/10.1134/S1995421221040171
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DOI: https://doi.org/10.1134/S1995421221040171