DEVELOPMENT OF COMPOSITES BASED ON PLASTICIZED POLYLACTIC ACID WITH A NITROGEN-CONTAINING BIODEGRADATION STIMULATOR
https://doi.org/10.31143/2221-7789-2024-4-52-56
EDN: INDGLM
Abstract
. Biodegradable polyesters of hydrocicarboxylic acids, primarily poly(lactic acid), are charac- terized by rather long degradation periods. In this study, approaches to the development of composite materials based on polylactic acid, flexible-chain poly(ε-caprolactone) and poly(butylene adipate terephthalate) with a nitrogen-containing biodegradation stimulator, glycoluril, have been studied. The effectiveness of glycoluril as an agent that increases thermal stability, optical properties, as well as the ability of materials to biofouling and biodegradation is shown.
About the Authors
E. E. MastalyginaRussian Federation
E. A. Aleksanova
Russian Federation
R. A. Zubarzhat
Russian Federation
B. B. Khaydarov
Russian Federation
S. M. Anshin
Russian Federation
A. A. Olkhov
Russian Federation
References
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Review
For citations:
Mastalygina E.E., Aleksanova E.A., Zubarzhat R.A., Khaydarov B.B., Anshin S.M., Olkhov A.A. DEVELOPMENT OF COMPOSITES BASED ON PLASTICIZED POLYLACTIC ACID WITH A NITROGEN-CONTAINING BIODEGRADATION STIMULATOR. Proceedings of the Kabardino-Balkarian State University. 2024;14(4):52-56. (In Russ.) https://doi.org/10.31143/2221-7789-2024-4-52-56. EDN: INDGLM
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