PSI - Issue 40
Ivetta Varyan et al. / Procedia Structural Integrity 40 (2022) 445–449 Ivetta Varyan at al. / Structural Integrity Procedia 00 (2019) 000 – 000
449
5
Acknowledgments The materials under investigation were studied with the equipment of the common use centers at the Emanuel Institute of Biochemical Physics of the Russian Academy of Sciences and the Plekhanov Russian University of Economics.
References
Ammala, A., Bateman, S., Dean, K., Petinakis, E., Sangwan, P., Wong, S., Yuan, Q., Yu, L., Patrick, C., Leong, K.H. 2011. An overview of degradable and biodegradable polyolefins. Progress in Polymer Science 26, 1015-1049. Gisha E. Luckachan, G.E., Pillai C.K.S. 2011. Biodegradable polymers-a review on recent trends and emerging perspectives. Journal of Polymers and the Environment 19, 637 – 676. Zhong, Y., Godwin, P., Jin, Y., Xiao, H. 2020. Biodegradable polymers and green-based antimicrobial packaging materials: A mini-review. Advanced Industrial and Engineering Polymer Research 3, 27-35. Mangaraj, S., Yadav, A., Bal, L.M., Dash, S.K., Mahanti, N.K. 2019. Application of biodegradable polymers in food packaging industry: A comprehensive review. Journal of Packaging Technology and Research 3, 77 – 96. Mastalygina, E., Varyan, I., Kolesnikova, N., Gonzalez, M.I.C., Popov, A. 2020. Effect of natural rubber in polyethylene composites on morphology, mechanical properties and biodegradability. Polymers 12, 437. Varyan, I.A., Mastalygina, E.E., Kolesnikova, N.N., Popov, A.A. 2018. Impact of natural rubber on biological fouling and degradation of polyethylene composites. AIP Conference Proceedings 1981, 020119.
Made with FlippingBook - professional solution for displaying marketing and sales documents online