Moscow, Russian Federation
Moscow, Russian Federation
Moscow, Russian Federation
1. Fedotova, O. B. «Aktivnaya upakovka» iz polimernyh materialov / O. B. Fedotova, D. M. Myalenko, A. V. Shalaeva // Pischevaya promyshlennost'. 2010. № 1. S. 22–23. https://elibrary.ru/kyguqx
2. Matveeva, T. A. Issledovanie kachestva s primeneniem deskriptorno-profil'nogo ranzhirovaniya i analiz potrebitel'skih svoystv molochnyh konservov / T. A. Matveeva, I. Yu. Reznichenko, A. A. Mel'nikova // Polzunovskiy vestnik. 2021. № 1. S. 99–105. https://doi.org/10.25712/ASTU.2072-8921.2021.01.013; https://elibrary.ru/djagex
3. Sandrakova, I. V. Analysis of the range of soft drinks containing food colours and flavourings: retail example / I. V. Sandrakova, I. Yu. Reznichenko, A. A. Rolgayzer, E. V. Moroz. – IOP Conference Series: Earth and Environmental Science. IOP Publishing, 2021. – T. 640. – № 4. – S. 042021.
4. Rodionov, D. A. Umnaya upakovka / D. A. Rodionov, I. V. Suvorina, P. V. Makeev [i dr.] // Molodoy uchenyy. 2016. № 2 (106). S. 1066–1069. https://elibrary.ru/vicaiz
5. Myalenko, D. M. Issledovanie vliyaniya ul'trafioletovogo izlucheniya na fiziko-mehanicheskie i strukturnye harakteristiki biorazlagaemogo polimernogo materiala na osnove polilaktida i poli(butilenadipat-ko-tereftalata) pri kompostnom hranenii / D. M. Myalenko, O. B. Fedotova, A. A. Agarkov // FOOD METAENGINEERING. 2023. T. 1, № 4. https://doi.org/10.37442/fme.4.27
6. Myalenko, D. Physical, mechanical, and structural properties of the polylactide and polybutylene adipate terephthalate (PBAT)-based biodegradable polymer during compost storage / D. Myalenko, O. Fedotova // Polymers. 2023. T. 15. № 7. S. 1619. https://doi.org/10.3390/polym15071619
7. Olkhov, A. A. Thermo-Oxidative destruction and biodegradation of nanomaterials from composites of Poly (3-hydroxybutyrate) and Chitosan / A. A. Olkhov [et al.] // Polymers. 2021. T. 13. № 20. S. 3528. https://doi.org/10.3390/polym13203528
8. Ol'hov, A. A. Perspektivnye biomaterialy na osnove poligidroksibutirata i dvoynogo etilenpropilenovogosopolimera dlya transporta fiziologicheskih sred: fazovaya struktura / A. A. Ol'hov, M. A. Gol'dshtrah, L. S. Shibryaeva [i dr.] // Perspektivnye materialy. 2015. № 10. S. 56–63. https://elibrary.ru/umsldf
9. Orlova, S. V. K voprosam biodostupnosti i bezopasnosti digidrokvercetina (obzor) / S. V. Orlova, V. V. Tatarinov, E. A. Nikit'ina [i dr.] // Himikofarmacevticheskiy zhurnal. 2021. T. 55. № 11. S. 3–8. https://doi.org/10.30906/0023-1134-2021-55-11-3-8; https://elibrary.ru/exvlft
10. Myalenko, D. M. Issledovanie prochnosti svarnyh shvov novogo biorazlagaemogo upakovochnogo materiala / D. M. Myalenko, O. B. Fedotova // Molochnaya promyshlennost'. 2022. № 2. S. 17–18. https://doi.org/10.31515/1019-8946-2022-02-17-18; https://elibrary.ru/tzzvxm
11. Mirza, A. A. Trends and applications of intelligent packaging in dairy products: A review / A. A. Mirza [et al.] // Critical reviews in food science and nutrition. 2021. T. 62. № 2. S. 383–397. https://doi.org/10.1080/10408398.2020.1817847
12. De Jong A. R. Active and intelligent packaging for food: is it the future? / A. R. De Jong [et al.] // Food additives and contaminants. 2005. T. 22. № 10. S. 975–979. https://doi.org/10.1080/02652030500336254
13. Lu, L. Development and application of time–temperature indicators used on food during the cold chain logistics / L. Lu [et al.] // Packaging Technology and Science. 2013. T. 26. S. 80–90. https://doi.org/10.1002/pts.2009
14. Fil'chakova, S. A. Mikrobiologicheskaya chistota upakovki dlya molochnyh produktov // Molochnaya promyshlennost'. 2008. № 7. S. 44–46. https://elibrary.ru/lpwflz
15. Yurova, E. A. Osobennost' opredeleniya soderzhaniya vitamina E (tokoferolov) v molochnyh produktah funkcional'noy napravlennosti / E. A. Yurova, T. V. Kobzeva, S. A. Fil'chakova, N. A. Zhizhin // Pischevaya promyshlennost'. 2020. № 12. S. 36–40. https://doi.org/10.24411/0235-2486-2020-10141; https://elibrary.ru/gilnxw
16. Radaeva, I. A. Principy obespecheniya kachestva otechestvennogo suhogo moloka / I. A. Radaeva, E. E. Illarionova, S. N. Turovskaya [i dr.] // Pischevaya promyshlennost'. 2019. № 9. S. 54–57. https://doi.org/10.24411/0235-2486-2019-10145; https://elibrary.ru/epadvs
17. Kruchinin, A. G. Issledovanie vliyaniya belkovogo profilya na strukturno-mehanicheskie parametry molochnyh biosistem s promezhutochnoy vlazhnost'yu / A. G. Kruchinin, E. E. Illarionova, S. N. Turovskaya // Pischevaya promyshlennost'. 2023. № 1. S. 59–62. https://doi.org/10.52653/PPI.2023.1.1.017; https://elibrary.ru/luooas
18. Van den Oever, M. Replacing fossil based plastic performance products by bio-based plastic products– Technical feasibility / V. van den Oever, K. Molenveld // New biotechnology. 2017. T. 37. S. 48–59. https://doi.org/10.1016/j.nbt.2016.07.007
19. Myalenko, D. M. Morfologiya poverhnosti obrazcov plenki polietilenovoy, napolnennoy dvuokis'yu titana / D. M. Myalenko, O. B. Fedotova // Pischevaya promyshlennost'. 2022. № 3. S. 56–59. https://doi.org/10.52653/PPI.2022.3.3.013; https://elibrary.ru/rcwkfy
