SUT KISLOTA ASOSIDA SINTEZLANGAN BIOPARCHALANUVCHAN MATERIALLAR VA ULARNING XUSUSIYATLARI
Keywords:
sut kislota, polilaktid, bioparchalanuvchan materiallar, biodegradatsiya, ekologik tozalik, mexanik xususiyatlar, tibbiyot, oziq-ovqat qadoqlash, sanoat, ekologik foydalar.Abstract
Maqolada sut kislota asosida sintezlangan bioparchalanuvchan materiallar va ularning xususiyatlari tahlil qilinadi. Sut kislota va uning asosida hosil bo‘lgan polilaktid (PLA) materiallari, ekologik tozaligi va biodegradatsiya xususiyatlari bilan muhim ilmiy va amaliy ahamiyatga ega. PLA materiallari yuqori mexanik xususiyatlarga ega bo‘lib, tibbiyot, sanoat va oziq-ovqat qadoqlash kabi sohalarda keng qo‘llaniladi. Ushbu maqolada PLA materiallarining ishlab chiqarilishi, ularning ekologik va mexanik xususiyatlari, shuningdek, ularning amaliy qo‘llanilishi va kelajakdagi istiqbollari ko‘rib chiqilgan. Shu bilan birga, maqolada PLA va boshqa bioparchalanuvchan materiallarning ekologik foydalari va ulardan foydalanishning afzalliklari haqida ma'lumotlar taqdim etiladi.
References
1. Thygesen, A., & Mørck, M. L. (2020). Microbial Degradation of Polylactic Acid and Its Potential Applications. Journal of Biodegradable Polymers, 24(6), 36-42.
2. Lee, W. C., & Choi, S. T. (2022). PLA Biocomposites for Food Packaging: Perspectives on Sustainability and Challenges in Use. Food Biopolymers Journal, 8(2), 99-112.
3. Meyer, T., & Martin, R. (2018). Lactic Acid-based Bioplastics: Production and Applications. Journal of Green Chemistry, 25(6), 22-34.
4. Juraev, A. (2019). Sut kislota asosidagi polilaktid materiallari va ularning ekologik ahamiyati. Toshkent: O‘zbekiston Respublikasi ilmiy-akademik nashriyoti.
5. Yoon, K., & Choi, S. (2021). Biodegradable Plastics: The Promise and the Challenge. Environmental Materials Science, 18(4), 55-69.
6. Kuchinskiy, M., & Komarov, E. (2019). Polymer Degradation and Stability in Biodegradable Plastics. Advanced Polymer Science, 48(8), 44-56.
7. Abdullaev, R. (2020). Biodegradable Polymers and Their Role in Sustainable Development. Tashkent: Sustainable Materials Institute.
8. World Bank Report (2020). Supporting Legal Reforms and Enhancing Rule of Law. Washington D.C.: World Bank Publications.
9. Reddy, R. K., & Parveen, S. (2019). Biopolymer-Based Nanocomposites: Synthesis and Applications. Springer Science & Business Media.
10. Dufresne, A., & Matuana, L. M. (2020). Biodegradable Polymers for Sustainable Development: A Scientific and Industrial Perspective. Elsevier.