ИСПОЛЬЗОВАНИЕ АГРООТХОДА – СКОРЛУПЫ АРАХИСА В КАЧЕСТВЕ НАПОЛНИТЕЛЯ В ПОЛИМЕРНЫХ КОМПОЗИТАХ НА ОСНОВЕ ПОЛИЭТИЛЕНА НИЗКОЙ ПЛОТНОСТИ
https://doi.org/10.31143/2221-7789-2024-1-41-45
EDN: XDEYOH
Аннотация
Исследованы физико-механические свойства композитных материалов в зависимости от концентрации скорлупы арахиса. Концентрацию скорлупы арахиса в композитах варьировали в пределах от 1 до 30 масс. %. Показано, что при повышении концентрации скорлупы арахиса в полимерной матрице до 30 масс. % значение прочности и относительного удлинения при растяжении уменьшается. Исследовано водопоглощение композитных материалов. Проведенное исследование показало потенциальную применимость скорлупы арахиса в качестве натурального наполнителя для полиэтилена низкой плотности.
Об авторах
Н. Б. АрзумановаРоссия
Н. Т. Кахраманов
Россия
Список литературы
1. Motaung T.E., Linganiso L.Z. Critical review on agro waste cellulose applications for biopolymers // International Journal of Plastics Technology. 2018. V. 22, N 1. P. 185–216.
2. Nevarez L.M., Casarrubias L.B., Canto O.S., Celzard A., Fierro V., Gomez R.I., Sanchez G.G. Bi- opolymers-based nanocomposites: membranes from propionated lignin and cellulose for water purification // Carbohydrate Polymers. 2011. V. 86, N 2. P. 732–741.
3. Chatterjee A., Singh H. Development and characterization of peanut shell flour-polypropylene com- posite // Journal of The Institution of Engineers (India): Series D. 2019. V. 100, N 2. P. 147–153.
4. Akil H.M., Omar F.M., Mazuki A.A.M., Safiee S. Kenaf fiber reinforced composites: A review // Materials and Design. 2011. V. 32, N 8-9. P. 4107–4121.
5. Shalwan A., Yousif B.F. In State of Art: mechanical and tribological behaviour of polymeric compo- sites based on natural fibres // Materials and Design. 2013. V. 48. P. 14–24.
6. Gholampour A.A., Ozbakkaloglu T. A review of natural fiber composites: properties, modification and processing techniques, characterization, applications // Journal of Materials Science. 2020. V. 55, N 3.
7. P. 829–892.
8. Arzumanova N.B., Kakhramanov N.T. Polymer biocomposites based on agro waste: Part II. Husk, stalk and straw of some agricultural crops as dispersed filler // New Materials, Compounds and Applications. 2020. V. 4, N 3. P. 153–172.
9. Sutivisedsak N., Cheng H.N., Burks C.S. Johnson J.A., Siegel J.P., Civerolo E.L., Biswas A. Use of Nutshells as Fillers in Polymer Composites // Journal of Polymer Environment. 2012. V. 20, N 2. P. 305–314.
10. Perea-Moreno, M.A., Manzano-Agugliaro F., Hernandez-Escobedo Q., Perea-Moreno A.J. Peanut shell for energy: properties and its potential to respect the environment // Sustainability. 2018. V. 10, N 9. P. 3254.
11. Raju G.U., Kumarappa S. Experimental study on mechanical properties of groundnut shell particle- reinforced epoxy composites // Journal of Reinforced Plastics and Composites. 2011. V. 30, N 12. P. 1029–1037.
12. Pickering K.L., Efendy M.G.A., Le T.M. A review of recent developments in natural fibre compo- sites and their mechanical performance // Composites Part A: Applied Science and Manufacturing. 2016. V. 83.
13. P. 98–112.
14. Balla V.K., Kate K.H., Satyavolu J., Singh P., Dattatreya Tadimeti J.G. Additive manufacturing of natural fiber reinforced polymer composites: Processing and prospects // Composites Part B: Engineering. 2019. V. 174. Р. 106956.
15. Obasi H.C., Onuegbu G.C. Biodegradability and mechanical properties of low density polyeth- ylene/waste maize cob flour blends // International Journal of Applied Science and Engineering Research. 2013. V. 2, N 3. P. 242–249.
16. Nurshamila S.B., Hanafi I., Nadras O. The effect of Rattan filler loading on properties of Rattan powder filled polypropylene composites // BioResources. 2012. V. 7, N 4. P. 567–5690.
17. Akil H.M., Santulli C., Sarasini F., Tirillo J., Valente T. Environmental effects on the mechanical behaviour of pultruded jute/glass fibre-reinforced polyester hybrid composites // Composites Science and Technology. 2014. V. 94. P. 62–70.
18. Sreekumar P.A., Joseph K., Unnikrishnan G., Thomas S. A comparative study on mechanical prop- erties of sisal-leaf fibre-reinforced polyester composites prepared by resin transfer and compression moulding techniques // Composites Science and Technology. 2007. V. 67, N 3-4. P. 453–461.
19. Zhang K., Liang W., Wang F., Wang Z. Effect of water absorption on the mechanical properties of bamboo/glass-reinforced polybenzoxazine hybrid composite // Polymers and Polymer Composites. 2021. V. 29, N 1. P. 3–14.
Рецензия
Для цитирования:
Арзуманова Н.Б., Кахраманов Н.Т. ИСПОЛЬЗОВАНИЕ АГРООТХОДА – СКОРЛУПЫ АРАХИСА В КАЧЕСТВЕ НАПОЛНИТЕЛЯ В ПОЛИМЕРНЫХ КОМПОЗИТАХ НА ОСНОВЕ ПОЛИЭТИЛЕНА НИЗКОЙ ПЛОТНОСТИ. Известия Кабардино-Балкарского государственного университета. 2024;14(1):41-45. https://doi.org/10.31143/2221-7789-2024-1-41-45. EDN: XDEYOH
For citation:
Arzumanova N.B., Kakhramanov N.T. USE OF AGRO WASTE – PEANUT SHELL AS FILLER IN POLYMER COMPOSITES BASED ON LOW DENSITY POLYETHYLENE. Proceedings of the Kabardino-Balkarian State University. 2024;14(1):41-45. (In Russ.) https://doi.org/10.31143/2221-7789-2024-1-41-45. EDN: XDEYOH
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