Russian Federation
Voronezh, Voronezh, Russian Federation
Russian Federation
Russian Federation
Voronezh, Russian Federation
The article discusses the prospects for obtaining a new building material, made with the creation of durable thermal insulation building materials that can increase the energy efficiency class of the enterprise.
Energy efficiency, car maintenance station, new material, graphite, tensile strength, modulus of elasticity
1. Adachi T., Osaki M., Araki V., Kvon S.K. (2008) Vyazkost' razrusheniya epoksidnyh kompozitov, napolnennyh nano- i mikrosfericheskimi chasticami kremnezema. Zakon ob obrazovanii;56:2101-9. http://dx.doi. org/10.1016/j.actamat.2008.01.002.
2. Badzhad M.N., Modera K.D., Desai A.K. (2011) Vliyanie stekla na prochnost' betona, podverzhennogo sul'fatnomu vozdeystviyu, v t.ch. na angliyskom yazyke. 1 (2): 01-13.
3. Federiko L.M., Chidiak S. E. (2009) Stekol'nye othody kak dopolnitel'nyy cementnyy material v betone – kriticheskiy obzor metodov obrabotki, Cementnye smesi. Compos. 31 (8):606–610.
4. Gong G., Pe Dzh., Met'yu A.P., Oksman K. (2011) Povedenie pri rastyazhenii, morfologiya i vyazkouprugiy analiz polivinilacetata (PVAc), armirovannogo nanovoloknami cellyulozy (CNF). Chast' A: Rukovodstvo po primeneniyu; 42:1275-82. http://dx.doi.org/10.1016/j.compositesa.2011.05.009.
5. Dzhin U., Meyer S., Bakster S. (2000) Steklobeton na osnove steklomassy, ACIMater. J. 97 (2).
6. Harchevnikov V. I. (1987). Osnovy strukturoobrazovaniya stekloplastikovogo polimernogo betona. Izvestiya vysshih uchebnyh zavedeniy. Stroitel'stvo i arhitektura, (11):62-66.
7. Krop S., Meyer HEH, van Briman L.S. (2016) Mnogorezhimnoe modelirovanie global'nyh i lokal'nyh deformaciy i razrusheniy v sistemah epoksidnoy smoly, napolnennyh chasticami. Sostavnaya chast' Nauchnogo rukovodstva po primeneniyu; 88:1-9. http://dx.doi.org/10.1016/j.compositesa.2016.05.012.
8. Nukala S. G., Kong I., Kakarla A. B., Kong U. I Kong U. (2022). Razrabotka drevesno-polimernyh kompozitov iz pererabotannyh drevesnyh i plastikovyh othodov: termicheskie i mehanicheskie svoystva. Journal of Compositions Science, 6 (7):194 https://doi.org/10.3390/jcs6070194.
9. P'erard O., L'orka Dzh., Segurado Dzh., Dogri I. (2007) Mikromehanika kompozitov, armirovannyh chasticami uprugovyazkoplastichnyh materialov: konechno-elementnoe modelirovanie v sravnenii s affinnoy gomogenizaciey. Int Dzhey Plast;23:1041-60. http://dx.doi.org/10.1016/j.ijplas.2006.09.003.
