Ivanovo, Ivanovo, Russian Federation
Ivanovo, Ivanovo, Russian Federation
Ivanovo, Ivanovo, Russian Federation
The article aims to generalize the theoretical concepts of the dependence of the performance characteristics of composite materials on their composition and structure. The authors formulate the provisions on the influence of components on various structural levels of the composite In terms of the concrete polystructural theory. Also the article provides the possibility of high-quality control of the properties of materials and final objects of urban infrastructure based on them. The article analyzes the features of technological and design solutions for small architectural forms used to provide the conditions for improving the quality and comfort of the urban environment and participating in measures to improve the urban environment. Also we consider existing and promising options for using compo site materials in the production of the urban environment objects. And carry out the main properties of composite materials deconstruction in terms of the levels of organization of the composite structure. We proposed the theoretical solutions for the integration of dissimilar materials into a single composite at various structural levels. The article presents the results of experiments on the selection and optimization of the structure of the composite. These provide the effective heterogeneous elements activity, which ensure the rational control the urban infrastructure final object properties, taking into account the operating conditions requirements.
building materials, composites, composite materials, polystructural integration, polystructural theory of concrete, concrete, variotropic structure
1. Decree of the Government of the Russian Federation of December 30, 2017 N 1710 "On approval of the state program of the Russian Federation" Provision of affordable and comfortable housing and utilities for citizens of the Russian Federation "(with amendments and additions) (in Russian).
2. MGSN 1.02-02 / TSN 30-307-2002 Norms and rules for the design of integrated landscaping in the city of Moscow (as amended on August 19. 2003. July 11. 2006) (in Russian).
3. Silkina M.A. Visual landmarks in the architectural environment. Nauka, obrazovaniye i eksperimentalnoye proyektirovaniye v MARKhI. Tezisy dokladov nauchno-prakticheskoy konferentsii professorsko-prepodavatelskogo sostava. molodykh uchenykh i studentov. M.: MARKHI. 2015. P. 417-418 (in Russian).
4. Silkina M.A. Visual landmarks in the architectural. Nauka, obrazovaniye i eksperimentalnoye proyektirovaniye v MARKhI. Tezisy dokladov nauchno-prakticheskoy konferentsi iprofessorsko-prepodavatelskogo sostava. molodykh uchenykh i studentov. M.: MARKHI. 2015. P. 417-418 (in Russian).
5. Silkina M.A. Methodological instructions for the implementation of the course project "System of small architectural forms and equipment for the environment" in the discipline "Architecture and design". M.: MARKHI. 2015. 18 p. (in Russian).
6. Skuratovsky G.M. The art of architectural proportioning. Novosibirsk: «Nauka» Sibirskoye predpriyatiye RAN. 1997. 184 p. (in Russian).
7. Korolev E.V., BazhenovYu.M., Smirnov V.A. Building materials of variatropic-frame structure. M.: MGSU. 2011. 316 p. (in Russian).
8. Bazhenov Y.M., Fedosov S.V., ErofeevV.T. Cement composites based on magnetically and electrochemically activated mixing water. Saransk: Izd-vo Mordovskogo un-ta. 2011. 126 p. (in Russian).
9. Sadenko D.S., Kalashnikov V.I., Vechkasov A.V. Low-cement structural concretes with reactive diatomite reinforced with chrysotile. Penza: PGUAS. 2016. 119 p. (in Russian).
10. Kalashnikov V.I., Tarakanov O.V On the use of complex additives in new generation concretes. Stroitelnyye materialy. 2017. N 1-2. P. 62-67 (in Russian).
11. Kalashnikov V.I. Evolution of the development of compositions and changes in the strength of concrete. concretes of the present and future. Part 1.Changing the composition and strength of concrete. Stroitelnyye materialy. 2016. N 1-2. P. 96-103 (in Russian).
12. Budnikov P.P., Poluboyarinov D.N. Chemical technology of ceramics and refractories. Guide. M.: Stroyizdat. 1972. 260 p. (in Russian).
13. Zamyatin S.R., Purgin A.K. Refractory concrete. Guide. M.: Metallurgiya. 1982. 192 p. (in Russian).
14. Bozhenov P.I. On the formation of technical characteristics of polydispersion artificial materials. Stroitelnyye materialy. 1992. N 4. P. 20-24 (in Russian).
15. Dvorkin L.I., Solomatov V.I., Vyrovoy V.N., Chudnovsky S.M. Cement concretes with mineral fillers. Kiev: Budivelnik. 1991. 136 p. (in Russian).
16. Dvorkin L.I. Effect of active fillers in plasticized cement concretes. Izvestiya vuzov. Stroitelstvo i arkhitektura. 1988. N 9. P. 53-57 (in Russian).
