Practical experience in the implementation of innovative building materials and products

封面

如何引用文章

全文:

开放存取 开放存取
受限制的访问 ##reader.subscriptionAccessGranted##
受限制的访问 订阅存取

详细

The improvement and creation of new production technologies is largely determined by the level of innovation in the field of materials science. In this paper, the experience of practical implementation of innovative building materials and products made of light steel thin-walled structures in the real sector of the economy is considered. Suggestions are given for possible use in state programs for the restoration and development of new territories of Russia. The problem of economic recovery, creation of new jobs, implementation of development programs for specific subjects of new territories can be solved by consolidating the subjects of the Russian Federation and forming professional construction teams on the basis of specialized enterprises of the subject of the Russian Federation for the implementation of state programs. The authors, if necessary, offer services for training and transfer of scientific and technical knowledge to Customer specialists at the place of construction of prefabricated facilities.

全文:

受限制的访问

作者简介

S. Anpilov

Novosibirsk State University of Architecture and Civil Engineering (NGASU)

编辑信件的主要联系方式.
Email: anpilovsm@yandex.ru

Doctor of Sciences (Engineering), Advisor of RAACS, Professor

俄罗斯联邦, 159, Turgeneva Street, Novosibirsk, 630008

V. Erofeev

National Research Moscow State University of Civil Engineering

Email: erofeevvt@bk.ru

Doctor of Sciences (Engineering), Academician of RAACS, Professor

俄罗斯联邦, 26, Yaroslavskoe Highway, Moscow, 129337

V. Rimshin

National Research Moscow State University of Civil Engineering

Email: v.rimshin@niisf.ru

Doctor of Sciences (Engineering), Corresponding Member of RAACS, Professor

俄罗斯联邦, 26, Yaroslavskoe Highway, Moscow, 129337

Yu. Skolubovich

Novosibirsk State University of Architecture and Civil Engineering (NGASU)

Email: rector@sibstrin.ru

Doctor of Sciences (Engineering), Corresponding Member of RAACS, Professor

俄罗斯联邦, 159, Turgeneva Street, Novosibirsk, 630008

A. Sorochaikin

ANO “Institute of Forensic Construction and Technical Expertise (ISSTE)”

Email: expert763@mail.ru

Doctor of Sciences (Philosophy), Candidate of Sciences (Economy), Professor

俄罗斯联邦, 35A, Yuzhnoye Highway, Tolyatti, 445047

参考

  1. Telichenko V.I. Innovations in construction – everything is ahead. Promyshlennoe i grazhdanskoe stroitel’stvo. 2013. No. 7, pp. 88–92. (In Russian).
  2. Zasypkina E.M. Construction of houses made of straw. Vestnik of the Moscow Information Technology University. – Moscow Institute of Architecture and Civil Engineering. 2019. No. 1, pp. 15–17. (In Russian).
  3. Mikhalchenko N. Cottage made of straw. Priusadebnoe khozyaistvo. 2010. No. 12, pp. 27–29. (In Russian).
  4. Russell J. Straw house construction [Solomennoe domostroenie] Moscow: VSD Publishing House. 2013. 102 p.
  5. Gobozov S.F., Tibilova A.G., Kodoeva V.S. Prospects and problems of straw construction. Innovatsii i investitsii. 2019. No. 1, pp. 183–187. (In Russian).
  6. Vavilova T.Ya., Mantsurova E.M. The main directions of the use of natural materials in modern architectural design. Bulletin of the ISH FEFU. 2016. No. 2 (27), pp. 128–132. (In Russian).
  7. Rakhimov R.Z., Rakhimova N.R. Towards the development and expansion of adobe construction. Academia. Arkhitektura i stroitel’stvo. 2021. No. 1, pp. 170–175. (In Russian).
  8. El Ashkar N., Morsy A., Tarek A. Using of Nanoparticles Extracted from Rice Husk as Cementitious Material for Sustainability Issues. Stroitel’nye Materialy [Construction Materials]. 2019. No. 5, pp. 25–31. (In Russian). https:// doi.org/10.31659/0585-430X-2019-770-5-25-31
  9. Samoilov V.S. Stroitel’stvo derevyannogo doma [Construction of a wooden house]. Moscow: Adelant Litagent. 2023. 384 p.
  10. Karasev D.O., Shipilova N.A., Arutunyan M.S. Low-rise construction. Types of building materials for the construction of buildings. Internet journal “Naukovedeniye”. 2016. Vol. 8. No. 3. (In Russian) http://naukovedenie.ru/PDF/91TVN316.pdf
  11. Salakhov A.M., Gerashchenko V.N., Salakhova R.A., Morozov V.P., Kabirov R.R. Energy-efficient ceramic wall materials from non-traditional raw materials. Stroitel’nye Materialy [Construction Materials]. 2012. No. 11, pp. 9–12. (In Russian).
  12. Davidyuk A.A., Fiskind E.S., Gusar’ O.A., Balakire- va V.V. Advantages in production and application of cellular concrete blocks. Stroitel’nye Materialy [Construction Materials]. 2018. No. 12, pp. 41–43. (In Russian). https://doi.org/10.31659/0585-430X-2018-766-12-41-43
  13. Semenov A.A. Russian market of ceramic bricks. Development trends and prospects. Stroitel’nye Materialy [Construction Materials]. 2020. No. 12, pp. 4–5. (In Russian). https://doi.org/10.31659/0585-430X-2020-787-12-4-5
  14. Tang Van Lam, Pham Duc Luong, Nguyen Ba Binh, Bulgakov B.I., Bazhenova S.I. Aerated concrete with geopolymer binder from technogenic waste. Stroitel’nye Materialy [Construction Materials]. 2023. No. 11, pp. 63–69. (In Russian). https://doi.org/10.31659/0585-430X-2023-819-11-63-69
  15. Rakhmanov V.A., Melikhov V.I., Yunkevich A.V., Kekina S.N. Non-combustible polystyrene concrete – a new generation of heat-insulating and structural materials. Stroitel’nye Materialy [Construction Materials]. 2023. No. 9, pp. 77–82. (In Russian). https:// doi.org/10.31659/0585-430X-2023-817-9-77-82
  16. Golovin N.G., Fedorov Yu.N., Kozlov A.S. BENPAN – innovation technology of prefabricated low-rise housing construction. Stroitel’nye Materialy [Construction Materials]. 2020. No. 3, pp. 24–26. (In Russian). https://doi.org/10.31659/0585-430X-2020-779-3-24-26
  17. Kazin A.S. Industrial housing construction: yesterday, today, tomorrow Zhilishchnoe Stroitel’stvo [Housing Construction]. 2018. No. 10, pp. 22–26. (In Russian).
  18. Nikolaev S.V. Panel and frame buildings of a new generation. Zhilishchnoe Stroitel’stvo [Housing Construction]. 2013. No. 8, pp. 2–9. (In Russian).
  19. Erofeev V.T., Al D.S.D.S., Smirnov V.F. Bacteria for the production of self-healing concretes. Transportnye sooruzheniya. 2018. Vol. 5. No. 4. https://doi.org/10.15862/07SATS418
  20. Erofeev V.T., Bazhenov Yu.M., Bogatov A.D., Morozov A.E., Mitina E.A., Korotaev S.A., Kalgin Yu.I., Burnaykin N.F. troitel’nye materialy na osnove otkhodov stekla [Construction materials based on glass waste]. Saransk: Mordov University Publishing House. 2005. 61 p.
  21. Laptev G.A., Potapov Yu.B., Erofeev V.T. Development of technology for manufacturing metal concrete. Stroitel’stvo i rekonstruktsiya. 2015. No. 1 (57), pp. 123–129. (In Russian).
  22. Lugovoy A.N., Kovrigin A.G. Three-layer reinforced concrete wall panels with composite flexible ties. Stroitel’nye Materialy [Construction Materials]. 2015. No. 5, pp. 35–38. (In Russian).
  23. Vladimirtsev E.M., Stupalov D.Yu., Yakimov V.M., Krivtsov S.I., Latypov V.M., Klimin V.N. The use of “Wallsaving” panels in building enclosing structures Inzhenernye sistemy v stroitel’stve i kommunal’nom khozyaistve. 2015. No. 2, pp. 16–18. (In Russian).
  24. Patent No. 2154135 C1 Russian Federation, IPC E04B 2/86. Sposob izgotovleniya trekhsloinoi paneli: № 98122779/03 [Method of manufacturing a three-layer panel: No. 98122779/03]. Solomatov V.I., Erofeev V.T., Avtaev P.I., Burnaikin N.F., Mitina E.A., Gribanova E.P. Declared 17.12.1998. Published 10.08.2000. (In Russian).
  25. Erofeev V.T., Mitina E.A., Matviyevsky A.A., Osipov A.K., Yemelyanov D.V., Yudin P.V. Composite building materials on activated sealing water. Stroitel’nye Materialy [Construction Materials]. 2007. No. 11, pp. 56–58. (In Russian).
  26. Kalashnikov V.I., Erofeev V.T., Tarakanov O.V. Suspension-filled concrete mixtures for powder-activated concretes of a new generation. Izvestiya of higher educational institutions. Construction. 2016. No. 4 (688), pp. 30–37. (In Russian).
  27. Bazhenov Yu.M., Fedosov S.V., Erofeev V.T., Matvievsky A.A., Mitina E.A., Emelianov D.V., Yudin P.V. Cement composites based on magnetically and electrochemically activated mixing water. Saransk: Mordov University Publishing House. 2011. 126 p.
  28. Erofeev V.T., Rodin A.I., Dergunova A.V., Suraeva E.N., Smirnov V.F., Bogatov A.D., Kazna- cheev S.V., Karpushin S.N. Biological and climatic resistance of cement composites. Academia. Arkhitektura i stroitel’stvo. 2016. No. 3, pp. 119–126. (In Russian).
  29. Gorelik P.I., Zolotova Yu.S. Modern thermal insulation materials and features of their application. Stroitel’stvo unikal’nykh zdanii i sooruzhenii. 2014. No. 3 (18), pp. 93–103. (In Russian).
  30. Burdonov A.E., Barakhtenko V.V., Zelinskaya E.V., Tolmacheva N.A. Thermal insulation material based on thermosetting resins and waste heat energy. Stroitel’nye Materialy [Construction Materials]. 2015. No. 1, pp. 48–52. (In Russian).
  31. Nikolaev V.N., Stepanova V.F., Mikhailova A.V. Innovative energy-saving sandwich-panels for industrial construction. Stroitel’nye Materialy [Construction Mate- rials]. 2020. No. 12, pp. 47–51. (In Russian). https:// doi.org/10.31659/0585-430X-2020-787-12-47-51
  32. Goncharov Yu.A., Dubrovina G.G., Kozunova O.V. Reliability and durability of frame houses with the use of reinforced cement-perlite panels. Stroitel’nye Materialy [Construction Materials]. 2021. No. 5, pp. 16–21. (In Russian). https://doi.org/10.31659/0585-430X-2021-791-5-16-21
  33. Slavcheva G.S. 3D-build printing today: potential, challenges and prospects for implementation. Stroitel’nye Materialy [Construction Materials]. 2021. No. 5, pp. 28–36. (In Russian). https://doi.org/10.31659/0585-430X-2021-791-5-28-36
  34. Anpilov S.M. Puti progressa i razvitiya v nauke [Ways of progress and development in science]. Tolyatti: ANO “Institute of judicial construction and technical expertise”. 2021. 186 p.
  35. Anpilov S.M., Mikhailov A.V., Sorochaikin A.N. Construction control as a legal means ensuring proper performance of contract work. Ekspert: teoriya i praktika. 2021. No. 2 (11), pp. 77–91. (In Russian).
  36. Anpilov S.M., Sorochaikin A.N. On the development strategy of the construction industry of the Russian Federation (Part I). Ekspert: teoriya i praktika. 2019. No. 1 (1), pp. 7–15. (In Russian).
  37. Shalygina D.N. The history and problems of urban planning reorganization of industrial territories in the northern part of Krasny Prospekt in Novosibirsk. Balandinskie chteniya. 2020. Vol. 15, pp. 106–113. (In Russian).
  38. Anpilov S.M., Yeryshev V.A., Murashkin G.V., Sorochaykin A.N. Application of normative and technical documents in the design and construction of buildings and structures using LSTC and reinforcing flooring “BIZON” Tolyatti: ANO “Institute of Judicial construction and Technical expertise”. 2021. 82 p.
  39. Patent No. 2552506 C1 Russian Federation, IPC E04B 2/86. Sposob vozvedeniya monolitnykh konstruktsiy zdaniy i nes”yemnaya universal’naya modul’naya opalubochnaya sistema: № 2014105016/03/ [Method for erecting monolithic building structures and permanent universal modular formwork system: No. 2014105016/03] Anpilov S.M., Anpilov M.S. Declared 11.02.2014. Published 10.06.2015. (In Russian). EDN FNUUAY
  40. Nefedov G.V. Construction of medium-storey residential buildings on frames of light steel thin-walled structures. Promyshlennoe i grazhdanskoe stroitel’stvo. 2020, No. 7, pp. 10–15. (In Russian). https://doi.org/10.33622/0869-7019.2020.07.10-15
  41. Patent No. 2669635 C1 Russian Federation, IPC E04G 9/06. Opalubochnyy element stalezhelezobetonnykh perekrytiy: № 2017139847 [Formwork element for composite concrete floors: No. 2017139847]. Anpilov S.M., Anpilov M.S., Kitaykin A.N. Declared 15.11.2017. Published 12.10.2018. (In Russian). EDN HJHQKJ
  42. Patent No. 2561127 C1 Russian Federation, IPC E04G 11/40, E04B 5/40. Nesemnaya opalubka monolitnogo perekrytiya: № 2014111706/03 [Permanent formwork for monolithic floors: No. 2014111706/03] Anpilov S.M., Eryshev V.A., Anpilov M.S. et al. Declared 26.03.2014. Published 20.08.2015. (In Russian). EDN ZFJZED
  43. Patent No. 2818958 C1 Russian Federation, IPC E04B 5/32. Oblegchennoye perekrytiye: № 2023121224 [Lightweight overlap: No. 2023121224] Anpilov S.M., Bondar V.V., Leonovich S.N., Pavlik A.V., Panfilov D.A., Rimshin V.I., Sorochaikin A.N., Skolubovich Yu.L. Declared 11.08.2023. Published 07.05.2024. Bulletin 13. (In Russian).
  44. Plotnikov V.V. Sovremennye konstruktsionnye, teploizolyatsionnye i otdelochnye materialy dlya sten energoeffektivnykh zdanii [Modern structural, thermal insulation and finishing materials for walls of energy-efficient buildings]. Bryansk: BGITA. 2023. 168 p.

补充文件

附件文件
动作
1. JATS XML
下载
2. Fig. 1. BISON power flooring [4, 5]: 1 – power flooring; 2 – fastening screws; 3 – plugs, stiffeners

下载 (118KB)
索引源数据
3. Fig. 2. Public catering facility in Samara. The building is collapsible and disassemblable, 9×35 m in plan

下载 (399KB)
索引源数据
4. Fig. 3. Factory readiness of products. 10.12.2021

下载 (212KB)
索引源数据
5. Fig. 4. Start of construction of the facility. 13.12.2021

下载 (166KB)
索引源数据
6. Fig. 5. Stages of construction of the facility: a – 15.12.2021; b – 17.12.2021; c – 18.12.2021; d – 28.12.2021

下载 (563KB)
索引源数据

版权所有 © ООО РИФ "СТРОЙМАТЕРИАЛЫ", 2024

##common.cookie##