Technologies and the main stages of construction of the arch bridge first in Russia from composite materials
Mishkin S.I., Raskutin A.E., Evdokimov A.A., Gulyaev I.N. Technologies and the main stages of construction of the arch bridge first in Russia from composite materials // Proceedings of VIAM. 2017. No. 6. DOI: 10.18577/2307-6046-2017-0-6-5-5. URL: https://test.viam.ru/en/journal/2017/6/5
Keywords
polymer composite materials, arch bridge, wicker carbon preform, construction.
Abstract
Article is devoted to consideration of technologies which have been applied at construction of the fast-erected arch automobile bridge first in Russia from composite materials, and also the main stages of its construction. The bridge constructed on this technology in the regional settlement of Yazykovo of the Ulyanovsk region, has the span length of 11,98 meters, maintains loading to 100 tons, long time does not require capital investments and is constantly supervised by monitoring system using fiber optic sensors of deformation and temperature.
Reference list
- Kablov E.N. Innovacionnye razrabotki FGUP «VIAM» GNC RF po realizacii «Strategicheskih napravlenij razvitiya materialov i tehnologij ih pererabotki na period do 2030 goda» [Innovative developments of FSUE «VIAM» SSC of RF on realization of «Strategic directions of the development of materials and technologies of their processing for the period until 2030»] // Aviacionnye materialy i tehnologii. 2015. №1 (34). S. 3–33. DOI: 10.18577/2071-9140-2015-0-1-3-33.
- Kablov E.N. Materialy novogo pokoleniya [Materials of new generation] // Zashhita i bezopasnost. 2014. №4. S. 28–29.
- Kablov E.N. Sovremennye materialy – osnova innovacionnoj modernizacii Rossii [Modern materials are the base of innovative modernization of Russia] // Metally Evrazii. 2012. №3. S. 10–15.
- Kablov E.N. Tendencii i orientiry innovacionnogo razvitiya Rossii: sb. nauch.-inform. materialov. 3-e izd. [Tendencies and reference points of innovative development of Russia: collection of scientific information materials. 3rd ed.]. M.: VIAM, 2015. 720 s.
- Kablov E.N. Rossii nuzhny materialy novogo pokoleniya [Materials of new generation are necessary to Russia] // Redkie zemli. 2014. №3. S. 8–13.
- Kablov E.N. Konstrukcionnye i funkcionalnye materialy – osnova ekonomicheskogo i nauchno-tehnicheskogo razvitiya Rossii [Constructional and functional materials are the base of economic and scientific and technical development of Russia] // Voprosy materialovedeniya. 2006. №1. S. 64–67.
- Vlasenko F.S., Raskutin A.E. Primenenie polimernyh kompozicionnyh materialov v stroitelnyh konstrukcijah [Applying FRP in building structures] // Trudy VIAM: elektron. nauch.-tehnich. zhurn. 2013. №8. St. 03. Available at: http://viam-works.ru (accessed: March 24, 2017).
- Vlasenko F.S., Raskutin A.E., Doneckij K.I. Primenenie pletenyh preform dlya polimernyh kompozicionnyh materialov v grazhdanskih otraslyah promyshlennosti (obzor) [Application of braided preforms for polymer composite materials in civil industries (review)] // Trudy VIAM: elektron. nauch.-tehnich. zhurn. 2015. №1. St. 05. Available at: http://www.viam-works.ru (accessed: March 24, 2017). DOI: 10.18577/2307-6046-2015-0-1-5-5.
- Veshkin E.A., Postnov V.I., Abramov P.A. Puti povysheniya kachestva detalej iz PKM pri vakuumnom formovanii [Ways of improvement of quality of details from PCM at vacuum formation] // Izvestiya Samarskogo nauchnogo centra Rossijskoj akademii nauk. 2012. T. 14. №4 (3). S. 831–838.
- Afanasev D.V., Oshhepkov M.Yu. Bezavtoklavnye tehnologii [Autoclave-free technology] // Kompozitnyj mir. 2010. S. 28–37.
- Doneckij K.I., Karavaev R.Yu., Raskutin A.E., Panina N.N. Svojstva ugle- i stekloplastikov na osnove pletenyh preform [Properties of carbon fiber and fiberglass on the basis of braiding preforms] // Aviacionnye materialy i tehnologii. 2016. №4 (45). S. 54–59. DOI: 10.18577/2071-9140-2016-0-4-54-59.
- Dyshenko V.S., Raskutin A.E., Zuev M.A. Dorozhnyj detektor v sistemah bezostanovochnogo avtomaticheskogo vzveshivaniya [The road detector in systems of Weigh-In-Motion] // Trudy VIAM: elektron. nauch.-tehnich. zhurn. 2016. №5. St. 12. Available at: http://www.viam-works.ru (accessed: March 24, 2017). DOI: 10.18577/2307-6046-2016-0-5-12-12.
- Kablov E.N., Sivakov D.V., Gulyaev I.N., Sorokin K.V., Fedotov M.Yu., Goncharov V.A. Metody issledovaniya konstrukcionnyh kompozicionnyh materialov s integrirovannoj elektromehanicheskoj sistemoj [Methods of research of constructional composite materials with the integrated electromechanical system] // Aviacionnye materialy i tehnologii. 2010. №4. S. 17–20.
- Gulyaev I.N., Gunyaev G.M., Raskutin A.E. Polimernye kompozitsionnye materialy s funktsiyami adaptacii i diagnostiki sostoianiya [Polymeric composite materials with functions of adaptation and condition diagnostics] // Aviacionnye materialy i tehnologii. 2012. №S. S. 242–253.
- Gulyaev I.N., Gunyaev G.M. Ispolzovanie nepreryvnyh armiruyushhih volokon v kachestve tenzorezistornyh sensornyh elementov [Use of continuous reinforcing fibers as strain gauge sensing elements] // Aviacionnye materialy i tehnologii. 2010. №2. S. 22–27.
