Draining cement concrete for hydrotechnical, road and airport сonstruction


Igor Gameliak, National Transport University, Head of department «Airports»,  https://orcid.org/0000-0001-9246-7561

Anzori Shurgaya, Private Enterprise «Alioni», Mostozagin 112, Head of Laboratory, https://orcid.org/0000-0002-3939-329X

Yaroslav Yakimenko, Candidate of Technical Sciences, engineer, Private enterprise «ALIONI»,  https://orcid.org/0000-0002-2736-941X

Andrii Mysko, director, LLC «Skanex», id ORCID 0000-0002-2382-2125, https://orcid.org/0000-0002-2382-2125

Alexander Guzhevsky, engineer, Private enterprise «ALIONI», https://orcid.org/0000-0002-3069-9380

Valery Karamanchuk, engineer, Private enterprise «ALIONI», https://orcid.org/0000-0002-6948-7895

 

Abstract: The article is devoted to the selection of the composition of the cement-concrete mixture and the determination of physical and mechanical parameters of the draining cement concrete for the arrangement of the pavement of footpaths, parking lots and hydraulic structures with high drainage capacity.

The object of research is the processes of composition design and ensuring the strength and capacity of draining cement concrete.

The aim of the work is to select the composition and determine the physical and mechanical (compressive strength, tensile bending, deformable (modulus of elasticity), operational (abrasion), frost resistance, water permeability of draining cement concrete.

Research methods - scientific and experimental.

The results of the article can be used in the operation of road and airfield pavements in the culverts and foundations to improve the environmental friendliness of cities. 

Article language: Ukrainian

 

Referenses:

  1. Primenenie poristogo (dreniruyuschego) tsementobetonu pri stroitelstve sloev dorozhnoy odezhdyi. Obzornaya informatsiya. Vyipusk 6/2007. [Elektronniy resurs]. Rezhim dostupu: https://files.stroyinf.ru/Data1/56/56228/index.htm
  2. Korshunov V.I. Poristyiy tsementobeton dlya dorozhnyih pokryitiy i osnovaniy. Nauchnyie issledovaniya i razrabotki Soyuzdornii: Yubil. vyip.
  3. 3. The National Academies of sciences, engineering, medicine. The National Academies Press. Guidance for Used for Permeable Pavement at Airports. 2017. 90 c. [Elektronniy resurs]. Rezhim dostupu:https://www.researchgate.net/publication/319066437_THE_NATIONAL_ACADEMIES_PRESS_ Guidance_for_Usage_of_Permeable_Pavement_at_Airports
  4. 4. Rahman, M. A., M. Imteaz, A. Arulrajah, M. Disfani, and S. Horpibulsuk. 2015. Engineering and Environmental Assessment of Recycled Construction and Demolition Materials Used with Geotextile for Permeable Pavements. Journal of Environmental Engineering, 141(9), 04015019.
  5. Wu Hao, Huang Baoshan, Shu Xiang, Dong Qiao, Shrum Emily, Jared David Mark, Wu Peter. Laboratory Evaluation of Latex-Modified Pervious Concrete. Journal of Transport. Research Rec. 2010. 15 c. [Elektronniy resurs]. Rezhim dostupu: https://www.researchgate.net/publication/258121243.
  6. American Concrete Institute. Pervious Concrete. ACI Committee 522, technical committee document 522R-06, 2006.
  7. Tennis, P.D., Leming, M.L., and Akers, D.J. Pervious Concrete Pavements. EB302, Portland Cement Association, Skokie, Illinois, and National Ready Mixed Concrete Association, Silver Spring, Maryland, 2004.
  8. Montes, F. Pervious Concrete: Characterization of Fundamental Properties and Simulation of Microstructure, Ph.D. Dissertation, University of South Carolina, 2006.
  9. 9. DSTU B V.2.7-71 Budivelni materiali. Schebin i graviy Iz schilnih girskih porid I vidhodiv promislovogo virobnitstva dlya budivelnih robit. Metodi fIziko-mehanIchnih viprobuvan.
  10. 10. DSTU B V.2.7-32 Budivelni materiali. PIsok schIlniy prirodniy dlya budIvelnih materIalIv, virobIv, konstruktsIy I robIt.
  11. 11. DSTU B V.2.7-214 Budivelni materiali. Betoni. Metodi viznachennya mіtsnostI za kontrolnimi zrazkami.
  12. 12. DSTU B V.2.7-212 Budivelni materiali. Betoni. Metodi viznachennya stiranostI.
  13. 13. GOST 3647 Materialyi shlifovalnyie. Klassifikatsiya. Zernistost i zernovoy sostav. Metodyi kontrolya (MaterIali shlIfuvalnI. KlasifIkatsIya. ZernistIst ta zernoviy sklad. Metodi kontrolyu).
  14. 14. DSTU B V.2.7-145:2008 Budivelni materiali. Virobi betonnI trotuarnI nearmovanI.
  15. 15. DSTU B V.2.7-47 Budivelni materiali. Betoni. Metodi viznachennya morozostiykosti. Zagalni vimogi.

 

Open Access: http://publications.ntu.edu.ua/avtodorogi_i_stroitelstvo/109/88.pdf

 

Online publication date: 25.02.2021

 

Print date: 01.02.2021

 

Search