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2012 | 12 | 3 |
Tytuł artykułu

Modification of cement matrixes with dispersion of multilayer carbon nanotubes

Treść / Zawartość
Warianty tytułu
RU
Modifikacija cementhykh matric dispersiejj mnogoslojjnykh uglerodnykh nanotrybok
Języki publikacji
EN
Abstrakty
EN
The concrete with compact structure on the basis of Portland cement modified by the dispersion of multilayer carbon nanotubes GraphistrengthTM by Arkema is investigated. The change in the structure of cement stone in the process of concrete setting and hardening when introducing carbon nanotubes into the concrete composition is observed.
RU
Исследован бетон плотной структуры на основе портландцемента, модифицированный дисперсией многослойных углеродных нанотрубок GraphistrengthTM, производимых корпорацией «Аркема». Установлено изменение структуры цементного камня в процессе гидратации и твердения при введении углеродных нанотрубок в состав бетона.
Wydawca
-
Rocznik
Tom
12
Numer
3
Opis fizyczny
p.163-168,fig.,ref.
Twórcy
autor
  • Izhevsk Kalashnikov State Technical University, Russia
autor
autor
autor
autor
autor
autor
Bibliografia
  • 1. Antonovič V., Pundiene I., Stonys R., Česniene Jū., Keriene Ja., 2010.: A review of the possible applications of nanotechnology in refractory concrete. Journal of Civil Engineering and Management. Vol. 16 (4). P. 595-602.
  • 2. Cwirzen A., Habermehl-Chirzen K., Penttala V., 2008.: Surface decoration of carbon nanotubes and mechanical properties of cement/carbon nanotube composites. Adv. Cem. Res. Vol. 20. Р.65-73.
  • 3. Gorshkov V.S., Savelyev V.G., Аbakumov A.V., 1994.: Binders, ceramics and glass- crystalline materials: Structure and properties: Reference-book. Мoskaw: Stroyizdat. 584 p.
  • 4. Konsta-Gdoutos M.S., Metaxa Z.S., Shah S.P., 2010.: Highly Dispersed Carbon Nanotube Reinforced Cement Based Materials. Cement and Concrete Research. Vol. 40 (7). Р.1052-1059.
  • 5. Konsta-Gdoutos M.S., Metaxa Z.S., Shah S.P., 2008.: Nanoimaging of highly dispersed carbon nanotube reinforced cement based materials / Seventh International RILEM Symposium on Fibre Reinforced Concrete: Design and Applications.Chennai, India. Р.125-131.
  • 6. Korzhenko A., Havel M., Gaillard P., Yakovlev G.I., Pervuchin G.N., Oreshkin D.V. 2012.: Procede D’introduction de nanocharges carbonees dans un inorganique durcissable. Patent № 2 969 143. C 04 B 16/12 (2012.01), C 04 B 28/00. Bulletin 12/25.
  • 7. Laukaitis A., Keriene Ja., Kligys M., Mikulskis D., Lekunaite L., 2012.: Influence of mechanically treated carbon fibre additives on structure formation and properties of autoclaved aerated concrete. Construction and Building Materials Vol. 26 (1). P.362–371.
  • 8. Li G.Y., Wang P.M., Zhao X., 2007.: Pressuresensitive and microstructure of carbon nanotube reinforced cement composites. Cement and Concrete Research. Vol. 29 (5). Р.377-382.
  • 9. Lipanov А.М., Trineeva V.V., Kodolov V.I., Yakovlev G.I., Krutikov V.A., Volkova E.G., 2008.: Obtaining of carbon metal containing nanostructures for the modification of constructional compositions. Alternative power engineering and ecology. № 8 (64). P.82-85.
  • 10. Maeva I.S., Yakovlev G.I., Pervushin G.N., Buryanov A.F., Pustovgar A.P., 2009.: Structuring of anhydrite matrix with nanodispersed modifying additives // Constructional materials. № 6. P.4–5.
  • 11. Makar J.M, Beaudoin J.J., 2004.: Carbon nanotubes and their applications in the construction industry. Proceeding of the 1st International Symposium on Nanotechnology in Construction. Р.331-341.
  • 12. Pilipenko V., 2011.: Technological peculiarities of forming of axisymmetric unreinforced concrete pipes. TEKA Commission of Motorization and Power Industry in Agriculture, Vol. XI A. P.198-206.
  • 13. Punagin V., 2010.: Properties and technology of beton for high altitude monolithic constructions. TEKA Commission of Motorization and Power Industry in Agriculture, Vol. XB. P.114-119.
  • 14. Rudenko N., 2010.: The development of conception of new generation concretes. TEKA Commission of Motorization and Power Industry in Agriculture, Vol. XB. P.128-133.
  • 15. Shah S.P., Konsta-Gdoutos M.S., Metaxa Z.S., Mondal P., 2009.: Nanoscale Modification of Cementious Materials. Proceedings of the Third International Symposium on Nanotechnology in construction. Springer. Р.125–130.
  • 16. Shelehov E.V., 1997.: Software package for X-ray analysis of polycrystals. Proceedings of the National Conference on the application of X-ray, synchrotron radiation, neutrons and electrons for material research. Dubna. P.316-320.
  • 17. Staroverov V.D., 2009.: Structure and properties on nanomodified cement stone. Abstract of PhD thesis. SPB. 19 p.
  • 18. Yakovlev G., Keriene Ja., Plechanova T., Krutikov V., 2007.: Nanobewehrung von Schaumbeton / Beton- und Stahlbetonbau, Vol. 102 (2). P.120–124.
  • 19. Yakovlev G., Lushnikova A., Pervushin G., Khasanov O., 2011.: Modification of cement matrixes of carbon nanotubes // XIII ICCC Internatonal Congress on the Chemistry of Cement, Madrid. P.304. (CD).
  • 20. Yakovlev G.I., Pervushin G.N., Korzhenko A., Buryanov A.F., Pudov I.A., Lushnikova А.А., 2011.: Modification of cement concretes by multilayer carbon nanotubes // Constructional materials. № 2. P.2–6.
  • 21. Yakovlev, G.I., Pervushin G.N., Lushnikova A.A., Pudov I.A., Korzhenko A., Leonovich S.N., Buryanov A.F., 2011.: Modification of the cement concrete with multilayer carbon nanotubes // Proceedings of the III International Conference “Nanotechnology for Eco-friendly and Durableconstruction”. Cairo (CD).
  • 22. Yakovlev G., Yakovleva A., 2009.: Modification of porous cement matrix of the carbon nanotubes / First International Conference on Multifunctional, Hybrid and Nanоmaterials. Tours, France.
  • 23. Yakovlev G.I., Pervushin G.N., Keriene Ja.K, Fischer H.-B., Möser B., 2009.: Modification of mineral binding matriсes carbon nanostructures // Conference Book: International Simposium on Brittle Matrix Composites (BMC-9), Warszawa. P.195-200.
Typ dokumentu
Bibliografia
Identyfikatory
Identyfikator YADDA
bwmeta1.element.agro-1d6ba03c-da0d-4297-8451-6fa0b6c5aebe
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