Rola nanokrzemionki w kształtowaniu właściwości kompozytów cementowych, stan zagadnienia

• Autorzy: Horszczaruk E.

Warianty tytułu

EN

Role of nanosilica in the formation of the properties of cement composites, state of the art

• Języki publikacji: PL EN

Abstrakty

PL

W pracy dokonano przeglądu najważniejszych problemów związanych ze stosowaniem nanokrzemionki w celu modyfikacji kompozytów cementowych. Przegląd ten jest oparty na publikacjach zaczerpniętych z literatury, a także na badaniach własnych, przeprowadzonych w Zachodnio Pomorskiej Politechnice w Szczecinie.

EN

The overview of the most important problems, connected with the use of nanosilica for the modification of the cement composites, have been presented in this paper. The overview is based on the literature data as well as the own researches carried out on the West Pomeranian University of Technology in Szczecin.

Słowa kluczowe

PL

kompozyt cementowy; nanomateriał; ciepło hydratacji; właściwości mechaniczne

EN

cement composite; nanomaterial; hydration heat; mechanical properties

• Wydawca: Fundacja Cement, Wapno, Beton
• Czasopismo: Cement Wapno Beton
• Rocznik: 2018
• Tom: R. 23/85, nr 6
• Strony: 487--495
• Opis fizyczny: Bibliogr. 28 poz., il.

Twórcy

autor

Horszczaruk E.

• Katedra Konstrukcji Żelbetowych i Technologii Betonu, Wydział Budownictwa i Architektury, Zachodniopomorski Uniwersytet Technologiczny, Szczecin

Bibliografia

• 1 Vazinram F, Jalal M., Foroushani M.Y. Effect of nano ZnO2 and lime water curing on strength and water absorption of concrete, Int. J. of Materials Production and Technology, 50, 3–4, 356–365 (2015).
• 2 Ismeal R., Silva JV & Carmo RNF., Influence of nano-SiO2 and nano-Al2O3 additions on steel-to-concrete bonding, Constr. Build. Mat., 125; 1080–1092 (2016).
• 3 Sikora P., Łukowski P., Cendrowski K., Horszczaruk E., Mijowska E., The effect of nanosilica on the mechanical properties of polymer-cement composites (PCC). Procedia Engineering, 108; 139-145 (2015).
• 4 Supit S.M.W., Shaikh F.U.A., Effect of nano-CaCO3 on compressive strength development of high volume fly ash mortars and concretes, J. Adv. Concr. Tech., 12 , 3: 178–186 (2014).
• 5 Khalo O., Mobini M.H.,Hosseini P., Influence of different types of nano-SiO2 particles on properties of high-performance concrete, Constr. Build. Mat., 113, 188–201 (2016).
• 6 Sikora P., Horszczaruk E., Cendrowski K., Mijowska E. The influence of nano-Fe3O4 on the microstructure and mechanical properties of cementitious composites. Nanoscale Research Letters, 11, 1-9 (2016).
• 7 Bergna H., In: The Colloid Chemistry of Silica, Advances in Chemistry, American Chemical Society, Washington, DC., 1994.
• 8 Cendrowski K., Sikora P., Horszczaruk E., Mijowska E., Waste-free synthesis of silica nanospheres and silica nanocoatings from recycled ethanol-ammonium solution, Chemical Papers, 71, 4, 841-848 (2017).
• 9 Shakhmenko G., Juhnevica I., Korjakins A., Influence of sol-gel nanosilica on hardening processes and physically-mechanical properties of cement paste, Procedia Engineering, 57, 1013–1021 (2013).
• 10 Singh L.P., Goel A., Bhattachharyya S.K., Ahalawat S., Sharma U., Mishra G., Effect of morphology and dispersibility of silica nanoparticles on the mechanical behaviour of cement mortar, International Journal of Concrete Structures and Materials, 9, 207–217 (2015).
• 11 Oertel T., Hutter F., Helbig U., Sextl G., Amorphous silica in ultra-high performance concrete: first hour of hydration, Cem. Concr. Res., 44, 131–142 (2014).
• 12 Land G., Stephan D., Controlling cement hydration with nanoparticles, Cem. Concr. Comp., 57, 64-67 (2015).
• 13 Horszczaruk E., Mijowska E., Cendrowski K., Mijowska S., Sikora P. The influence of nanosilica with different morphology on the mechanical properties of cement mortars, Cement Wapno Beton , 80, 24-32 (2013).
• 14 Lim H.M., Lee J., Jeong J-H., Oh S-G., Lee S-H., Comparative Study of Various Preparation Methods of Colloidal Silica, Engineering, 2, 998-1005 (2010).
• 15 Quercia G., Lazaro A., Geus J.W., Brouwers H.J.H., Characterization of morphology and texture of several amorphous nanosilica particles used in concrete, Cem. Concr. Comp., 44, 77–92 (2013).
• 16 Supit S.M.W., Shaikh F.U.A., Durability properties of high volume fly ash concrete containing nanosilica. Material and Structures, 48, 2431-2445 (2015).
• 17 Zhang P., Zhao Y-N. , Li Q-F., Zhang T-H., Wang P., Mechanical properties of fly ash concrete composite reinforced with nano-SiO2 and steel fiber, Current Science, 106, 11, 1529–1537 (2014).
• 18 Senff L., Hotza D., Repette W.L., Ferreira V.M., Labrincha J.A., Mortars with nano-SiO2 and micro-SiO2 investigated by experimental design. Constr. Build. Mat., 24, 1432-1437 (2010).
• 19 Silvestre J., de Brito J., Silvestre N., Review on concrete nanotechnology. European Journal of Environmental and Civil Engineering, 20, 455-485 (2016).
• 20 Björnström J., Martinelli A. Matic A., Börjesson L., Panas I. Accelerating effects of colloidal nano silica for beneficial calcium-silicate-hydrate formation in cement, Chemical Physics Letters 392; 242-248 (2001).
• 21 Heikal M., Ali A.I., Ismail M.N., Awad S., Ibrahim N.S., Behavior of composite cement pastes containing silica nano-particles at elevated temperature, Constr. Build. Mat., 70, 339–350 (2014).
• 22 Heidari A., Tavakoli D., A study of the mechanical properties of ground ceramic powder concrete incorporating nano-SiO2 particles, Constr. Build. Mat., 58, 255–264 (2013).
• 23 Givi A. N., Rashid S.A., Aziz F.N.A., Salleh M.A.M, Experimental investigation of the size effect of SiO2 nano-particles on the mechanical properties of binary blended concrete, Composites: Part B-Eng., 41, 673-677 (2010).
• 24 Gopinath S., Mouli P.Ch., Murthy A.R., Iyers N.R., Maheswaran S. Effect of nano silica on mechanical properties and durability of normal strength concrete. Archives of Civil Engineering, 58, 4 433-444 (2012).
• 25 Salemi N., Behfarnia K. Effect of nano-particles on durability of fiber reinforced concrete pavement, Constr. Build. Mat., 48, 934-941 (2003).
• 26 Wang B., Influence of nano-SiO2 on the strength of high performance concrete, Materials Science Forum, 686, 432-437 (2011).
• 27 Li G., Properties of high-volume fly ash concrete incorporating nano-SiO2. Cem. Concr. Res., 34,1043-1049 (2004).
• 28 Bolhassani M., Samani M., Consequences of colloidal nanosilica specific surface on its performance in concrete, Advances in Civil Engineering Materials, 4, 1-14 (2015).