Effect of sonication on the compressive strength of Portland cement with zeolite addition
1
Faculty of Civil Engineering and Architecture, Kaunas University of Technology, Kaunas, Lithuania
2
Faculty of Fundamental Sciences, Kaunas University of Technology, Kaunas, Lithuania
3
Faculty of Chemical Technology; Kaunas University of Technology, Kaunas, Lithuania
Publication date: 2015-01-01
Cement Wapno Beton 20(1) 45-52 (2015)
REFERENCES (20)
1.
C. Karakurt, İ.B. Topçu, Effect of blended cements with natural zeolite and industrial by-products on rebar corrosion and high temperature resistance of concrete, Constr. Build. Mat., 26, 906–911 (2012).
2.
B. Uzal, L. Turanlı, Blended cements containing high volume of natural zeolites: Properties, hydration and paste microstructure, Cem. Concr. Comp., 34, 101–109 (2012).
3.
C. Bilim, Properties of cement mortars containing clinoptilolite as a supplementary cementitious material, Constr. Build. Mat., 25, 3175–3180 (2011).
4.
K. Juengsuwattanan, S. Seraphin, Effects of Zeolite A on the Microstructure and Strength Development of Blended Cement, Journal of the Microscopy Society of Thailand, 24, 94–98 (2010).
5.
B. D. Ikotun, S. Ekolu, Strength and durability effect of modifi ed zeolite additive on concrete properties, Constr. Build. Mat., 24, 749–757 (2010).
6.
S. Peters, C. Rößler, H.-M. Ludwig, Power Ultrasound. Capability of application in mortar, in: Proceedings of F. A. Finger-Institute for Building Science Materials & Weimar Bauhaus University International Conference on Building Materials IBAUSIL 18., Weimar, Germany, Band 1, 217–223 (2012).
7.
C. Rößler, Einfl uss von Power-Ultraschall auf das Fließ- und Erstarrungsverhalten von Zementsuspensionen, Proceedings of F. A. Finger-Institute for Building Science Materials & Weimar Bauhaus University International Conference on Building Materials IBAUSIL 17., Weimar, Germany, Band 1, 259–264 (2009).
8.
A. Askarinejad, A. R. Pourkhorshidi, T. Parhizkar, Evaluation the pozzolanic reactivity of sonochemically fabricated nano natural pozzolan, Ultrasonics Sonochemistry, 19, 119–124 (2012).
9.
D. Martinez-Velandia, J. Paya, J. Monzo, M. V. Borrachero, Effect of sonication on the reactivity of silica fume in Portland cement mortars, Adv. Cem. Res., 23, 23–31 (2011).
10.
E. D. Rodrķguez, L. Soriano, J. Payį, M. V. Borrachero, J. M. Monzó, Increase of the reactivity of densifi ed silica fume by sonication treatment, Ultrasonics Sonochemistry, 19, 1099–1107 (2012).
11.
T. Manzur, N. Yazdani, Strength Enhancement of Cement Mortar with Carbon Nanotubes. Transportation Research Record, Journal of the Transportation Research Board, 21, 102–108 (2010).
12.
J. M. Makar, J. Margeson, J. Luh, Carbon nanotube/cement composites – early results and potential applications. Proceedings of the 3rd international conference on construction materials: performance, innovations and structural implications, Vancouver, BC, Canada, 1–10 (2005).
13.
J. M. Makar, G. W. Chan, Growth of cement hydration products on single walled carbon nanotubes, J. Am. Ceram. Soc., 92, 1303–1310 (2009).
14.
S. Kawashima, P. Hou, D. J. Corr, S. P. Shah, Modifi cation of cement-based materials with nanoparticles, Cem. Concr. Comp., in Press, Corrected Proof., (2012).
15.
Z. Min-Hong, I. Jahidul, P. Sulapha, Use of nano-silica to increase early strength and reduce setting time of concretes with high volumes of slag, Cem. Concr. Comp., 34, 650–662 (2012).
16.
F. A. Rodrigues, Low-temperature synthesis of cements from rice hull ash, Cem. Concr. Res., 33, 1525–1529 (2003).
18.
R. Kaminskas, The effect of pozzolana on the properties of the fi nest fraction of separated portland cement. Part II, Ceramics-Silikáty, 52, 183–189, (2008).
19.
M. S. Amin, S. A. Abo-El-Enein, A. Abdel Rahman, K.A. Alfalous, Artifi - cial pozzolanic cement pastes containing burnt clay with and without silica fume, Journal of Thermal Analysis and Calorimetry, 107, 1105–1115 (2012).
20.
M. Frías, H. Savastano, E. Villar, M.I. Sánchez de Rojas, S. Santos, Characterization and properties of blended cement matrices containing activated bamboo leaf wastes, Cem. Concr. Comp., 34, 1019–1023 (2012).
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