Influence of metakaolin addition on fracture properties of refractory concretes reinforced with basalt fi bres
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Czech Technical University in Prague, Faculty of Civil Engineering, Experimental Centre, Czech Republic
Publication date: 2016-05-01
Cement Wapno Beton 21(3) 140-148 (2016)
This research work was fi nancially supported by Czech Science Foundation over project No.: P104/12/0791 – Fiber-Reinforced Cement Composite for High-Temperature Applications, which is gratefully acknowledge. The authors appreciate the assistance given by employees of Experimental Centre of Faculty of Civil Engineering CTU in Prague.
A. Vimmrová, M. Keppert, O. Michalko, R. Černý, Calcined gypsumlime-metakaolin binders, Design of optimal composition, 52, 91-96 (2014).
J. Zatloukal, P. Bezdička, Analysis of Powder Samples Extracted from Concrete Structures of Nuclear Plant, Advanced Materials Research, 1054, 1-5 (2014).
A. Behnood, H. Ziari, Effects of silica fume addition and water to cement ratio on the properties of high-strength concrete after exposure to high temperatures., Cem. Concr. Comp., 30, 109-112 (2008).
R. Černý, J. Poděbradská, M. Tótová, J. Toman, J. Drchalová, P. Rovnaníková, P. Bayer, Hygrothermal Properties of Glass Fiber Reinforced Cements Subjected to Elevated Temperature, Mat. Struct., 37, 597-607 (2004).
Z. J. Li, X. M. Zhou, B. Shen, Fiber-cement extrudates with perlite subjected to high temperatures. J Mat. Civil Eng., 16, pp. 221-229 (2004).
L. Bodnárová, J. Válek, L. Sitek, J. Foldyna, Effect of high temperatures on cement composite materials in concrete structures, Acta Geodynamica et Geomaterialia, 10, 2, 173-180 (2013).
M. Keppert, E. Vejmelková, S. Švarcová, P. Bezdička, R. Černý, Microstructural changes and residual properties of fi ber reinforced cement composites exposed to elevated temperatures, Cement Wapno Beton, 79, 2, 77-89 (2012).
A. Sičáková, et al., New generation cement concretes – Ideas, Design, Technology and Aplication, p. 156, 2008.
E. Vejmelková, R. Černý, Thermal properties of PVA-Fiber reinforced cement composites at high temperatures, Applied mechanics and materials, 377, 45-49 (2013).
D. J. Kim, A. E. Naaman, S. El-Tawil, Comparative fl exural behaviour of four fi bre reinforced cementitious composites, Cem. Concr. Comp., 30, 10, 917-928 (2008).
V. Slivka, M. Vavro, The signifi cance of textural and structural properties of north-moravian basaltoids for the manufacture of mineral fi bres, Ceramics, 40, 4, 149-159 (1996).
T. Jung, R. V. Subramanian, Strengthening of basalt fi ber by alumina addiƟ on, Scripta Metallurgica et Materialia, 28, 4, 527-532 (1993).
B. V. Perevozchikova, A. Pisciotta, B. M. Osovetsky, E. A. Menschikov, K. P. Kazymov, Quality Evaluation of the Kuluevskaya Basalt Outcrop for the Production of Mineral Fiber, Southern Urals, Russia, Energy procedia, 59, 309-314 (2014).
S. I. Gutnikov, M. S. Manylov, Y. V. Lipatov, B. I. Lazoryak, K. V. Pokholok, Effect of the reduction treatment on the basalt continuous fi ber crystallization properties, J. Non-Crystalline Solids, 368, 45-50 (2013).
Ch. Jiang, K. Fan, F. Wu, D. Chen, Experimental study on the mechanical properties and microstructure of chopped basalt fi bre reinforced concrete, Materials and Design, 58, 187-193 (2014).
G. Landucci, F. Rossi, C. Nicolella, S. Zanelli, Design and testing of innovative materials for passive fi re protection, Fire Safety Journal, 44, 1103-1109 (2009).
V. Dhand, G. Mittal, K. Y. Rhee, D. Hui, A short review on basalt fi ber reinforced polymer composites, Composites Part B: Engineering, In Press, Accepted Manuscript, 2014.
N. S. M. Offermans, R. Vermeulen, A. Burdorf, R. A. Goldbohm, A. P. Keszei, S. Peters, T. Kauppinen, H. Kromhout, P. A. Van Den Brandt, Occupational Asbestos Exposure and Risk of Esophageal, Gastric and Colorectal Cancer in the Prospective, Netherlands Cohort Study, International Journal of Cancer, 135, 8, 1970-1977 (2014).
V. A. Rybin, A. V. Utkin, N. Y. Baklanova, Alkali resistance, microstructural and mechanical performance of zirconia-coated basalt fi bers, Cem. Concr. Res., 53, 1-8 (2013).
S. Baştürk, H. Uyanık, Z. Kazancı, An analyƟ cal model for predicƟ ng the defl ecƟ on of laminated basalt composite plates under dynamic loads, Composite Structures, 116, 273-285 (2014).
J. Krassowska, A. Lapko, The infl uence of basalt fi bers on the shear and fl exural capacity of reinforced concrete continuous beams, in: First International Conference for Ph.D. Students in Civil Engineering, ClujNapoca, Romania 2012.
P. K. Mehta, P. J. Monteiro, Concrete: Microstructure, Properties, and Materials, 2006.
G. A. Khoury, Effect of fire on concrete and concrete structures, , Imperial College, London UK.
O. Holčapek, P. Reiterman, F. Vogel, E. Vejmelková, P. Konvalinka, Mechanical Properties of Aluminous Paste at High Temperature, Research and Applications in Structure Engineering, Mechanics and Computation, pp. 635-636, Cape Town 2013.
B. B. Sabir, S. Wild, J. Bai, Metakaolin and Calcined Clays as Pozzolans for Concrete: a review, Cem. Concr. Comps., 30, 441-454 (2001).
P. Dinakar, K. Pradosh, G. Sriram, Effect of Metakaolin Content on the Properties of High Strength Concrete, International Journal of Concrete Structures and Materials, 7, 215-223, (2013).
R. Stonis, I. Pundiene, V. Antonoviè, M. Kligis, E. Spudulis, Study of the Effect of Replacing Microsilica in Heat-resistant Concrete with Additive Based on Metakaolin, Refractories and Industrial Ceramics, 54, 3, 43 – 48 (2013).
M. S. Morsy, S. S. Shebl, Effect of Silica Fume and Metakaolin Pozzolana on the Performance of Blended Cement Pastes Against Fire 14, Ceramics, 51, 1, 40 – 44 (2007).
E. Vejmelková, D. Koňáková, M. Čáchová, M. Keppert, R. Černý, Effect of hydrophobization on the properties of lime-metakaolin plasters, Construction and Building Materials, 37, 556-561 (2012).
Oh, B.-H. Jang, S.-Y. Byun, Hyung-Kyun, Prediction of Fracture Energy of Concrete, KCI Concrete Journal, 11 (1999).
N. Kabay, Abrasion resistance and fracture energy of concretes with basalt fi ber, Constr. Build. Mat., 50, 95-101 (2014).
RILEM, Materials and Structures, 106, 18, 285-290 (1985).
Neville A.M. Properties of Concrete, 5th edition, Pearson, Harlow, England.
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