The rheological and mechanical properties of steel fi bres reinforced self compacting concrete
 
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Katedra Inżynierii Materiałów i Procesów Budowlanych, Wydział Budownictwa, Politechnika Śląska, Gliwice
 
 
Publication date: 2012-09-01
 
 
Cement Wapno Beton 17(5) 301-309 (2012)
 
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B. Barragán, R. Zerbino, R. Gettu, M. Soriano, C. De la Cruz, G. Giaccio, M. Bravo, Development and application of steel fi bre reinforced self-compacting concrete, 6th RILEM Symposium on Fibre Reinforced Concrete FRC – BEFIB, p. 457, Varenna, Italy 2004.
 
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Y. Ding, D. Thomaseth, Ch. Niederegger, A. Thomas, W. Lukas, The investigation on the workability and fl exural toughness of fi bre cocktail reinforced self-compacting high performance concrete, BEFIB, p. 467, Varenna, Italy 2004.
 
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R. Zerbino, J. M. Tobes, M. E. Bossio, G. Giaccio, On the orientation of fi bres in structural members fabricated with self compactingfi bre reinforced concrete, Cem. Concr. Comp. 34, 191 (2012).
 
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Y. Ding, C. Azevedo, J. B. Aguiar, S. Jalali, Study onresidual behavior and fl exural toughness of fi bre cocktail reinforced self compacting high performance concrete after exposure to high temperature, Constr. Build. Mat. 26, 21 (2012).
 
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S.-T. Kang, J.-K. Kim, Investigation on the fl exural behavior of UHPCC considering the effect of fi ber orientation distribution, Constr. Build. Mat. 28, 57 (2011).
 
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T. Ponikiewski, G. Cygan, Some properties of self-compacting concretes reinforced with steel fi bres, Cement Wapno Beton, 78, 203 (2011).
 
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S.-T. Kang, J.-K. Kim, The relation between fi ber orientation and tensile behavior in an Ultra High Performance Fiber Reinforced Cementitious Composites (UHPFRCC), Cem. Concr. Resear. 41, 1001 (2011).
 
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P. N. D. Tanikella, R. Gettu, On the distribution of fi bers in self compacting concrete. 7th RILEM Symposium on Fibre - Reinforced Concretes - BEFIB, RILEM Publications S.A.R.L Chennai, India., p. 1147 (2008).
 
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M. C. Torrijos, J. M. Tobes, B. E. Barragán, R. L. Zerbino, Orientation and distribution of steel fi bres in self-compacting concrete. ibid. p. 729 (2008).
 
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L. Vandewalle, G. Heirman, F. van Rickstal, Fibre orientation in selfcompacting fi bre reinforced concrete ibid., p. 719 (2008).
 
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M. Y. Yardimci, B. Baradan, M. A. Taşdemir, Studie s on the relation between fi ber orientation and fl exural performance of SFRSCC, ibid., p. 711 (2008).
 
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S. Grünewald, J. C. Walraven, High strength self-compacting fi bre reinforced concrete: behaviour in fresh andhardened state, 6thInter.Symp. on High Strength/High Perf. Con., Leipzig, p. 453 (2002).
 
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T. Ponikiewski, The rheological properties of fresh s teel fi bre reinforced self-compacting concrete, in: Proc. Int. Symp. `Brittle Matrix Composites 8`, A. M. Brandt, V. C. Li, I. H. Marshall, p . 451, Warsaw 2006.
 
17.
T. Ponikiewski, J. Gołaszewski, The new approach to the study of random distribution of fi bres in high performance self-compacting concrete, Cement Wapno Beton, 79, 165 (2012).
 
18.
G. H. Tattersall, P. F. G. Banfi ll, The Rheology of Fresh Concrete. Pitman Books Limited, Boston 1983.
 
19.
RILEM TC162-TDF: Test and design methods for steel fi bre reinforced concrete, Recommendations: Bending test, Mat. Struc., 33, 145 (2000).
 
ISSN:1425-8129
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