Issue 42

A. Jadidi et alii, Frattura ed Integrità Strutturale, 42 (2017) 249-262; DOI: 10.3221/IGF-ESIS.42.27 262 R EFERENCES [1] Hannant, D. J., Fiber Cements and Fiber Concrete, Wiley, Chichester, UK, (1987). [2] Darwish, F. A., Oliveira, T. M., Coura, C. G., Kitamura, S., Barbosa, M. T. G., Santos, W., Influence of Fiber Ratio in the Size Effect, Proceedings, Int. Conference Concrete: Construction's sustainable option, Dundee, UK, (2008) 123- 130. [3] Quresh, L. A. et. al, Effect of mixing steel fibers and silica fume on properties of high strength concrete, Proceedings. Int Conference Concrete: Constructions sustainable option, Dundee.UK, (2008) 173-185. [4] Rodrigues, J. P., Laím, L., Correia, A. C., Behavior of fiber reinforced concrete columns in fire, Composite Structures, 92 (2010) 1263-1268. [5] Vandewalle, L., Hybrid Fiber Reinforced Concrete, Proceedings, Int. Conference Concrete: Construction's Sustainable Option, Dundee, UK, (2008) 11-22. [6] Mohod, M. V., Performance of Steel Fiber Reinforced Concrete. IJCS ISSN: 2278-4721, 1(12) (2012) 01-04. [7] Carneiro, J.A., Lima, P.R.L., Leite, M.B., Filho, R.D.T., Compressive stress–strain behavior of steel fiber Reinforced- recycled aggregate concrete. Cem. Concr. Compos., 36 (2014) 65–72. [8] Ahsana Fathima, K. M., Varghese, S., Behavior study of steel fiber and polypropylene fiber reinforced concrete, International Journal of Research in Engineering & Technology, 2(10) (2014) 17-24. [9] Graybeal, B.A., Characterization of the behavior of Ultra -High Performance Concrete, PhD Dissertation, University of Maryland, College Park, Maryland, (2005). [10] ASTM C78-10, Standard Test Method for Flexural Strength of Concrete (Using Simple Beam With Third-Point Loading), ASTM International, USA, (2010). [11] ASTM: Part C39, Testing Concrete: Method for Determination of Compressive Strength of Concrete Cubes. ASTM Standards, 04.02 (1996).