Recent Trends in Civil Engineering & Technology

This Review paper presents the Study for effective use of different shapes Steel Fibre for enhancing Flexural capacity of High Strength Concrete Beam, Along with Compressive & tensile strength. The flexural tensile strength or modulus of rupture (MOR) of concrete generally referred to tensile strength is an important parameter for determining deflection, minimum flexural reinforcement and to compute the on-set of visible cracks in a concrete structure under flexure. It is generally agreed that the theoretical compressive strength was approximately ten times the tensile strength, which implies a fixed relation between these two values. The ratio of tensile to compressive strengths is lower while the compressive strength increases to higher level. The Study of High strength concrete(HSC) from past few decades focused on premature deterioration of reinforced concrete structures, flexural strength, tensile strength, fatigue strength which exposed to severe environmental actions and acted by mechanical loading, this issue has been became a serious problem, with today’s normal and HSC structures. The use of steel fibers in HSC is generally used for enhancing the flexural strength and other parameters. In recent years, considerable works has been performed on steel fibres reinforced concrete to increase the load carrying capacity of concretes structural members and enhancing flexural strength. It is concluded that Fibres substantially reduce the brittleness of concrete and improve its engineering properties, such as tensile, flexural, impact resistance, fatigue, load bearing capacity after cracking and toughness etc.

K.R.Venkatesan, P.N.Raghunath, K.Suguna, “Flexural Behavior of High Strength Steel Fibre Reinforced Concrete Beams”, ACI Structural Journal, December 2013, Vol 110, S88, pp.1077-1088.

Mohd. Ahmed *, Javed Mallick, Mohd. Abul Hasan, “A study of factors affecting the flexural tensile strength of concrete”, Elsevier, Journal of King Saud University – Engineering Sciences (2016), Vol. 28, pp. 147–156

M.A. Al-Osta a,⇑, M.N. Isa a, M.H. Baluch a, M.K. Rahman.., “Flexural behavior of reinforced concrete beams strengthened with ultra-high performance fiber reinforced concrete”, Elsevier, Construction and Building Materials Vol.134 (2017) pp.279–296

Qi Cao a,b, Yinliang Cheng c, Mingli Cao a,⇑, Quanqing Gao a.., “Workability, strength and shrinkage of fiber reinforced expansive self-consolidating concrete”, Elsevier, Construction and Building Materials (2017) Vol.131,pp. 178–185

Aiswarya Sukumar, Elson John, , “Fiber Addition And Its Effect On Concrete Strength .International Journal Of Innovative Research In Advanced Engineering (Ijirae) Issn: 2349-2163 Volume 1 Issue 8 (September 2014)

Nicholas A. Brake ⇑, Hamid Allahdadi, Fatih Adam “Flexural strength and fracture size effects of pervious concrete”, Elsevier, Construction and Building Materials (2016) Vol.113,pp. 536–543.

D. Choumanidis a, E. Badogiannis b,⇑, P. Nomikos a, A. Sofianos a.., “The effect of different fibres on the flexural behaviour of concrete exposed to normal and elevated temperatures”, Elsevier ,Construction and Building Materials (2016) Vol. 129,pp. 266–277

Technical Report no. 63.., “Guidance for the Design of steel – Fiber –Reinforced Concrete”, Published March 2007, ISBN 1-904482-32-5 The Concrete Society

Metin Husem_.., “The effects of high temperature on compressive and flexural strengths of ordinary and high-performance concrete” Elsevier, Department of Civil Engineering, Karadeniz Technical University, 61080 Trabzon, Turkey Received 29 April 2004; received in revised form 10 October 2005; accepted 5 December 2005

K.R.Venkatesan, P.N.Raghunath, K.Suguna.., “Flexural Behavior of High Strength Steel Fibre Reinforced Concrete Beams” . ISSN: 2319-5967 ISO 9001:2008 Certified International Journal of Engineering Science and Innovative Technology (IJESIT) Volume 4, Issue 1, January 2015

Jong-Han Lee 1., “Influence of Concrete Strength Combined with Fiber Content in the Residual Flexural Strengths of Fiber Reinforced Concrete”, Composite Structures (2017), doi: http://dx.doi.org/10.1016/ j.compstruct.2017.01.052.

Ahmed, M., El Hadi, K.M., Abul Hasan, M., Mallick J. Ahmed, A., 2014. Evaluating the co-relationship between concrete flexural tensile strength and compressive strength, Int. J. Struct. Eng.5 (2).

A. Kılıc， a, C.D. Atis_ b,*, A. Teymen a, O. Karahan b, F. O¨ zcan c, C. Bilim d, M. O¨ zdemir a…, “The influence of aggregate type on the strength and abrasion resistance of high strength concrete”. Elsevier, Cement & Concrete Composites 30 (2008) 290–296

Amudhavalli, N.K. and Mathew, J. (2012) ‘Effect of silica fume on strength and durability parameters of concrete’, International Journal of Engineering Sciences & Emerging Technologies, Vol. 3, No. 1, pp.28–35.

Weimin Song 1,* and Jian Yin 2 .., “Hybrid Effect Evaluation of Steel Fiber and Carbon Fiber on the Performance of the Fiber Reinforced Concrete”, Materials 2016, 9, 704; doi:10.3390/ma9080704 www.mdpi.com/journal/materials

K.R.Venkatesan1*, K.Suguna2 and P.N.Raghunath3 .., “Steel Fibre Reinforced Concrete Beams under Flexure”, Asian Journal of Applied Sciences (ISSN: 2321 – 0893) Volume 03 – Issue 01, February 2015

M.C. Nataraja, T.S. Nagaraj and S.B. Basavaraja. (2005) Reproportioning of Steel Fibre Reinforced Concrete Mixes and their Impact Resistance, Cement and Concrete Research, 35(12), 2350-2359.

V. S. Gopalaratnam and R. Gettu, “On the characterization of flexural toughness in fiber reinforced concretes,” Cement and Concrete Composites, vol. 17, no. 3, pp. 239–254, 1995

Ghosni, N, Samali, B & Valipour 2014, 'Flexural behaviour of high strength concrete composite incorporating long hooked-end steel fibres' in ST Smith (ed.), 23rd Australasian Conference on the Mechanics of Structures and Materials (ACMSM23), vol. I, Byron Bay, NSW, 9-12 December, Southern Cross University, Lismore, NSW, pp. 327-332. ISBN: 9780994152008.

Neves, R.D and Fernandes de Almeida, J. C. O, "Compressive Behaviour of Steel Fiber Reinforced Concrete."Structural Concrete.2005.6.No 1.

Vairagade, V.S and Kene, K.S," Introduction to Steel Fiber Reinforced Concrete on Engineering Performance of Concrete."International Journal of Scientific & Technology Research Volume 1, Issue 4, May 2012.

Shah , S and Rangan(1994), “Effect of Fiber addition on concrete strength”, Indian Concrete Journal.

K.K. Sideris, P. Manita, E. Chaniotakis, Performance of thermally damaged fibre reinforced concretes,Constr.Build.Mater.23(2009)1232–1239,http://dx.doi.org/10.1016/j.conbuildmat.2008.08.009.

K.K. Sideris, P. Manita, Residual mechanical characteristics and spalling resistance of fiber reinforced self-compacting concretes exposed to elevated temperatures, Constr. Build. Mater 41(2013) 296–302, http://dx.doi.org/ 10.1016/j.conbuildmat.2012.11.093.

Uttam B. Kalwane, Yuwaraj M. Ghugal and Ajay G. Dahake, Shear strength of polymer modified steel fiber reinforced concreteThe Indian Concrete Journal – 2016 , Vol. 90, Issue 00, pp. 00-00