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Stress Strain Behavior of Steel Fibre Based Concrete in Compression

Tantary M.A*, Upadhyay A**, Prasad J***

* Research Scholar, Department of Civil Engineering, IIT Roorkee, India.

**-*** Associate Professor, Department of Civil Engineering, IIT Roorkee, India.

Periodicity:September - November'2012
DOI : https://doi.org/10.26634/jste.1.3.2020

Abstract

Steel fibre based concrete is now being increasingly used in different structural applications, including buildings, bridges, pavements etc. complete stress strain curve of the material is therefore essentially needed for the analysis and design of structures. In this study an experimental investigation was carried out to generate the complete stress strain curve for fibre concrete, containing crimped steel fibres. Four types of crimped steel fibres with aspect ratio of 33.5, 36, 45 and 80 respectively, were used in four different volume fractions (0.5, 1.0, 1.5, 2.0 %) in four different concrete mixes. The vital parameters of fibre concrete namely peak stress, strain at peak stress, toughness and the nature of stress strain curve was studied. A simple analytical model was proposed for stress- strain diagram of steel fibre concrete in uni-axial compression. The model was compared with experimental results and a good agreement was noticed between the two.

Keywords

Fibre based concrete, Ductility, Aspect ratio, Fibre factor

How to Cite this Article?

Tantary, M.A., Upadhyay, A., and Prasad, J. (2012). Stress Strain Behavior of Steel Fibre Based Concrete in Compression . i-manager’s Journal on Structural Engineering, 1(3), 32-38. https://doi.org/10.26634/jste.1.3.2020

References

[1]. Antoine, E. Naaman (2003), “Engineered steel fibres with optimal properties for reinforced cement composites”, Journal of Advanced Concrete Technology, Japan 1(3), 241-252.

[2]. Baris Binici (2005), “An analytical model for stress strain behavior of confined concrete”, Journal of engineering structures, Elsevier publications, Vol. 27, pp. 1040-1051.

[3]. Chen W.F., and Carson J.L. (1971); “Stress strain properties of random wire reinforced concrete”, ACI Journal, Vol. 68, No. 12, pp. 933 – 936.

[4]. D.A. Fanella, and A.E. Naaman, “Stress strain properties of Fibre reinforced mortar in Compression”, ACI journal, August 1985, pp. 475-483.

[5]. Fatih Altun, Tefaruk Haktanir, and Kamura Ari (2006), “Effect of Steel fibre addition on mechanical properties of concrete and RC beams”, Concrete and building materials, Elsevier Publications, in press.

[6]. Ghugal, Y.M. (2003); “Effects of steel fibre on various strengths of concrete”, ICI Journal, Vol. 4, No. 3, pp. 23 – 29.

[7]. Kaushik, S.K., Gupta, V.K., and Gupta, S. (1994); “Properties of fresh and hardened SFRC”, Proceedings of national seminar on fibre reinforced cementitious products, Roorkee, India, pp. 247 – 257.

[8]. Khan, T.A., Laid, S.M., and Ramakrishna, B. (1987); “Experimental study of SFRC under compression, indirect tension and pure bending”, Proceedings of international Symposium on fibre reinforced concrete, Madras, India, pp. 2.39 – 2.48.

[9]. Kobayashi, K., and Cho R. (1981), “ Flexural behavior of polyethylene Fibre reinforced concrete”, International Journal of cement composites, 3 (1) 19-25.

[10]. Krishnamoorthy, T.S., and Bharat Kumar, B.H. (1994); “Influence of Steel fibres on the compression and flexural behavior of concrete”, Proceedings of national seminar on fibre reinforced cementitious products, Roorkee, India, pp. 25- 32.

[11]. Kukreja, C.B., and Chawla, S. (1989); “Flexural characteristics of steel fibre reinforced concrete”, The Indian concrete Journal, pp. 154 – 157.

[12]. Lin, S.H., and Cheng-Tzu T.H. (1994); “Stress strain behavior of steel fibre high strength concrete under compression”, ACI structural Journal, Vol. 91, N0. 4, pp. 448 – 457.

[13]. M.C. Natraja, N. Dhang, and A.P. Gupta (1999), “Stress strain curve for steel fibre reinforced concrete under compression”, Cement and Concrete Composites, Elsevier, Vol. 21, pp. 383 – 390.

[14]. Mohmmad Razvi Nouri, and Jalil M. (1995); “Simulation of stress strain behavior of fibre reinforced cementitious composites in flexure”, Iranain Journal of polymer science and technology, Vol. 4, No. 3, pp. 226 – 234.

[15]. M. Ezekiel, and A. Fox. (1961); “Methods of Correlation and Regression Analysis”, New York, John Wiley & Sons, inc.

[16]. Ohno T. and Kubota K. (1979), “ Steel fibre reinforced pavement construction at Kuvoiso Bypass”, Concrete Journal, Japanese, 17 (5), 8-18.

[17]. Parviz, S., and Ziad, B. (1991); “Fibre type effects on the performance of steel fibre reinforced concrete”, ACI materials Journal, Vol. 88, No. 2, pp. 129 – 134.

[18]. P.S. Song and S. Hwang (2004), “ Mechanical properties of high strength steel fibre reinforced concrete”, Construction and Building materials, Elsevier publications, Vol. 18, pp. 669-673.

[19]. Ramkrishna, R. (1993); “Recent advancement in fibre reinforced composites”, Proceedings of international symposium on innovative world of concrete, Madras, India, pp. KN.163 – KN.192.

[20]. Samir, A., Faisal, F., and Mohmd, I. (2000), “Compressive strength and tensile reinforcement ratio on flexural behavior of fibrous concrete beams”, Engineering Structures, Elsevier publications, Vol. 22, pp. 1145-1158.

[21]. Shah, S.P., and Naaman, A.E. (1976), “Mechanical properties of glass and steel fibre reinforced mortar”, ACI Journal, Vol. 73, No. 1, pp. 50 –53.

[22]. Yining Ding, and Wolfgang Kusterla (2000), “Compression stress strain relationship of Steel fibre reinforced concrete at early age”, Cement and Concrete Research, Elsevier Publications, Vol. 30, pp. 1573-1579

[23]. Yeol Choi, and Robert L. Yuan (2005), “Experimental relationship between splitting tensile strength and compressive strength of GFRC and PFRC”, Cement And Concrete Research, Elsevier Publications, Vol. 35, pp. 1587-1591.

Stress Strain Behavior of Steel Fibre Based Concrete in Compression

Abstract

Keywords

How to Cite this Article?

References

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