[KSCI] Korea Science Citation Index Service

http://dx.doi.org/10.1007/s40069-015-0109-4

Shear Strength of Prestressed Steel Fiber Concrete I-Beams

Tadepalli, Padmanabha Rao (American Global Maritime)
Dhonde, Hemant B. (Civil Engineering Department, Vishwakarma Institute of Information Technology)
Mo, Y.L. (Department of Civil and Environmental Engineering, University of Houston)
Hsu, Thomas T.C. (Department of Civil and Environmental Engineering, University of Houston)

Publication Information

International Journal of Concrete Structures and Materials / v.9, no.3, 2015 , pp. 267-281 More about this Journal

Abstract

Six full-scale prestressed concrete (PC) I-beams with steel fibers were tested to failure in this work. Beams were cast without any traditional transverse steel reinforcement. The main objective of the study was to determine the effects of two variables-the shear-span-to-depth ratio and steel fiber dosage, on the web-shear and flexural-shear modes of beam failure. The beams were subjected to concentrated vertical loads up to their maximum shear or moment capacity using four hydraulic actuators in load and displacement control mode. During the load tests, vertical deflections and displacements at several critical points on the web in the end zone of the beams were measured. From the load tests, it was observed that the shear capacities of the beams increased significantly due to the addition of steel fibers in concrete. Complete replacement of traditional shear reinforcement with steel fibers also increased the ductility and energy dissipation capacity of the PC I-beams.

Keywords

shear; steel fibers; prestress concrete; full-scale beams;

Citations & Related Records

Reference

1	Abdul-Wahab, H. M. S., & Al-Kadhimi, S. G. (2000). Effect of SFRC on shear strength of prestressed concrete beams. Magazine of Concrete Research, 52(1), 43-51. DOI
2	Cho, S. H., & Kim, Y. I. (2003). Effects of steel fibers on short beams loaded in shear. ACI Structural Journal, 100(6), 765-774.
3	Dhonde, H. (2006). Steel fibers and self-consolidating concrete in prestressed concrete beams. PhD. Dissertation, Department of Civil and Environmental Engineering, University of Houston, TX.
4	Junior, S. F., & De Hanai, J. B. (1999). Prestressed fiber reinforced concrete beams with reduced ratios of shear reinforcement. Cement and Concrete Composites, 21(3), 213-221. DOI
5	Kani, G. N. J. (1964). Riddle of shear failure and its solution. American Concrete Institute Journal, 61(4), 441-467.
6	Langsford, R. P., Lloyd, N., & Sarker, P. K. (2007). Shear strength of steel fibre reinforced prestressed concrete beam. In Proceedings of the 4th International Structural Engineering and Construction Conference (ISEC-4)-Innovations in Structural Engineering and Construction (pp. 441-446). Melbourne, Australia: Taylor & Francis/Balkema.
7	Laskar, A. (2009). Shear behavior and design of prestressed concrete members. PhD Dissertation, Department of Civil and Environmental Engineering, University of Houston, TX.
8	Meda, A., Minelli, F., Plizzari, G. A., & Riva, P. (2005). Shear behaviour of steel fibre reinforced concrete beams. Materials and Structures, 38(3), 343-351. DOI
9	Narayanan, R., & Darwish, I. Y. S. (1987). Shear in prestressed concrete beams containing steel fibers. The International Journal of Cement Composites and Lightweight Concrete, 9(2), 81-90. DOI
10	Padmarajaiah, S. K., & Ramaswamy, A. (2001). Behavior of fiber-reinforced prestressed and reinforced high-strength concrete beams subjected to shear. ACI Structural Journal, 98(5), 752-761.
11	Schlaich, J., Schafer, K., & Jennewein, M. (1987). Toward a consistent design of structural concrete. PCI Journal, 32(3), 74-150. DOI
12	Tadepalli, P. R., Mo, Y. L., & Hsu, T. C. (2013). Mechanical properties of steel fibre concrete. Magazine of Concrete Research, 65(8), 462-474. DOI
13	Tan, K. H., Paramasivam, P., & Murugappan, K. (1995). Steel fibers as shear reinforcement in partially prestressed beams. ACI Structural Journal, 92(6), 643-652.
14	Thomas, J., & Ramaswamy, A. (2006). Shear strength of prestressed concrete T-beams with steel fibers over partial/full depth. ACI Structural Journal, 103(3), 427-435

Reference

2	Doo-Yeol Yoo. (2015) International journal of concrete structures and materials A Review on Structural Behavior, Design, and Application of Ultra-High-Performance Fiber-Reinforced Concrete / 10 (2) , 125
3	(2015) International journal of concrete structures and materials Prediction of the Rupture of Circular Sections of Reinforced Concrete and Fiber Reinforced Concrete / 10 (3) , 373
3	(2015) International journal of concrete structures and materials Anchorage Effects of Various Steel Fibre Architectures for Concrete Reinforcement / 10 (3) , 325
3	Liang Lu. (2015) International journal of concrete structures and materials Simulation of Prestressed Steel Fiber Concrete Beams Subjected to Shear / 10 (3) , 297
3	Jin-Ha Hwang. (2015) International journal of concrete structures and materials Shear Deformation of Steel Fiber-Reinforced Prestressed Concrete Beams / 10 (3) , 53
2	(2015) International journal of concrete structures and materials Pull-Out Behaviour of Hooked End Steel Fibres Embedded in Ultra-high Performance Mortar with Various W/B Ratios / 11 (2) , 301
2	(2017) International journal of concrete structures and materials Evaluation of Crack Propagation and Post-cracking Hinge-type Behavior in the Flexural Response of Steel Fiber Reinforced Concrete / 11 (2) , 365
11	(2015) Journal of materials in civil engineering / Edit by American Society of Civil Engineers Influence of Steel Fibers on Fracture Energy and Shear Behavior of SCC / 30 (11) , 04018295
None	(2015) Engineering structures Efficiency of steel and macro-synthetic structural fibers on the flexure-shear behaviour of prestressed concrete beams / 171 (None) , 47
1	(2015) International journal of concrete structures and materials Experimental and Analytical Studies of U-Shaped Thin-Walled RC Beams Under Combined Actions of Torsion, Flexure and Shear / 12 (1) , 33
4	(2015) Asian journal of civil engineering : building and housing Comparative investigation on effect of fibers in the flexural response of post tensioned beam / 20 (4) , 527
None	(2015) Engineering structures Investigation of the effect of steel fibers on the shear crack-opening and crack-slip behavior of prestressed concrete beams using digital image correlation / 193 (None) , 28
2	(2020) Advances in concrete construction Shear strength and deformation of steel fibre-reinforced concrete beams after fire / 10 (2) , 105
p5	(2015) Materials today: proceedings Self-compacting concrete beams reinforced with steel fiber under flexural loads: A ductility index evaluation / 42 (p5) , 2259
2	(2015) Proceedings of the Institution of Civil Engineers. Construction materials Simplified shear-strength prediction models for steel-fibre-reinforced concrete beams / 174 (2) , 88
14	(2015) Magazine of concrete research Shear strength model for prestressed concrete beams with steel fibres failed in shear / 73 (14) , 731
None	(2015) Case Studies in Construction Materials Experimental and finite element studies on the behavior of hybrid reinforced concrete beams / 15 (None) , e00607