Replacing Traditional Stirrups by Shear Steel Plate in High Performance Concrete Beams under Monotonic and Repeated Loads
Keywords:
Longitudinal shear steel plates, High performance concrete, Normal stirrups, Repeated load, steel fiberAbstract
High performance concrete beam subjected to repeated loads is different from than the one subjected to static loads. Due to loading and unloading process crushing was caused by repeated loads in some part of concrete. Behavior of concrete under static loads was influenced by adding steel fibers, which amended many properties especially concrete tensile strength. These improvements are studied in this research under them effect of repeated loads, by testing simply supported high performance concrete fibrous reinforced beams with dimensions (1400x150 x 300) mm and percentages of steel fibers (0.5%) its design according to ACI544.4R-8[1]. The references is reinforced with normal stirrups while the other reinforced with different longitudinal shear steel plate. Repeated and static loads were applied to the beams through two points and for many cycles up to failure. All the results show low in ultimate strength under repeated load and increase in number and width of cracks. The results present that ductility under repeated load was less than under static load and the deflection under repeated load was higher than deflection under static load.
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American Concrete Institute Commitee ACI 544.4R-8, Report on the Design consideration for steel fiber reinforced concrete (1999).
R. Saini, and R. Singh, High Performance Concrete: Review Paper, International Journal of Engineering Science and Computing 8 ( 2018) 18037-18038.
K.E. Hassan, and J.G. Cabrera, Design of durable concrete: specifications and their implementation, In Proceedings of the Second Middle East Symposium. Hurghada, Egypt (1999) 55-65.
K.E. Hassan, J.G. Cabrera, and R.S. Maliehe, The effect of mineral admixtures on the properties of high-performance concrete, Cement and concrete composites 22 (2000) 267-271.
P. Ramadoss, and K. Nagamani, Durability Characteristics of High-Strength Steel Fiber Reinforced Concrete. New Building Materials and Construction World 4 (2008.).
A.M. Ibrahim, M.J. Hamood, and A. A. Mansor, Using the Steel Plate Instead of Shear Reinforcement (stirrups) in Reinforced Concrete Beams, The Republic of Iraq is the central authority for standardization and control (2016) 4751.
Ma.W. Teng, K.H. Tan, F. Wang, Fatigue Tests of Reinforced Concrete Deep Beams, Journal of the American Concrete Institute 97( 2000) 572-580.
A. Laftah Abbas, Non-Linear Analysis of Continuous Composite Concrete–Steel Beams Under Cyclic Loadings, Diyala Journal of Engineering Sciences. Jun 28 (2011). Pp. 125-143.
M.K. Lee, and B.I.G. Barr, An overview of the fatigue behaviour of plain and fibre reinforced concrete, Cement and Concrete Composites, 26 (2004) 299-305.
Z.S. Hammoudi, A.L. Abbas, H.A. Mahmood, Free Vibration Analysis of Cable Stayed-Bridge by Finite Element Method, Diyala Journal Of Engineering Sciences. 12(4) (2019) pp 67-72.
British Standards Institution, B.S.1881: part 3:116. British Standards Institution (1983).
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