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SAID, M. - ELRAKIB, T. M.: Enhancement of shear strength and ductility for reinforced concrete wide beams due to web reinforcement. Hbrc Journal 9.3 (2013) 235-242.Search in Google Scholar
ELSOURI, A. M. - HARAJILI, M. H.: Interior RC wide beam-narrow column joints: potential for improving seismic resistance, Engineering structures 99, (2015), pp. 42-55.Search in Google Scholar
IBRAHIM AMER, M., - WISSAM SALMAN, D. - QUSAY AHMED, W.: Effect of steel plates on shear strength of wide reinforced concrete beams. Journal of Engineering and Sustainable Development19.3 (2015) 96-109.Search in Google Scholar
MOHAMMADYAN YASOUJ, S. E. et al.,: Wide Beam Shear Behavior With Diverse Types Of Reinforcement, ACI Structural Journal, MS, No. S-2013-360.R4, 2013.Search in Google Scholar
SHURAIM, A. B. - Al-NEGHEIMISH, A. I.: Design consideration for joist floor with wide – shallow beams ،ACI Structural Journal, 108 (2), 2011, 188-196.Search in Google Scholar
ABASS, A. L. – YOUSIF, R. H.: Shear behavior of reinforced concrete wide beams strengthened with CFRP sheet without stirrups. Diyala Journal of Engineering Sciences 12.1 (2019) 80.Search in Google Scholar
FADHIL, A. A. – RAID, F. A.: A Review to the structural behavior of reinforced concrete wide beams. 49.07 (2022).Search in Google Scholar
MOHAMMADYAN YASOUJ, S. E. - MARSONO, A. K. - ABDULAH, R. - MOGHADASI, M.: Wide beam shear behavior with diverse types of reinforcement ،ACI Structural Journal, 112 (2), 2015, 199-208.Search in Google Scholar
HAIDOA, J. H. - MUSA, I. H.: Cracking strength of steel fiber reinforced concrete shallow wide beams under impact actions ،International Journal of Scientific & Engineering Research, 4 (4), 2013, 464-472.Search in Google Scholar
LOTFY, E. M. - ELKAMASH, W.: Numerical study of R.C. beams strengthening by external steel plates. American Journal of Engineering research, 6(3), 2017, 48-56.Search in Google Scholar
MOSHER, K. A. - HASSON, A. H. H.: Strengthening of reinforced concrete beam in shear zone by compensation the stirrups with equivalent external steel plates ،Journal of Babylon University, 24(3), 2016, 604-617.Search in Google Scholar
IOWA St S. A. BHAGAT - BHUSARI, J. P.: Improving shear capacity of R.C. beams using epoxy bonded continuous steel plates” International Journal of Advanced technology in Civil Engineering, 2 (1), 2013, 39-44.Search in Google Scholar
SEVIM, B.: Structural strengthening behavior of beam using steel plates ،International Journal of scientific research and management, 5(2), 2017, 7789-7796.Search in Google Scholar
SWETHA, K. S. - JAMES, R. M.: “Strengthening of R.C. beam with web bonded steel plates” ، International Journal of Engineering and Techniques, 4(3), 2018, 71-81.Search in Google Scholar
EBERLINE, D. K. - KLAIBER, F. W. - DUNKER, K.: Bridge strengthening with Epoxy bonded steel plates” Transportation Research Record 1180, Bridge Engineering Center ate university, 7-11.Search in Google Scholar
ABD, SUHAD, M. – JASSAM, D. G.: Improving the Mechanical Properties of Lightweight Foamed Concrete Using Silica Fume and Steel Fibers. Al-Nahrain Journal for Engineering Sciences 21.2 (2018): 300-307. 2018 https://doi.org/10.29194/NJES21020300.Search in Google Scholar
KONOPLIANYK, OLEKSANDRl, NIKOLAY KOTOV - LLLIALLIEV.: “Specific Design Features of Prefabricated Fire-Resistant Floor Slabs Made from Lightweight Concrete.” Civil and Enviromental Engineering (2022): 1-7. https://doi.org/10.2478/sjce-2022-0001.Search in Google Scholar
XIAOWEN, L. et al.: Experimental and numerical studies on the shear stability of ship’s thin plates. Civil and Enviromental Engineering, 28.4 (2021): 133-141. https://doi.org/10.2478/pomr-2021-0055.Search in Google Scholar
DYWANY, HAIDAR R. Hashim Al.: Behaviour of wide reinforced concrete beam in shear. Diss. Universiti Teknologi Malaysia, 2010.Search in Google Scholar
ALI, SUHAIB JAMAL - AGARWAL, V. C.: Shear strength capacity of wide reinforced concrete beam with shear steel plates. International Journal of Civil, Structural, Environmental and Infrastructure Engineering Research, 2013.Search in Google Scholar
MANSOOR, AHMED; A.: Strength and behaviour of bubbled wide reinforced concrete beams with shear steel plates. Diss. PhD thesis, University of Technology-Iraq, 2016.Search in Google Scholar
IMAN M. ABDUL AMEER.: Behavior of reinforced SCC beams with steel plates as shear reinforcement. M.Sc. Thesis, Al-Nahrain University Iraq 2016.Search in Google Scholar
KUANG, J. S. - HAMDOLAH BEHNAM - QUNXIAN HUANG: Effective beam width of reinforced-concrete wide beam–column connections. Proceedings of the Institution of Civil Engineers-Structures and Buildings 170.5 (2017) 336-353.Search in Google Scholar
BEHNAM, HAMDOLAH, - KUANG, J. S. - BIJAN SAMALI.: Parametric finite element analysis of RC wide beam-column connections. Computers & Structures 205 (2018) 28-44.Search in Google Scholar
Mohamed, Yasser Tosson, et al. Shear behavior of shallow-wide beams strengthened by external SHCC jacket. HBRC Journal 16.1 (2020) 351-363.Search in Google Scholar
MAWLOOD, BARAZAN OMAR, et al.: Shear strength of reinforced high-performance concrete wide beams. Zanco Journal of Pure and Applied Sciences 33.2 (2021) 117-127.Search in Google Scholar
ACI Committee 318.: Building Code Requirements for Reinforced Concrete and Commentary (ACI 318-14); American Concrete Institute: Farmington Hills, MI, USA, 2014; p. 520.Search in Google Scholar
ABDULJABAR, HASAN T.: SHEAR BEHAVIOR OF FIBROUS REINFORCED CONCRETE WIDE BEAMS. Journal of Engineering and Sustainable Development 26.2 (2022) 77-93.Search in Google Scholar
Building code requirements for structural concrete (ACI 318-19) and commentary. American Concrete Institute, ACI 318M-2019.Search in Google Scholar
IRAQI Standard Specification I.Q.S. No.5,2019: Portland cement. Central Organization for Standardization and Control Quality.Search in Google Scholar
IRAQI Standard Specification (I.Q.S NO.45, 2021) Aggregate from Natural Sources for Concrete and Construction. Central Organization for Standardization and Control Quality.Search in Google Scholar
Standard Specification for Deformed and Plain Carbon-Steel Bars for Concrete Reinforcement ASTM A615/A615M-16b. ASTM A615 2016, ASTM A615 2016. American Society for Testing and Materials West Conshohocken.Search in Google Scholar
496M-07, A. A. ASTM A496M-07 Standard Specification for Steel Wire.544, A. C. Design considerations for steel fiber reinforced concrete. 2009. American Concrete Institute.Search in Google Scholar
ASTM International [ASTM] (2017). Standard specification for lightweight aggregates for structural concrete (ASTM C330/C330M-17A). West Conshohocken, PA: ASTM International.Search in Google Scholar
FEMA, A. J. A. T. C., Redwood City, CA 2007. 461/Interim Testing Protocols for Determining the Seismic Performance Characteristics of Structural and Nonstructural Components. 113.Search in Google Scholar
DAUD, R. A. 2015. Behaviour of reinforced concrete slabs strengthened externally with two-way FRP sheets subjected to cyclic loads, The University of Manchester (United Kingdom).Search in Google Scholar
ASTM C496/C496M-11.: Standard Test Method for Splitting Tensile Strength of Cylindrical Concrete Specimens. American Society of Testing and Materials, 2011.Search in Google Scholar
NOORA H. A. Al-Khafaji - Ibrahim S. I. Harba.”Shear and Flexural Behavior of Lightweight Concrete Beams Containing Hybrid Fibers”, Civil and Environmental Engineering, 2023.Search in Google Scholar