Authors:
Bode Venkata Kavyateja Department of Civil Engineering, Jawaharlal Nehru Technological University, Anantapur, India

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J. Guru Jawahar Department of Civil Engineering, Annamacharya Institute of Technology and Sciences, Tirupati, India

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Chundupalle Sashidhar Department of Civil Engineering, Jawaharlal Nehru Technological University, Anantapur, India

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Narasimha Reddy Panga Department of Civil Engineering, National Institute of Technology, Srinagar, Jammu and Kashmir, India

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Abstract

This paper analyses the structural behavior of reinforced self-compacting concrete beams under two-point loading. A total number of five beams were cast with varying quantities of alccofine (i.e., 0, 5, 10, and 15%) and constant dosage of fly ash (i.e., 25%) and tested for examining the load-deflection curves and ultimate moment carrying capacity of reinforced self-compacting concrete beams. From obtained experimental results, it was found that the load-carrying capacity was increased when the beam with the addition of alccofine and fly ash is compared with the normal concrete beam. The experimental obtained ultimate strength values were compared with theoretically predicted values using IS 456-2000, ACI 318-11, and CSA A23.3-04 codes.

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    P. L. Domone, “A review of the hardened mechanical properties of self-compacting concrete,” Cem. Concrete Comp., vol. 29, no. 1, pp. 112, 2007.

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    P. Desnerck, G. De Schutter, and L. Taerwe, “Bond behavior of reinforcing bars in self-compacting concrete: experimental determination by using beam tests,” Mater. Struct., vol. 43, no. 1, pp. 5362, 2010.

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    K. Turk, A. Benli, and J. Calayir, “Bond strength of tension lap-splices in full scale self-compacting concrete beams,” Turkish J. Eng. Env. Sci., vol. 32, pp. 377386, 2008.

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    A. Foroughi-Asl, S. Dilmaghani, and H. Famili, “Bond strength of reinforcement steel in self-compacting concrete,” Int. J. Civil Eng., vol. 6, no. 1, pp. 2433, 2008.

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    V. Boel, P. Helincks, P. Desnerck, and G. De Schutter, “Bond behavior and shear capacity of self-compacting concrete”, in Design, Production and Placement of Self-Consolidating Concrete, vol. 1, K. Khayat, D. Feys, eds, Springer, pp. 343353, 2010.

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  • [6]

    A. A. A. Hassan, K. M. A. Hossain, and M. Lachemi, “Behavior of full-scale self-consolidating concrete beams in shear,” Cem. Concrete Comp., vol. 30, no. 7, pp. 588596, 2008.

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    BIS IS 12269:2013, Ordinary Portland cement, 53 Grade specification, New Delhi, India, 2013 .

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    BIS 383:2016, Coarse and fine aggregates for concrete, specification, New Delhi, India, 2016.

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    P. N. Reddy and J. A. Naqash, “Effectiveness of polycarboxylate ether on early strength development of alccofine concrete,” Pollack Period., vol. 15, no. 1, pp. 7990, 2020.

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  • [10]

    P. N. Reddy and J. A. Naqash, “Properties of concrete modified with ultra-fine slag,” Karbala Int. J. Mod. Sci., vol. 5, no. 3, pp. 151157, 2019.

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    P. N. Reddy and J. A. Naqash, “Effect of alccofine on mechanical and durability index properties of green concrete,” Int. J. Eng., vol. 32, no. 6, pp. 813819, 2019.

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  • [12]

    A. N. Reddy, P. N. Reddy, B. V. Kavyateja, and G. G. K. Reddy, “Influence of nanomaterial on high-volume fly ash concrete: a statistical approach,” Innov. Infrastruct. Solut., vol. 5, no. 3, pp. 19, 2020.

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    P. N. Reddy, B. B. Jindal, B. V. Kavyateja, and A. N. Reddy, “Strength enhancement of concrete incorporating alccofine and SNF based admixture,” Adv. Concrete Construct., vol. 9, no. 4, pp. 345354, 2020.

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    A. N. Reddy and T. Meena, “An experimental investigation on mechanical behavior of eco-friendly concrete,” IOP Conf. Ser. Mater. Sci. Eng., vol. 263, no. 3, Paper no. 032010, 2017.

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    ASTM C989-06, Standard specification for ground granulated blast-furnace slag for use in concrete and mortars, ASTM International, West Conshohocken, PA, 2018.

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    Specification and guidelines for self-compacting concrete, EFNARC Association House, London, UK, 2002.

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    J. C. Dotreppe and J. M. Franssen, “The use of numerical models for the fire analysis of reinforced concrete and composite structures,” Eng. Anal., vol. 2, no. 2, pp. 6774, 1985.

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    M. B. Dwaikat and V. K. R. Kodur,” Comparison of fire resistance of RC beams from different codes of practice,” American Concrete Institute, Special Publication, vol. SP 255-06, pp. 125146, 2008.

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  • [19]

    ACI 318-11, 2011, Building code requirements for structural concrete and commentary, American Concrete Institute, 2011.

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    IS 456, 2000, Plain and reinforced concrete, Code of practice, Part-2, Cement and Concrete, New Delhi, India.

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    CAN/CSA-A23.3-04, 2004, Design of concrete structures, Canadian Standards Association. Mississauga, Canadian Standard Association, 2010.

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    J. Smetanková, P. Mesároš, and T. Mandicák, “The potential of building information modeling in civil engineering,” Pollack Period., vol. 15, no. 1, pp. 158168, 2020.

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  • [23]

    H. K. Kim, I. W. Nam, and H. K. Lee, “Enhanced effect of carbon nanotube on mechanical and electrical properties of cement composites by incorporation of silica fume,” Compos. Struct., vol. 107, pp. 6069, 2014.

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  • Bálint Bachmann (Institute of Architecture, Faculty of Engineering and Information Technology, University of Pécs, Hungary)
  • Jeno Balogh (Department of Civil Engineering Technology, Metropolitan State University of Denver, Denver, Colorado, USA)
  • Radu Bancila (Department of Geotechnical Engineering and Terrestrial Communications Ways, Faculty of Civil Engineering and Architecture, “Politehnica” University Timisoara, Romania)
  • Charalambos C. Baniotopolous (Department of Civil Engineering, Chair of Sustainable Energy Systems, Director of Resilience Centre, School of Engineering, University of Birmingham, U.K.)
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  • Matteo Bruggi (Dipartimento di Ingegneria Civile e Ambientale, Politecnico di Milano, Italy)
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  • Anikó Borbála Csébfalvi (Department of Civil Engineering, Institute of Smart Technology and Engineering, Faculty of Engineering and Information Technology, University of Pécs, Hungary)
  • Mirjana S. Devetaković (Faculty of Architecture, University of Belgrade, Serbia)
  • Szabolcs Fischer (Department of Transport Infrastructure and Water Resources Engineering, Faculty of Architerture, Civil Engineering and Transport Sciences Széchenyi István University, Győr, Hungary)
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  • Jana Frankovská (Department of Geotechnics, Faculty of Civil Engineering, Slovak University of Technology in Bratislava, Slovakia)
  • János Gyergyák (Department of Architecture and Urban Planning, Institute of Architecture, Faculty of Engineering and Information Technology, University of Pécs, Hungary)
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  • Elena Helerea (Dept. of Electrical Engineering and Applied Physics, Faculty of Electrical Engineering and Computer Science, Transilvania University of Brasov, Romania)
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  • Teuta Jashari-Kajtazi (Department of Architecture, Faculty of Civil Engineering and Architecture, University of Prishtina, Kosovo)
  • Róbert Kersner (Department of Technical Informatics, Institute of Information and Electrical Technology, Faculty of Engineering and Information Technology, University of Pécs, Hungary)
  • Rita Kiss  (Biomechanical Cooperation Center, Faculty of Mechanical Engineering, Budapest University of Technology and Economics, Budapest, Hungary)
  • István Kistelegdi  (Department of Building Structures and Energy Design, Institute of Architecture, Faculty of Engineering and Information Technology, University of Pécs, Hungary)
  • Stanislav Kmeť (President of University Science Park TECHNICOM, Technical University of Kosice, Slovakia)
  • Imre Kocsis  (Department of Basic Engineering Research, Faculty of Engineering, University of Debrecen, Hungary)
  • László T. Kóczy (Department of Information Sciences, Faculty of Mechanical Engineering, Informatics and Electrical Engineering, University of Győr, Hungary)
  • Dražan Kozak (Faculty of Mechanical Engineering, Josip Juraj Strossmayer University of Osijek, Croatia)
  • György L. Kovács (Department of Technical Informatics, Institute of Information and Electrical Technology, Faculty of Engineering and Information Technology, University of Pécs, Hungary)
  • Balázs Géza Kövesdi (Department of Structural Engineering, Faculty of Civil Engineering, Budapest University of Engineering and Economics, Budapest, Hungary)
  • Tomáš Krejčí (Department of Mechanics, Faculty of Civil Engineering, Czech Technical University in Prague, Czech Republic)
  • Jaroslav Kruis (Department of Mechanics, Faculty of Civil Engineering, Czech Technical University in Prague, Czech Republic)
  • Miklós Kuczmann (Department of Automations, Faculty of Mechanical Engineering, Informatics and Electrical Engineering, Széchenyi István University, Győr, Hungary)
  • Tibor Kukai (Department of Engineering Studies, Institute of Smart Technology and Engineering, Faculty of Engineering and Information Technology, University of Pécs, Hungary)
  • Maria Jesus Lamela-Rey (Departamento de Construcción e Ingeniería de Fabricación, University of Oviedo, Spain)
  • János Lógó  (Department of Structural Mechanics, Faculty of Civil Engineering, Budapest University of Technology and Economics, Hungary)
  • Carmen Mihaela Lungoci (Faculty of Electrical Engineering and Computer Science, Universitatea Transilvania Brasov, Romania)
  • Frédéric Magoulés (Department of Mathematics and Informatics for Complex Systems, Centrale Supélec, Université Paris Saclay, France)
  • Gabriella Medvegy (Department of Interior, Applied and Creative Design, Institute of Architecture, Faculty of Engineering and Information Technology, University of Pécs, Hungary)
  • Tamás Molnár (Department of Visual Studies, Institute of Architecture, Faculty of Engineering and Information Technology, University of Pécs, Hungary)
  • Ferenc Orbán (Department of Mechanical Engineering, Institute of Smart Technology and Engineering, Faculty of Engineering and Information Technology, University of Pécs, Hungary)
  • Zoltán Orbán (Department of Civil Engineering, Institute of Smart Technology and Engineering, Faculty of Engineering and Information Technology, University of Pécs, Hungary)
  • Dmitrii Rachinskii (Department of Mathematical Sciences, The University of Texas at Dallas, Texas, USA)
  • Chro Radha (Chro Ali Hamaradha) (Sulaimani Polytechnic University, Technical College of Engineering, Department of City Planning, Kurdistan Region, Iraq)
  • Maurizio Repetto (Department of Energy “Galileo Ferraris”, Politecnico di Torino, Italy)
  • Zoltán Sári (Department of Technical Informatics, Institute of Information and Electrical Technology, Faculty of Engineering and Information Technology, University of Pécs, Hungary)
  • Grzegorz Sierpiński (Department of Transport Systems and Traffic Engineering, Faculty of Transport, Silesian University of Technology, Katowice, Poland)
  • Zoltán Siménfalvi (Institute of Energy and Chemical Machinery, Faculty of Mechanical Engineering and Informatics, University of Miskolc, Hungary)
  • Andrej Šoltész (Department of Hydrology, Faculty of Civil Engineering, Slovak University of Technology in Bratislava, Slovakia)
  • Zsolt Szabó (Faculty of Information Technology and Bionics, Pázmány Péter Catholic University, Hungary)
  • Mykola Sysyn (Chair of Planning and Design of Railway Infrastructure, Institute of Railway Systems and Public Transport, Technical University of Dresden, Germany)
  • András Timár (Faculty of Engineering and Information Technology, University of Pécs, Hungary)
  • Barry H. V. Topping (Heriot-Watt University, UK, Faculty of Engineering and Information Technology, University of Pécs, Hungary)

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2023  
Scopus  
CiteScore 1.5
CiteScore rank Q3 (Civil and Structural Engineering)
SNIP 0.849
Scimago  
SJR index 0.288
SJR Q rank Q3

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