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Shear stresses of hollow lightweight concrete beams made with wood waste

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Języki publikacji
EN
Abstrakty
EN
Hollow Lightweight Concrete (HLC) beams are gaining popularity due to low cost and low weight as compared with the Solid Lightweight Concrete (SLC) beams. HLC and SLC beams decrease in weight, without losing strength and durability. Flexural and shear behavior of reinforced HLC and SLC beams made with sawdust under two-point load is investigated in this study. The ultimate deformation efficiency and shear resistant mechanism of HLC beams are discussed experimentally and compared with other SLC beams. The beams, tested in this research, are rectangular. Beams were designed and constructed as 12 * 23 * 100 cm. Six concrete beam models were prepared including three SLC beams without the hollow and the other three HLC beams poured hollow 50 * 7.5 cm throughout the all beam of 100 cm. All beams were split according to the distance between vertical stirrups, these stirrups were divided into three specimens 45, 13, and 6 cm. By analyzing six experimental test beams, in this research, investigated the effect of diverse factors on the shear of beams. On comparison with normal concrete beams, this work describes the failure of mechanism, process, and ductility. The first crack loads, ultimate loads, load-deflection behavior, crack patterns and shapes of failure were investigated in this study. The experimental results show the ultimate performance of HLC beams are pure shear and controlled by yielding tension and compression steel bars. Also, it is found that the measured size and configuration of the hollow opening had an effect on the load-carry capacity and mid-span deflection of HLC beams. Thus, the design and construction details of beams can be additionally customized to reduce the total cost and weight of the HLC beams.
Rocznik
Strony
657--672
Opis fizyczny
Bibliogr. 13 poz., il., tab.
Twórcy
  • Mustansiriyah University, College of Engineering, Environmental Engineering Department, Baghdad, Iraq
autor
  • Mustansiriyah University, College of Engineering, Highway and Transportation Engineering Department, Baghdad, Iraq
  • Mustansiriyah University, College of Engineering, Civil Engineering Department, Baghdad, Iraq
Bibliografia
  • 1. Alharishawi, S.S.C, Abd, H., Abass, S. (2020). Employment of Recycled Wood Waste in Lightweight Concrete Production. Archives of Civil Engineering, Vol. 4-20
  • 2. Zhang, Y., Ma, G., Wang, Z., Niu, Z., Liu, Y. and Li, Z., (2018). Shear Behavior of Reinforced Glazed Hollow Bead Insulation Concrete Beams. Construction and Building Materials, 174, pp.81-95.
  • 3. MacLeod, I. A.; and Houmsi, A. (1994). Shear Strength of Haunched Beams without Shear Reinforcement. Structural Journal, 91(1), 79-89.
  • 4. Debaiky, S. Y.; and Elniema, E. I. (1982). Behavior and Strength of Reinforced Concrete Haunched Beams in Shear. In Journal Proceedings, 79(3), 184-194.
  • 5. Stefanou, G. D. (1983). Shear Resistance of Reinforced Concrete Beams with Non-Prismatic Sections. Engineering Fracture Mechanics, 18(3), 643-666.
  • 6. El-Niema, E. I. (1988). Investigation of Concrete Haunched T-Beams Under Shear. Journal of Structural Engineering, 114(4), 917-930.
  • 7. Hou, C.; Matsumoto, K.; and Niwa, J. (2015). Shear Failure Mechanism of Reinforced Concrete Haunched Beams. Journal of JSCE, 3(1), 230-245.
  • 8. Tena-Colunga, A.; Urbina-Californias, L. A.; and Archundia-Aranda, H. I. (2017). Cyclic Behavior of Continuous Reinforced Concrete Haunched Beams with Transverse Reinforcement Designed to Fail in Shear. Construction anduilding Materials, 151, 546-562.
  • 9. Chiad, S.S., (2013). Shear Stresses of Hollow Concrete Beams. Journal of Applied Sciences Research, 9(4),.2880-2889.
  • 10. Al-hafiz, A.M., Chiad, S.S. and Farhan, M.S. (2013). Flexural Strength of Reinforced Concrete one-Way Opened Slabs with and without Strengthening. Australian Journal of Basic and Applied Sciences, 7(6),.642-651.
  • 11. Omaran, S.M., Alghamdi, A.A., Alharishawi, S.C. and Hains, D.B. (2019). Integrating BIM and Game Engine for Simulation Interactive Life Cycle Analysis Visualization. In Computing in Civil Engineering. Visualization, Information Modeling, and Simulation. Reston, VA: American Society of Civil Engineers. (120-128).
  • 12. Abbass, A.A., Abid, S.R., Arna'ot, F.H., Al-Ameri, R.A. and Özakça, M., 2020, February. Flexural Response of Hollow High Strength Concrete Beams Considering Different Size Reductions. In Structures (Vol. 23, pp. 69- 86). Elsevier.
  • 13. Al-Eliwi, B.J., Ekmekyapar, T., Al-Samaraie, M.I. and Doğru, M.H., 2018, November. Behavior of Reinforced Lightweight Aggregate Concrete-Filled Circular Steel Tube Columns under Axial Loading. In Structures (Vol. 16, pp. 101-111). Elsevier.
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2021).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-321a08a2-2f62-453e-ac5d-8450be2601ae
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