Initial factors impacting vertical displacement, stresses, and propagation of cracks in three-layered steel fiber concrete beams

https://doi.org/10.55214/25768484.v8i3.848

Authors

  • Thanh Quang Khai Lam Faculty of Civil Engineering, Mien Tay Construction University, Vinh Long, Vietnam

The main aim of the study is to examine the input parameters of three-layered steel fiber concrete beams. Bending RC beams is studied by many different scientists. Multilayer RC beams using SF concrete are one way. In high compressive and tensile stress zones, this method improves beam load strength and reduces cracks. The main goal is to decrease beam stress. Repairing broken three-layered SF-reinforced concrete beams by adding more concrete on top or below the current layer is a benefit. Modifying input parameters during three-layered beam design greatly affects beam efficacy. In this paper, the authors conducted a study using ANSYS simulation and nonlinear material analysis. The objective was to investigate the behavior of three-layered bending RC beams subjected to two concentrated loads. Specifically, the study examined the impact of varying the content of SF in the RC, as well as the effects of stirrup at the ends of the beams. Furthermore, the study explored the influence of changes in the quantity and size of steel bars in the region of tensile strength, along with the effect of varying the SF concrete layer's thickness. The survey results on three-layered beams were used to create diagrams that depict the relationship between load and vertical displacement and load and stress area. These diagrams also help determine the initiation and progression of cracks in three-layered beams, starting from the application of load until the beams become damaged. Ultimately, this information allowed us to identify the specific load level that caused the beams to crack and become damaged.

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How to Cite

Lam, T. Q. K. . (2024). Initial factors impacting vertical displacement, stresses, and propagation of cracks in three-layered steel fiber concrete beams. Edelweiss Applied Science and Technology, 8(3), 156–180. https://doi.org/10.55214/25768484.v8i3.848

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Published

2024-03-29