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Flexural behavior of prestressed concrete composite slab with precast inverted T-shaped ribbed panels
Highlights A new type of precast concrete composite slab with three different ribs was proposed. Six bending tests were conducted to obtain the mechanical properties of the CSPRP. A parametric study was conducted based on the experimental data. The formulas were proposed to evaluate the static behavior of the slab.
Abstract A relatively new prestressed concrete composite slab with precast inverted T-shaped ribbed panels (CSPRPs) is proposed in this paper. To study the influence of the three different rib forms on the flexural behavior of the CSPRP, a series of bending tests on six full-scale specimens and numerical studies were conducted. The test results indicate that the static behaviors including the cracking load, ultimate bearing capacity, and deflection are similar for the CSPRPs with different rib forms and the (precast and cast-in-place) concrete layers can work compositely. Furthermore, an extensive parametric study was carried out to investigate the static behavior of CSPRP considering the variations of prestress ratios, prestress degrees, spans, concrete strengths, and contact degrees. Lastly, the comparison of the theoretical values with the test and parametric study results indicates the formulas proposed in this paper are accurate and suitable for practical designs.
Flexural behavior of prestressed concrete composite slab with precast inverted T-shaped ribbed panels
Highlights A new type of precast concrete composite slab with three different ribs was proposed. Six bending tests were conducted to obtain the mechanical properties of the CSPRP. A parametric study was conducted based on the experimental data. The formulas were proposed to evaluate the static behavior of the slab.
Abstract A relatively new prestressed concrete composite slab with precast inverted T-shaped ribbed panels (CSPRPs) is proposed in this paper. To study the influence of the three different rib forms on the flexural behavior of the CSPRP, a series of bending tests on six full-scale specimens and numerical studies were conducted. The test results indicate that the static behaviors including the cracking load, ultimate bearing capacity, and deflection are similar for the CSPRPs with different rib forms and the (precast and cast-in-place) concrete layers can work compositely. Furthermore, an extensive parametric study was carried out to investigate the static behavior of CSPRP considering the variations of prestress ratios, prestress degrees, spans, concrete strengths, and contact degrees. Lastly, the comparison of the theoretical values with the test and parametric study results indicates the formulas proposed in this paper are accurate and suitable for practical designs.
Flexural behavior of prestressed concrete composite slab with precast inverted T-shaped ribbed panels
Liu, Jiepeng (author) / Hu, Huifeng (author) / Li, Jiang (author) / Chen, Y. Frank (author) / Zhang, Li (author)
Engineering Structures ; 215
2020-04-19
Article (Journal)
Electronic Resource
English
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