Theoretical Study and Slip Effect Analysis of Elastic Calculation Methods for Steel-Concrete Composite Beams

Shaohui Chu; Xiangkai Zeng; Zhixin Guo

doi:10.26689/jwa.v9i5.12521

Shaohui Chu Hebei Academy of Building Research Co., Ltd., Shijiazhuang 050000, China; Hebei Construction Engineering Quality Testing Center Co., Ltd., Shijiazhuang 050000, China; Hebei Provincial Key Laboratory of Science and Technology for the Utilization of Solid Waste and Building Materials, Shijiazhuang 050000, China
Xiangkai Zeng Hebei Construction Engineering Quality Testing Center Co., Ltd., Shijiazhuang 050000, China
Zhixin Guo Hengshui Real Estate Registration Service Center, Hengshui 053000, China

DOI: https://doi.org/10.26689/jwa.v9i5.12521

Keywords: Composite beam, Elastic calculation, Slip effect, Theoretical study

Abstract

Steel-concrete composite beams, due to their superior mechanical properties, are widely utilized in engineering structures. This study systematically investigates the calculation methods for internal forces and load-bearing capacity of composite beams based on elastic theory, with a focus on the transformed section method and its application under varying neutral axis positions. By deriving the geometric characteristics of the transformed section and incorporating a reduction factor accounting for slip effects, a computational model for sectional stress and ultimate load-bearing capacity is established. The results demonstrate that the slip effect significantly influences the flexural load-bearing capacity of composite beams. The proposed reduction factor, which considers the influence of the steel beam’s top flange thickness, offers higher accuracy compared to traditional methods. These findings provide a theoretical foundation for the design and analysis of composite beams, with significant practical engineering value.

References

Fang LX, Song QG, 2000, Calculation of Elastic Stiffness and Ultimate Strength of Partially Connected Composite Beams. Industrial Construction, (01): 47–50.

Nie JG, Li SJ, Li CG, et al., 2003, Experimental Study on Internal Force Redistribution in Prestressed Steel-Concrete Continuous Composite Beams. Industrial Construction, (12): 12–14 + 5.

Jiang XG, Ju JS, Fu XR, 2007, Elastic Stress Calculation of Steel-Concrete Composite Beams Considering Slip Effects. Engineering Mechanics, (01): 143–146 + 142.

Xie HY, Zheng WZ, 2010, Experimental Study on the Mechanical Performance of Encased Steel Box-Concrete Continuous Composite Beams. Journal of Harbin Institute of Technology, 42(02): 186–192.

Zhou DH, Sun LL, Fan J, et al., 2011, Stress Calculation Method for Composite Beams with Elastic Shear Connections. Engineering Mechanics, 28(03): 157–162.

Huang Q, Guo ZY, Wan SC, et al., 2017, Study on the Calculation Method for Elastic Flexural Load-Bearing Capacity of Steel-Concrete Composite Beam Bridges. China Journal of Highway and Transport, 30(03): 167–174.

Ye HW, Jiang CC, Huang A, et al., 2024, Elastic Bending Deformation Calculation Method for Steel-Concrete Composite Beams Based on Trigonometric Series Solutions. Journal of Building Structures, 45(05): 253–261.