The combined prefabricated steel-hybrid stacked girder structure is very common in modern bridge design. An actual bridge engineering design project is taken as an example in this paper to analyze the application strategy of this structure, encompassing overall design strategy, structural design strategy, and structural calculation strategy. The aim is to offer insights that can enhance the quality of bridge design.
Zhou F, 2020, Application of Combined Assembled Steel-Mixed Stacked Girders in Bridge Design. Modern Transportation Technology, 2020(4): 49–52.
Liu Y, 2015, Research on the Application of Steel-Concrete Laminated Plate Combination Beams in the Structural Transition Layer of Commercial and Residential Buildings in Small and Medium Towns, dissertation, Shantou University.
Cao B, 2020, Research on Key Technology of Large-Span Steel-Hybrid Stacked Girder Self-Anchored Suspension Bridge Construction, Zhengzhou University.
Zhao L, Zheng K, 2022, Design Method and New Structural Form of Steel-Concrete Combined Girder Bridge. Sichuan Architecture, 42(5): 141–144.
Wang Q, 2023, Design of Cast-In-Place Prestressed Box Girder Scheme for Steel-Hybrid Composite Girder Bridge on Ramp 1 of Pingwu Hub D. Science and Technology Information, 21(16): 138–141.
Ren W, Zhao Q, Cao Q, 2022, Research on the Rationality of the Design of Steel-Mixed Girder Bridge with Work-Type Section. Journal of Xinxiang College, 39(3): 60–64.
Liao C,2022, Optimization of Structural Design Parameters of Steel-Mixed Girder Bridges. Western Transportation Science and Technology, 2022(9): 105–107.
Dai C, 2023, Discussion on Bridge Design Principles and Technical Approaches to Bridge Reinforcement. Science and Technology Innovation, 2023(4): 125–128.
Zhang Y, 2022, Study on Load Lifting and Seismic Strengthening Technology of Steel-Hybrid Stacked Continuous Girder Bridges. Engineering Construction and Design, 2022(14): 147–149.
Liu X, Li X, Chen H, 2022, Structural Design Index and Cost Analysis of Steel-Mixed Combination Girder Bridge. Urban Road and Bridge and Flood Control, 2022(11): 98–100.