Integral Lifting of Steel Structure Corridor between Two Super High-Rise Buildings under Wind Load

Ruan, Ruolin; Lai, Muhuo; Jiang, Chen; Wang, Jinbing; Lin, Yong

doi:10.3390/buildings13102441

Buildings

2023

DOI: 10.3390/buildings13102441

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Integral Lifting of Steel Structure Corridor between Two Super High-Rise Buildings under Wind Load

Ruolin Ruan,

Muhuo Lai,

Chen Jiang

et al.

Abstract: This paper explores the lifting project of a steel structure corridor in the Haiyue Center, Quanzhou City, with a focus on mechanical response, safety, stability, and construction guidance under wind load conditions. The investigation attends to safety apprehensions stemming from the absence of horizontal constraints within the corridor, rendering it vulnerable to wind-induced loads. Measures are implemented to prevent collisions with nearby buildings during lifting. Stability challenges, including beam displa… Show more

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2024

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Cited by 2 publications

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Improvement of Structural and Technological Solutions for Erection of Large-Span Coatings Using Lifting Modules

Ignatenko,

Rashkivskyi,

Zozulia

2024

Theory build. pract.

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The article presents an analysis of the method of lifting large-span coatings using the pull-up method and introduces a new structural-technological solution for erecting coatings using mechanized technological equipment in the form of a lifting module. According to the solution, the load-bearing beams of the coating are moved in the space between paired columns of the frame, resting on the lifting modules. Guide profiles fixed to the inner surfaces of the columns serve as supports for the alternating support of the platforms of the lifting module, which pushes the coating beams in the inter-column space. The developed solution optimizes the lifting processes and reduces the duration of lifting works by minimizing the number of installations works to operations for fixing the beams of the coating at the design height and automating the processes of pushing the coating with lifting modules.

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Improvement of Structural and Technological Solutions for Erection of Large-Span Coatings Using Lifting Modules

Ignatenko,

Rashkivskyi,

Zozulia

2024

Theory build. pract.

View full text Add to dashboard Cite

show abstract

Analysis of Mechanical Properties during Construction Stages Reflecting the Construction Sequence for Long-Span Spatial Steel Structures

Yao,

Li,

Yang

et al. 2024

Buildings

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When constructing long-span spatial steel structures, the unformed structure is often incomplete and unstable. The construction sequence significantly influences the mechanical state of the structure during the construction stages (CSs), affecting both the path and time effects. This study examined the mechanical properties of the construction process using an actual project as a case study, comparing two methods: one-step forming and stage-by-stage forming. Critical turning points of stress and displacement during the CSs were identified as the initial installation and unloading stages. Stress concentrations frequently occurred at temporary support points, and peak displacements often appeared at the outer overhanging bars of the structure. A well-planned construction sequence can effectively manage the structure’s formation, boundaries, and loading to ensure construction safety and stability. The conclusions and analysis methods from this study provide valuable references for the design and construction of similar long-span spatial steel structures.

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Integral Lifting of Steel Structure Corridor between Two Super High-Rise Buildings under Wind Load

Cited by 2 publications

References 22 publications

Improvement of Structural and Technological Solutions for Erection of Large-Span Coatings Using Lifting Modules

Improvement of Structural and Technological Solutions for Erection of Large-Span Coatings Using Lifting Modules

Analysis of Mechanical Properties during Construction Stages Reflecting the Construction Sequence for Long-Span Spatial Steel Structures

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