Experimental Study on Seismic Performance of Vertical Connection Nodes of Prefabricated Concrete Channel

Experimental Study on Seismic Performance of Vertical Connection Nodes of Prefabricated Concrete Channel

The prefabricated concrete channel, constructed by integrating factory-based prefabrication with on-site assembly, offers enhanced quality, reduced construction time, and minimized environmental impact. To promote its application in water conservancy projects, an innovative concrete joint combining...

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Bibliographic Details
Main Authors: Guangyao Zhang, Zhiqi Wang, Wenliang Ma, Zhihao Wang, Luming Li, Yanping Zhou, Yibo Li, Yuxia Suo
Format: Article
Language:English
Published: MDPI AG 2025-05-01
Series:Buildings
Subjects:
prefabricated concrete channel
semi-grouting sleeve
shear-resistant steel plate
low-cycle reversed loading
seismic performance
Online Access:https://www.mdpi.com/2075-5309/15/10/1581
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Summary:The prefabricated concrete channel, constructed by integrating factory-based prefabrication with on-site assembly, offers enhanced quality, reduced construction time, and minimized environmental impact. To promote its application in water conservancy projects, an innovative concrete joint combining semi-grouting sleeves and shear-resistant steel plates was proposed. Its seismic performance was assessed through a 1:3 scale low-cycle reversed loading test, focusing on failure mode, hysteretic behavior, skeleton curves, stiffness degradation, ductility, and energy dissipation. Results show that the joint primarily exhibits bending–shear failure, with cracks initiating at the sidewall–base slab interface. Also, the sidewall and base slab are interconnected through semi-grouting sleeves, while the concrete bonding is achieved via grouting and surface chiseling at the joint interface. The results indicated that the innovative concrete joint connection exhibits satisfied seismic performance. The shear-resistant steel plate significantly improves shear strength and enhances water sealing. Compared with cast-in-place specimens, the prefabricated joint shows a 16.04% lower equivalent viscous damping coefficient during failure due to reinforcement slippage, while achieving 16.34% greater cumulative energy dissipation and 52.00% higher ductility. These findings provide theoretical and experimental support for the broader adoption of prefabricated channels in water conservancy engineering.
ISSN:2075-5309

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