Journal of South China University of Technology(Natural Science) >
Experimental Study on Seismic Performance of Chevron Braced Steel Frames with Replaceable Energy Dissipation Joints
Received date: 2024-09-11
Online published: 2025-02-25
Supported by
the Guangdong S & T Program(2020B0202010008)
To achieve rapid post-earthquake repair of structures, chevron braced steel frames with replaceable energy-dissipating joints was proposed based on the design concepts of controllable damage and replaceable energy dissipating components. The replaceable energy-dissipating joint consists of two double-U-shaped metal dissipaters, a gusset plate, a bracing end plate, and high-strength bolts. To investigate the seismic performance and post-earthquake reparability of the structure, quasi-static tests and post-repair quasi-static tests were conducted on a half-scale, single-story, single span substructure specimen. The hysteresis curves, skeleton curves, stress-strain curves and ductility indicators of the specimens were studied and compared between the initial and post-repair loading tests. The results show that the specimens exhibited full hysteresis loops and ideal energy dissipation capacity in both tests. Plastic damage was mainly concentrated at the replaceable energy-dissipating joints, while the main structure remained largely elastic. The initial loading test was terminated when the interstory drift angle reached 0.83%, with a residual drift angle of 0.28%. After replacing the energy-dissipating joints, the repaired structure exhibited mechanical performance similar to that before repair, with good agreement in the hysteresis curves, skeleton curves, and stiffness degradation curves. The simplified analytical models for chevron braced steel frames with replaceable energy-dissipating joints were established. Based on deformation compatibility relationships, a formula for calculating the elastic lateral stiffness of the structure was derived, and a formula for calculating the structural bearing capacity at the yielding of the double-U-shaped metal dissipaters was proposed. The calculated elastic lateral stiffness differed from the experimental results by a maximum of 3.72%, and the calculated horizontal bearing capacity at the yielding of the double-U-shaped metal dampers differed from the experimental results by a maximum of 9.41%.
MA Hongwei , LI Ming , XIONG Wei , HUANG Zhonghai , XU Jiaxin , HE Wenhui . Experimental Study on Seismic Performance of Chevron Braced Steel Frames with Replaceable Energy Dissipation Joints[J]. Journal of South China University of Technology(Natural Science), 2025 , 53(7) : 126 -138 . DOI: 10.12141/j.issn.1000-565X.240454
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