Seismic performance of steel reinforced ultra high-strength concrete composite frame joints

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To investigate the seismic performance of a composite frame comprised of steel reinforced ultra high-strength concrete (SRUHSC) columns and steel reinforced concrete (SRC) beams, six interior frame joint specimens were designed and tested under low cyclically lateral load.The effects of the axial load ratio and volumetric stirrup ratio were studied on the characteristics of the frame joint performance including crack pattern, failure mode, ductility, energy dissipation capacity, strength degradation and rigidity degradation.It was found that all joint specimens behaved in a ductile manner with flexural-shear failure in the joint core region while plastic hinges appeared at the beam ends.The ductility and energy absorption capacity of joints increased as the axial load ratio decreased and the volumetric stirrup ratio increased.The displacement ductility coefficient and equivalent damping coefficient of the joints fell between the corresponding coefficients of the steel reinforced concrete (SRC) frame joint and RC frame joint.The axial load ratio and volumetric stirrup ratio have less influence on the strength degradation and more influence on the stiffness degradation.The stiffness of the joint degrades more significantly for a low volumetric stirrup ratio and high axial load ratio.The characteristics obtained from the SRUHSC composite frame joint specimens with better seismic performance may be a useful reference in future engineering applications. To investigate the seismic performance of a composite frame comprised of steel reinforced ultra high-strength concrete (SRUHSC) columns and steel reinforced concrete (SRC) beams, six interior frame joint specimens were designed and tested under low cyclically lateral load. The effects of the axial load ratio and volumetric stirrup ratio were studied on the characteristics of the frame joint performance including crack pattern, failure mode, ductility, energy dissipation capacity, strength degradation and rigidity degradation. It was found that all of the joint specimens behaved in a ductile manner with flexural -shear failure in the joint core region while plastic hinges appeared at the beam ends. the ductility and energy absorption capacity of joints increased as the axial load ratio decreased and the volumetric stirrup ratio increased. displacement coefficient of friction and equivalent damping coefficient of joints fell between the corresponding coefficients of the steel reinforced concre te (SRC) frame joint and RC frame joint. The axial load ratio and volumetric stirrup ratio have less influence on the strength degradation and more influence on the stiffness degradation. stiffness, the joint degrades more significantly for a low volumetric stirrup ratio and high axial load ratio. The characteristics obtained from the SRUHSC composite frame joint specimens with better seismic performance may be a useful reference in future engineering applications.
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