Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Mechanical performance of sustainable modular prefabricated composite shear panels under cyclic loading
Abstract This study focuses on the seismic pxerformance of a new sustainable modular prefabrication composite shear panel (MPCSP) system. 1:3 scaled MPCSP specimens with vertial, horizontal and cross assembly ways of the modulars are investigated experimentally under quasi-static loading. Finite element(FE) model is validated with the experimental data and then numerical analyses of 44 computional cases with different parameters of the vertical assembled MPCSP system are conducted for systematic discussion on mechanical characteristics of the investigated models. It shows that the new sustainable prefabrication system is of excellent seismic performance, especially for the vertical assembled MPCSP system(MPCSP-V). Numerical analysis and tests coincide reasonably well with each other. The best seismic performance is achieved at an aspect ratio of 1 for the MPCSP-V system. Design parameters, such as height-thickness ratio of steel plate and bolt distance, have significant influence on the mechanical performance of the system. The effect of the distance of bolts, the spacing between concrete cover plates (RCCPs) and connection steel plates (CSPs), and the thickness of CSP are more significant on the mechanical properties of MPCSP system, while the effect of the bolt layout and the thickness of RCCP are shown to be less significant. The proposed formulas of three-line constitutive law and shearing capacity can well capture key performance index of shear resistance and stiffness at yield, peak and ultimate points.
Graphical abstract New sustainable modular prefabrication composite shear wall (MPCSP) system is proposed. To fully understand the general mechanical characteristics of MPCSP system, the system with three assembly ways is investigated experimentally under quasi-static loading, and then parametric analysis is carried out. Display Omitted
Highlights The modular prefabrication composite shear wall system with vertical assembly way (MPCSP-V) has the best seismic performance. The superior mechanical behavior is achieved at an aspect ratio of 1 for the MPCSP-V system. The effect of the D b, D s and T s of CSP are significant on the mechanical properties of MPCSP system. The bolt layout and the thickness of RCCP are shown to be less significant. The proposed constitutive model can capture the mechanical behaviors of MPCSP system.
Mechanical performance of sustainable modular prefabricated composite shear panels under cyclic loading
Abstract This study focuses on the seismic pxerformance of a new sustainable modular prefabrication composite shear panel (MPCSP) system. 1:3 scaled MPCSP specimens with vertial, horizontal and cross assembly ways of the modulars are investigated experimentally under quasi-static loading. Finite element(FE) model is validated with the experimental data and then numerical analyses of 44 computional cases with different parameters of the vertical assembled MPCSP system are conducted for systematic discussion on mechanical characteristics of the investigated models. It shows that the new sustainable prefabrication system is of excellent seismic performance, especially for the vertical assembled MPCSP system(MPCSP-V). Numerical analysis and tests coincide reasonably well with each other. The best seismic performance is achieved at an aspect ratio of 1 for the MPCSP-V system. Design parameters, such as height-thickness ratio of steel plate and bolt distance, have significant influence on the mechanical performance of the system. The effect of the distance of bolts, the spacing between concrete cover plates (RCCPs) and connection steel plates (CSPs), and the thickness of CSP are more significant on the mechanical properties of MPCSP system, while the effect of the bolt layout and the thickness of RCCP are shown to be less significant. The proposed formulas of three-line constitutive law and shearing capacity can well capture key performance index of shear resistance and stiffness at yield, peak and ultimate points.
Graphical abstract New sustainable modular prefabrication composite shear wall (MPCSP) system is proposed. To fully understand the general mechanical characteristics of MPCSP system, the system with three assembly ways is investigated experimentally under quasi-static loading, and then parametric analysis is carried out. Display Omitted
Highlights The modular prefabrication composite shear wall system with vertical assembly way (MPCSP-V) has the best seismic performance. The superior mechanical behavior is achieved at an aspect ratio of 1 for the MPCSP-V system. The effect of the D b, D s and T s of CSP are significant on the mechanical properties of MPCSP system. The bolt layout and the thickness of RCCP are shown to be less significant. The proposed constitutive model can capture the mechanical behaviors of MPCSP system.
Mechanical performance of sustainable modular prefabricated composite shear panels under cyclic loading
Wang, Dayang (Autor:in) / Zhang, Yongshan (Autor:in) / Zhu, Yong (Autor:in) / Wu, Chengqing (Autor:in) / Zhou, Yun (Autor:in) / Han, Qihao (Autor:in)
23.10.2020
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
Experimental investigation of composite shear panels under cyclic loading
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