Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Cyclic behavior of an energy dissipation system with steel dual-ring dampers (SDRDs)
Abstract In this paper, the energy absorption system of a steel dual-ring damper (SDRD) is presented and its cyclic behavior is studied analytically and numerically. The energy dissipation mechanism of the SDRD occurs through the formation of moment plastic hinges in steel rings. The purpose of this study is to provide an analytical relationship for estimating the yield strength, yield displacement, and elastic stiffness of the proposed SDRDs. An analytical relationship is presented for calculating the elastic stiffness of SDRDs using the structural analysis method. Also, using plastic analysis and considering the mechanism of plastic hinge formation, a relation has been obtained for estimating the yield strength and yield displacement of SDRDs. Extensive parametric studies have been carried out using a nonlinear finite element method to examine the accuracy of the obtained analytical relationships. The parametric studies include investigating the influence of thickness parameters as well as the inner and outer ring diameters of SDRDs. Nonlinear static analysis is employed to analyze finite element (FE) models under cyclic loading. Also, validation of the results of the finite element models is performed with experimental specimens. There is a good agreement between the results of yielding capacity, yielding displacement, and elastic stiffness of the analytical relationship and FE models parametric studies. The results of the parametric models and the proposed relationship reveal that with elevation of the steel ring diameter, the energy dissipation has increased. Also, as the diameter to thickness (D/t) ratio increases, ductility and equivalent viscous damping ratio are reduced.
Highlights Inuvative steel dual-ring dampers (SDRDs) was proposed. The cyclic behavior of SDRDs was investigated. The numerical model of SRD was developed to predict the hysteresis behavior. The effects of key parameters on the performance of the SDRDs were studied. Using the analytical method, was obtained the capacity of the SDRDs.
Cyclic behavior of an energy dissipation system with steel dual-ring dampers (SDRDs)
Abstract In this paper, the energy absorption system of a steel dual-ring damper (SDRD) is presented and its cyclic behavior is studied analytically and numerically. The energy dissipation mechanism of the SDRD occurs through the formation of moment plastic hinges in steel rings. The purpose of this study is to provide an analytical relationship for estimating the yield strength, yield displacement, and elastic stiffness of the proposed SDRDs. An analytical relationship is presented for calculating the elastic stiffness of SDRDs using the structural analysis method. Also, using plastic analysis and considering the mechanism of plastic hinge formation, a relation has been obtained for estimating the yield strength and yield displacement of SDRDs. Extensive parametric studies have been carried out using a nonlinear finite element method to examine the accuracy of the obtained analytical relationships. The parametric studies include investigating the influence of thickness parameters as well as the inner and outer ring diameters of SDRDs. Nonlinear static analysis is employed to analyze finite element (FE) models under cyclic loading. Also, validation of the results of the finite element models is performed with experimental specimens. There is a good agreement between the results of yielding capacity, yielding displacement, and elastic stiffness of the analytical relationship and FE models parametric studies. The results of the parametric models and the proposed relationship reveal that with elevation of the steel ring diameter, the energy dissipation has increased. Also, as the diameter to thickness (D/t) ratio increases, ductility and equivalent viscous damping ratio are reduced.
Highlights Inuvative steel dual-ring dampers (SDRDs) was proposed. The cyclic behavior of SDRDs was investigated. The numerical model of SRD was developed to predict the hysteresis behavior. The effects of key parameters on the performance of the SDRDs were studied. Using the analytical method, was obtained the capacity of the SDRDs.
Cyclic behavior of an energy dissipation system with steel dual-ring dampers (SDRDs)
Gorji Azandariani, Mojtaba (Autor:in) / Gorji Azandariani, Ali (Autor:in) / Abdolmaleki, Hamid (Autor:in)
11.05.2020
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
Cyclic behavior of seesaw energy dissipation system with steel slit dampers
| British Library Online Contents | 2016
Cyclic behavior of seesaw energy dissipation system with steel slit dampers
| Online Contents | 2016