Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Proposed seismic design parameters for the moment-resisting knee-braced frame system
Highlights Seismic design parameters are proposed for the Moment-resisting Knee-braced Frame. The study is carried out within the framework of Canadian standards. All potential hazard sources expected on the Canadian west coast are considered. The MKF shall be designed as a moderately ductile system. Overstrength and ductility factors of 1.6 and 3.0 are proposed for the MKF system. The proposed seismic design parameters are verified by comprehensive nonlinear analyses.
Abstract This paper proposes and verifies the seismic design parameters, including overstrength-related force modification factor, ductility-related force modification factor, deflection amplification factor, and design period, for the steel Moment-resisting Knee-braced Frame (MKF) system. The building selected in this study is an office located in Vancouver, British Columbia, Canada, in which MKFs act as the lateral load-resisting system. 14 prototype frames spanning a wide range of geometrical configurations are designed following the requirements of the 2015 National Building Code (2015 NBC) of Canada. Nonlinear static analyses are carried out on the prototype frames to determine the preliminary ductility and overstrength factors. Six new MKFs (assessment frames) are designed using the proposed overstrength and ductility factors, and their seismic and collapse performances are examined by comprehensive numerical analyses, considering the effects of the potential sources of ground motion expected on the Canadian west coast, namely subduction intraslab, subduction interface and shallow crustal events. The results of this study suggest that the MKF system shall be designed as a moderately ductile system using overstrength and ductility factors of 1.60 and 3.0, respectively, with a height not exceeding 40 m in regions of high seismicity.
Proposed seismic design parameters for the moment-resisting knee-braced frame system
Highlights Seismic design parameters are proposed for the Moment-resisting Knee-braced Frame. The study is carried out within the framework of Canadian standards. All potential hazard sources expected on the Canadian west coast are considered. The MKF shall be designed as a moderately ductile system. Overstrength and ductility factors of 1.6 and 3.0 are proposed for the MKF system. The proposed seismic design parameters are verified by comprehensive nonlinear analyses.
Abstract This paper proposes and verifies the seismic design parameters, including overstrength-related force modification factor, ductility-related force modification factor, deflection amplification factor, and design period, for the steel Moment-resisting Knee-braced Frame (MKF) system. The building selected in this study is an office located in Vancouver, British Columbia, Canada, in which MKFs act as the lateral load-resisting system. 14 prototype frames spanning a wide range of geometrical configurations are designed following the requirements of the 2015 National Building Code (2015 NBC) of Canada. Nonlinear static analyses are carried out on the prototype frames to determine the preliminary ductility and overstrength factors. Six new MKFs (assessment frames) are designed using the proposed overstrength and ductility factors, and their seismic and collapse performances are examined by comprehensive numerical analyses, considering the effects of the potential sources of ground motion expected on the Canadian west coast, namely subduction intraslab, subduction interface and shallow crustal events. The results of this study suggest that the MKF system shall be designed as a moderately ductile system using overstrength and ductility factors of 1.60 and 3.0, respectively, with a height not exceeding 40 m in regions of high seismicity.
Proposed seismic design parameters for the moment-resisting knee-braced frame system
Mokhtari, Mahdi (Autor:in) / Imanpour, Ali (Autor:in)
Engineering Structures ; 276
13.11.2022
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
Analysis of Knee-Braced, x-braced Moment Frame for Ductility Based Seismic Design
| Springer Verlag | 2021