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论文类型：期刊论文

发表时间：2018-10-01

发表刊物：ENGINEERING STRUCTURES

收录刊物：SCIE

卷号：172

页面范围：538-553

ISSN号：0141-0296

关键字：Rocking wall; Pin-supported wall-frame system; Dissipators; Equivalent linearization; Hysteresis-damped

摘要：This paper analytically investigates the design of supplemental metallic yielding dissipators to reduce the lateral displacements of pin-supported wall-frame (PWF) structures under high-intensity ground motions. The PWF system involves the use of a base-pinned structural wall to impose a first-mode dominant lateral drift profile on the coupled frame. Supplemental dissipative devices can be applied to increase the energy dissipation capacity of the coupled system by utilizing the relative displacements at the vertical wall-to-frame connections. This study proposes a displacement-based seismic design approach to determine the dissipator parameters so that the maximum roof drift of the structure under severe ground motions can be reduced to an allowable target roof drift. The validity of the proposed approach is verified based on nonlinear dynamic time-history analyses of three PWF structures with yielding dissipators. Besides, procedures to determine the minimum wall stiffness and strength are suggested for the preliminary design of the pin-supported wall. The dynamic behaviors of the example structures are critically evaluated, indicating that PWF system is suitable for the seismic retrofit project as well as for the development of novel sustainable earthquake resisting system.