Near-fault (NF) ground motion having forward directivity and far-fault (FF) earthquakes can generate different responses on tall reinforced concrete cantilever walls. In this paper, the behavior of the core wall buildings were examined by performing nonlinear time history analyses on 20-story, 30-story and 40-story fiber element models. The concept of one, two, three and extended plastic hinge in the core walls subjected to the NF motions having forward directivity (pulse-like) and FF motion was studied by carrying out inelastic dynamic analysis. At the upper levels of the walls, NF pulse-like ground motions can produce considerably larger curvature ductility, inter-story drift and displacement demands as compared with the FF motions. A new approach was proposed to obtain the moment demand and reinforcement required to balance the curvature ductility demand along the height of a core wall.

• 出版日期2016-8-10