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An inelastic analysis of the overall response of high-rise frame-shear wall hybrid structures

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ã€Authorã€‘ Xia Yiming~1 Wang Xiaoqian~2(1.Nanjing University of Aeronautics and Astronautics,Nanjing 210016,China;2.Jiangsu Provincial Communication Planning & Design Institute,Nanjing 210005,China)

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ã€Abstractã€‘ A geometric and material nonlinear analysis of a hybrid structure is presented in this paper.For the steel frame,a stability function element together with a spatial plastic hinge model is employed to formulate the elastic-plastic incremental equilibrium equations.The slab of the structure is modeled by three-node plane stress elements and the corresponding equilibrium equations are then established.Moreover,the shear walls are modeled by equivalent beam elements,including the effects of both shear and axial deformations.By doing so,the elastic-plastic incremental equilibrium equations are derived by using the tri-linear M-Î¦ relationship for the cross section of the equivalent beam element and the relationship between elastic and plastic rotations at both element ends.As a result,the global elastic-plastic increment equilibrium equations for the hybrid structure can thus be formulated.Finally,the reliability of the proposed method is verified,using the results of a numerical example from the literature.It was found that the most critically stressed locations of the structure are near the bottom of the shear wall in the first floor and the connecting ends of the steel beams with the shear wall.æ›´å¤š è¿˜åŽŸ