High-rise apartments of shear wall system are governed by flexural behavior like a cantilever beam. Installation of the damper-brace system in a structure governed by flexural behavior is not suitable. Because of relatively high lateral stiffness of the shear wall, a load is not concentrate on the brace and the brace cannot perform a role as a damping device. In this paper, a friction damper applying flexibility of shear wall is proposed in order to reduce the deformation of a structure. To evaluate performance of the proposed friction damper, nonlinear time history analysis is executed by SeismoStruct analysis program and MVLEM(Multi Vertical Linear Element Model) be used for simulating flexural behavior of the shear wall. It is found that control performance of the proposed friction damper is superior to one of a coupled wall with rigid beam. In conclusion, this study verified that the optimal control performance of the proposed friction damper is equal to 45% of the maximum shear force inducing in middle-floor beam with rigid beam .

• Chung, Hee-San(Graduate Student, Department of Architectural Engineering, Dankook University)
• Moon, Byoung-Wook(Ph.D candidate, Department of Architectural Engineering, Dankook University)
• Lee, Sung-Kyung(Research Professor, Department of Architectural Engineering, Dankook University)
• Park, Ji-Hun(Full-tìme Instructor, Department of Architectural Engineering, University of Incheon)
• Min, Kyung-Won(Professor, Department of Architectural Engineering, Dankook University)