Construction method to install earthquake resistant latticed wall in the existing building frames is effective, from the viewpoint of business continuity during construction, and from the viewpoint of transparency after completion. Furthermore, to reduce vibrations and noise during construction, it is desirable that welding or anchor bolt joining is not required between latticed wall and the existing building frames, and various methods have been used However, the current methods of retrofitting have uniform shapes of the brace, so the seismic performance and permeability are not efficient enough. In this study, a shape optimization approach is presented for improving mechanical property. The existing beams, columns, and the members in latticed wall are modeled using beam elements, and the contact between latticed wall and the existing building frames are evaluated using the penalty approach. It is shown that various shapes can be generated, by solving nonlinear programming problems considering structural weight of latticed wall and horizontal stif&iess of the frame.%本論で得られた成果は以下のようにまとめられる。 1.耐震補強格子壁に要求されるさまざまな力学性能や部材体積 を目的関数と制約条件に与えて最適化を実行することにより, それぞれの設計条件に対して最適な耐震補強格子壁の形状が得られる。
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