AN EXPERIMENTAL STUDY ON VERTICAL LOAD RESISTANCE OF CFT COLUMN-FLAT PLATE JOINTS
The recent aim of the earthquake resistant design is not only to protect life in very severe earthquakes, but also to use the buildings again after the earthquakes with small repair cost. A building system consisted with coupled shear core walls with damper, CFT (Concrete Filled Steel Tube) columns, and flat plate slabs is one of the buildings having an ability of such demand. As floor load should be supported even in the large deformation at the CFT column-flat plate connection, it is required to avoid punching shear failure. To evaluate the vertical load resistance capacity of the newly designed CFT column-flat plate connection, experimental studies were carried out. The vertical force resisting mechanism of the joint zone is investigated and calculation can be made with fairly good accuracy by regarding a region with a shear force resisting vertical member as a truss system and regarding a region without such a member as an arch system. Vertical strength also can be calculated conservatively as a lower value of a simplified punching shear strength formula conforming to the ACI standard and a flexural yield strength value.
CFT Column Flat plate slab Joint Vertical strength Load resistance macro model
T. YAMAGUCHI K. SHIMAZAKI H. SATOU
Ando corporation, Tokyo, Japan Professor, Dept. of Architecture and Building Engineering, Kanagawa University, JAPAN Just corporation, Yokohama, Japan
国际会议
14th World Conference on Earthquake Engineering(第十四届国际地震工程会议)
北京
英文
2008-10-12(万方平台首次上网日期,不代表论文的发表时间)