| Title |
Cyclic Behavior of Interior Joints in Post Tensioned Flat Plate Slab Systems |
| Authors |
Kee Seong-Hoon ; Han Sang-Whan ; Ha Sang-Su ; Cho Kyung-Hyun ; Lee Li-Hyung |
| Keywords |
Post-tensioned ; Flat Plate ; Connections ; Tendons ; Bottom Reinforcement ; Cyclic Behavior |
| Abstract |
In general, post tensioned (PT) flat plate slab systems have been used as a Gravity Load Resisting System (GLRS) in buildings. Thus, these systems should be constructed with Lateral Force Resisting Systems (LFRS) such as shear walls and moment resisting frames. When lateral loads such as winds or earthquakes occur, lateral load resisting systems undergo displacement by which connected gravity systems experience lateral displacement. Therefore, GLRS should have some lateral displacement capacity in order to hold gravity loads under severe earthquakes and winds. Since there are few researches on PT flat plate slab systems, behavior of the systems have not been well defined. This study investigated the cyclic behavior of post tensioned flat plate slab systems. For this purpose, an experimental test was carried out using 4 interior PT flat plate slab-column specimens. All specimens have bottom reinforcement in the slab around the slab-column connection. Test variables of this experimental study are vertical load level and tendon distribution patterns. |