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- Title
Parametric Study on Self-centering Precast Concrete Frames with Hysteretic Dampers.
- Authors
Yadong Li; Fangfang Geng; Youliang Ding; Libin Wang
- Abstract
The self-centering precast concrete frame structure combines the advantages of industrialization and low earthquake damage, and its energy dissipation capacity and seismic performance have always been the focus of research. This paper proposed a kind of selfcentering precast concrete frame with hysteretic dampers (SCPCHD). Its modular design makes the energy dissipation device and components easy to repair and replace. In order to obtain the optimal design, the finite element models of SCPCHD frames with different layout types of post-tensioned (PT) tendons and different shapes of hysteretic dampers are established, and the elastoplastic dynamic time-history analyses are carried out. The results show that the layout types and vertical margin of PT tendons have little effect on the displacement response of the frame structure. Compared to linear PT tendons, polygonal PT tendons can better bear the bending moment of the beam and reduce the stress of longitudinal reinforcements in the beam. The reduce effect of shortening the vertical margin on the tensile damage of beam concrete is obvious in the frame with polygonal PT tendons, but not obvious in the frame with linear PT tendons. Rational design of the prestressing force also plays a crucial role in the energy dissipation capacity of SCPCHD frames.
- Subjects
PRECAST concrete; TENDONS; CONCRETE beams; EARTHQUAKE damage; SPARE parts; ECCENTRIC loads; BENDING moment
- Publication
Periodica Polytechnica: Civil Engineering, 2021, Vol 65, Issue 3, p810
- ISSN
0553-6626
- Publication type
Article
- DOI
10.3311/PPci.15279