Abstract
Adjacent building blocks separated by thermal expansion joints are vulnerable to pounding during earthquakes. The specified Saudi building code minimum separation may be very large and does not necessarily eliminate pounding forces. This research discusses the feasibility of tying the adjacent building blocks with simple devices to mitigate structural pounding when separated by thermal joints. Six and twelve-story moment resistance frames of intermediate ductility were designed for seismic loads of moderate risk. The seismic response was studied for frames with variable separation distances in three cases related to thermal joint, code minimum separation, required separation to eliminate pounding force, and in a fourth case in which the tying device was used along with thermal separation. A linear elastic model was used to model the assigned gap links between the adjacent building blocks. The tying device was modeled with a tension-only hook element. Four normalized earthquake records were used with inelastic-time history analysis to assess the seismic response of the adjacent building blocks. The proposed tying devices reduced successfully the pounding forces by 40% to 60% for adjacent building blocks with installed thermal separations. Building damage as observed from damage index and the hysteretic response was not influenced by the pounding force, indicating that the tying may be used on existing buildings with thermal separation as a partial mitigation technique to reduce the pounding hazard in such cases. Further improvement on the tying device will increase the mitigation of the pounding hazard.
Highlights
Saudi Arabian cities exhibited a major development in the recent years and the demand for residential housing and highrise buildings is high
The proposed tying devices successfully reduced pounding forces from 40% to 60% for adjacent building blocks with 10mm separation comparing to adjacent building blocks without tying devices
Building damage as observed from damage index and hysteretic response was not influenced by pounding force in either case
Summary
Saudi Arabian cities exhibited a major development in the recent years and the demand for residential housing and highrise buildings is high. High-rise buildings require sophisticated designs since those flexible structures might include expansion joints that separate them from adjacent rigid structures. The difference in mass and stiffness between flexible and rigid structures might make them move out-of-phase during strong ground motion events This movement makes adjacent building blocks prone to pounding hazards. The minimum separation distance calculation is based on the Square Root Sum of Squares (SRSS) of maximum inelastic drifts of adjacent building blocks. Such separation distance might be wide and requires special architectural treatment to cover the gaps between the adjacent building blocks. The feasibility of tying building blocks with a simple tying device as a means of mitigating pounding and reducing the required separation was validated through the study of the seismic response of adjacent building blocks designed according to SBC requirements
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