Development of the Design of Eccentrically Braced Frames with Replaceable Shear Links

• Main Author: Mansour, Nabil
• Other Authors: Christopoulos, Constantin
• Language: en_ca
• Published: 2010
• Subjects: eccentrically braced steel frames; shear link; replaceable link; seismic fuse; bolted connection; inelastic rotations; residual drifts; aftershock; bolt bearing; seismic design; cyclic full scale testing; 0543
• Online Access: http://hdl.handle.net/1807/26371

In current design of steel eccentrically braced frames (EBFs), the yielding link is coupled with the floor beam. This often results in oversized link elements, which leads to over-designed structures and foundations. In addition, the beams are expected to sustain significant damage through repeated inelastic deformations under design level earthquakes, and thus the structure may require extensive repair or need to be replaced. These drawbacks can be mitigated by designing EBFs with replaceable shear links. Two different replaceable link types with alternate section profiles, connection configurations, welding details and intermediate stiffener spacing were tested. A total of 13 cyclic quasi-static full-scale cyclic tests were performed, which included tests on eccentrically braced frames with the replaceable shear links, to study their inelastic seismic performance. The links exhibited a very good ductile behaviour, developing stable and repeatable yielding. Additional inelastic rotation capacity can be achieved with bolted replaceable links when allowing bolt bearing deformations to occur. The on-site replaceability of the link sections is confirmed even in the presence of residual deformations of 0.5% drift.