Numerical simulation of gusset plate connections with rectangular hollow section shape brace under quasi-static cyclic loading
In concentrically braced frames, gusset plate connections to rectangular hollow section braces are fabricated using welds to connect the gusset plate to both brace and flanges of the beam and of the column framing into the brace. The beam-to-column connection at the gusset plate is either welded or...
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Veröffentlicht in: | Journal of constructional steel research 2012-03, Vol.70, p.177-189 |
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Sprache: | eng |
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Zusammenfassung: | In concentrically braced frames, gusset plate connections to rectangular hollow section braces are fabricated using welds to connect the gusset plate to both brace and flanges of the beam and of the column framing into the brace. The beam-to-column connection at the gusset plate is either welded or bolted. However, past experimental studies have indicated that undesirable failure modes could occur in the gusset plate even when using a linear clearance rule in the design of the gusset plate, especially when connecting hollow rectangular shapes.
For these reasons, this study investigates through numerical analyses the local seismic performance of gusset plate connections with fully restrained beam-to-column connections as well as partially-restrained bolted connections. The latter are provided at the outside corner of the gusset plate, away from the face of the column, in order to facilitate the beam rotation at the bolted connection upon continued lateral deformation. The main goal of the study of the local performance of gusset plate connections is to validate the design procedure presented in this paper; to compare the various clearance rules proposed in the literature and to propose an alternative clearance rule to the linear clearance rule.
The local performance is examined through detailed finite element models of a braced bay located at the ground floor of a four storey concentrically braced frame using the MIDAS finite element program. Finally, local performance of the models is compared in terms of strain concentrations in gusset plates, beams and columns.
► Local performance of the gusset plate connections through detailed FE models. ► Comparisons between various clearance rules. ► Effects of weld size, beam-to-column connection details and loading history. ► Desirable yield mechanisms and prevention of undesirable failure modes. |
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ISSN: | 0143-974X 1873-5983 |
DOI: | 10.1016/j.jcsr.2011.09.010 |