Seismic Performance of a Multi-Story Composite Frame with Partial Shear Interaction and Partial Strength Joints

Marco Valente

doi:10.4028/www.scientific.net/AMR.602-604.1579

Paper Titles

Assessment of the Seismic Vulnerability of Existing RC Buildings and Effect of the Irregular Position of the Masonry Panels on the Fragile Collapse Mechanisms
p.1555

Behaviour of Shearwalls with Slabs and Openings
p.1566

Study on the Grouting Reinforcement and Stability of a Tailings Initial Dam
p.1570

Retrofitting Options for Un-Reinforced Brick Wall Subjected to Impact Load
p.1574

Seismic Performance of a Multi-Story Composite Frame with Partial Shear Interaction and Partial Strength Joints
p.1579

Seismic Strengthening of Non-Ductile R/C Structures Using Infill Wall or Ductile Steel Bracing
p.1583

Study on Sealing Technology for Micro-Arc Oxidation Ceramic Coatings of Aluminium
p.1591

Analysis on Functionally Graded Material Coating Interface Crack
p.1596

Investigation of Surface Roughness in Hardened GCr15 Steel Turning with Mixed Ceramic Insert
p.1600

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Seismic Performance of a Multi-Story Composite Frame with Partial Shear Interaction and Partial Strength Joints

Abstract:

This study investigates the influence of partial shear interaction and partial strength beam-to-column joints on the seismic performance of a multi-story composite frame. The moment-rotation relationship of the beam-to-column joints and the force-slip curve of the beam-to-slab connections have been calibrated on the basis of available experimental tests. The results of the numerical investigations show that the energy dissipation of the composite frame increases by reducing the shear connection degree. The shear connection degree has a significant effect on the total dissipated energy in case of rigid joints, whereas in case of partial strength joints the contribution of the joints to the dissipated energy is predominant. Low shear connection degrees can provide a source of dissipated hysteretic energy, above all in case of rigid joints, and can reduce the ductility demand on other parts of a composite frame, such as partial strength beam-to-column joints. However, the shear connection degree should be high enough in order to protect shear connectors from failure.