Cyclic behavior of reinforced concrete cladding panels connected with energy dissipative steel cushions

•An energy-dissipative steel cushion (SC) connection device was applied to RC cladding panels.•The RC cladding panels exhibited seismic energy dissipation potential due to their special connections.•Consistent numerical modeling was performed to imitate the experimental response. Precast concrete st...

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Veröffentlicht in:	Engineering structures 2019-06, Vol.189, p.423-439
Hauptverfasser:	Karadoğan, Faruk, Yüksel, Ercan, Khajehdehi, Arastoo, Özkaynak, Hasan, Güllü, Ahmet, Şenol, Erkan
Format:	Artikel
Sprache:	eng
Schlagworte:	Cladding Cladding panel Concrete Concrete structures Connection device Cushions Earthquake damage Earthquakes Energy dissipation Mathematical models Panels Precast concrete Reinforced concrete Reinforcing steels Robustness (mathematics) Seismic activity Steel Steel cushion Steel structures Stiffness Structural damage
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container_title	Engineering structures
container_volume	189
creator	Karadoğan, Faruk Yüksel, Ercan Khajehdehi, Arastoo Özkaynak, Hasan Güllü, Ahmet Şenol, Erkan
description	•An energy-dissipative steel cushion (SC) connection device was applied to RC cladding panels.•The RC cladding panels exhibited seismic energy dissipation potential due to their special connections.•Consistent numerical modeling was performed to imitate the experimental response. Precast concrete structures show damage after the destructive earthquakes and indicate that the connections of reinforced concrete (RC) cladding panels might be inadequate. RC cladding panels greatly increase the lateral stiffness and strength of the building when they are rigidly connected to the structural system. However, this also increases the seismic requirements. Consequently, a robust mechanical connection device with energy-dissipating capability was produced for RC cladding panels. Extensive experimental and numerical studies on an energy-dissipative steel cushion (SC) connection device were carried out in the framework of the SAFECLADDING project. Cladding panel tests were conducted with various connection configurations. The fundamental variables are the location, quantity, and thickness of SCs used in the cladding systems. The test results demonstrate that the SCs used in panel-to-panel and panel-to-support connections made large contributions to the total energy dissipation capacity. The parameters of a numerical model were also evaluated to reproduce the experimental results.
doi_str_mv	10.1016/j.engstruct.2019.03.092
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subjects	Cladding Cladding panel Concrete Concrete structures Connection device Cushions Earthquake damage Earthquakes Energy dissipation Mathematical models Panels Precast concrete Reinforced concrete Reinforcing steels Robustness (mathematics) Seismic activity Steel Steel cushion Steel structures Stiffness Structural damage
title	Cyclic behavior of reinforced concrete cladding panels connected with energy dissipative steel cushions
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