Modern design standards for reinforced concrete (r.c.) buildings allow the achievement of ductile structures, able to globally dissipate seismic energy through the development of plastic deformations located in the dissipative regions (i.e. plastic hinges). The hysteretic capacity of r.c. structures is related to the ability of reinforcing steel bars to sustain many cycles of high plastic deformations without the exhibition significant decrease of strength and stiffness; this condition, typically due to cyclic/seismic action, shall be widely investigated in order to obtain a full and detailed knowledge of the structural behaviour of modern r.c. buildings. In the present paper, elaborated inside the European research project “Rusteel”, the evaluation of the seismic ductile demand on steel reinforcing bars due to real earthquake events was carried out. Representative r.c. case study buildings were designed following the actual European and Italian prescriptions and analyzed using the Incremental Dynamic Analysis technique for the assessment of the behaviour under real seismic events. The elaboration of a simplified mechanical model for the steel reinforcing bars, calibrated on the basis of experimental monotonic and cyclic tests, allowed the evaluation of the effective level of deformation and energy dissipation required by earthquakes and the assessment of the ability of the actual European production to satisfy the effective seismic ductile requirements. © 2014, Springer Science+Business Media Dordrecht.

Seismic demand on steel reinforcing bars in reinforced concrete frame structures / Braconi, A.; Braga, F.; Caprili, S; Gigliotti, Rosario; Salvatore, W.. - In: BULLETIN OF EARTHQUAKE ENGINEERING. - ISSN 1570-761X. - 12:6(2014), pp. 2633-2664. [10.1007/s10518-014-9596-y]

Seismic demand on steel reinforcing bars in reinforced concrete frame structures

Braga, F.;GIGLIOTTI, Rosario;Salvatore, W.
2014

Abstract

Modern design standards for reinforced concrete (r.c.) buildings allow the achievement of ductile structures, able to globally dissipate seismic energy through the development of plastic deformations located in the dissipative regions (i.e. plastic hinges). The hysteretic capacity of r.c. structures is related to the ability of reinforcing steel bars to sustain many cycles of high plastic deformations without the exhibition significant decrease of strength and stiffness; this condition, typically due to cyclic/seismic action, shall be widely investigated in order to obtain a full and detailed knowledge of the structural behaviour of modern r.c. buildings. In the present paper, elaborated inside the European research project “Rusteel”, the evaluation of the seismic ductile demand on steel reinforcing bars due to real earthquake events was carried out. Representative r.c. case study buildings were designed following the actual European and Italian prescriptions and analyzed using the Incremental Dynamic Analysis technique for the assessment of the behaviour under real seismic events. The elaboration of a simplified mechanical model for the steel reinforcing bars, calibrated on the basis of experimental monotonic and cyclic tests, allowed the evaluation of the effective level of deformation and energy dissipation required by earthquakes and the assessment of the ability of the actual European production to satisfy the effective seismic ductile requirements. © 2014, Springer Science+Business Media Dordrecht.
2014
Cyclic behaviour; Deformation; Dissipated energy density; Ductility demand; Incremental Dynamic Analysis; Civil and Structural Engineering; Building and Construction; Geotechnical Engineering and Engineering Geology; Geophysics
01 Pubblicazione su rivista::01a Articolo in rivista
Seismic demand on steel reinforcing bars in reinforced concrete frame structures / Braconi, A.; Braga, F.; Caprili, S; Gigliotti, Rosario; Salvatore, W.. - In: BULLETIN OF EARTHQUAKE ENGINEERING. - ISSN 1570-761X. - 12:6(2014), pp. 2633-2664. [10.1007/s10518-014-9596-y]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11573/908904
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