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Rotational components of near-fault earthquakes effects on triple concave friction pendulum base-isolated asymmetric structures
HighlightsBehavior of base-isolated structures in the presence of all 6 components of earthquakes.The role of mass eccentricity in amplifying the rotational components’ effect.Study of different TCFP bearings with various effective periods and effective damping.Investigation on various slenderness and aspect ratios of superstructure.
AbstractIn this paper, attempts are made to demonstrate the effects of the rotational components of near-fault ground motions on asymmetric base-isolated structures. The effects of mass eccentricity in intensifying the impact of rotational components are investigated as well. A reasonable variety of superstructures with different aspect and slenderness ratios is considered. Three-dimensional models of superstructures with linear behavior mounted on nonlinear TCFP isolators with various effective periods and damping are studied elaborately. Base shear, isolator displacement, base torsional angle and roof acceleration are selected as prominent responses of base-isolated structures. Results demonstrate that rotational components play an essential role in raising the structural responses. Furthermore, the effects of mass eccentricity are notable. Structures with an aspect ratio in plan equal to 3, the roof acceleration can increase to 255% in the presence of rotational components and mass eccentricity simultaneously. In similar conditions, the base shear of a 9-story building enhances 135%. Generally, the torsional component of earthquake affects the isolator displacement, base torsional angle and roof acceleration, while the base shear is influenced by the rocking components. It is revealed that the effects of mass eccentricity on the isolator displacement could be ignored.
Rotational components of near-fault earthquakes effects on triple concave friction pendulum base-isolated asymmetric structures
HighlightsBehavior of base-isolated structures in the presence of all 6 components of earthquakes.The role of mass eccentricity in amplifying the rotational components’ effect.Study of different TCFP bearings with various effective periods and effective damping.Investigation on various slenderness and aspect ratios of superstructure.
AbstractIn this paper, attempts are made to demonstrate the effects of the rotational components of near-fault ground motions on asymmetric base-isolated structures. The effects of mass eccentricity in intensifying the impact of rotational components are investigated as well. A reasonable variety of superstructures with different aspect and slenderness ratios is considered. Three-dimensional models of superstructures with linear behavior mounted on nonlinear TCFP isolators with various effective periods and damping are studied elaborately. Base shear, isolator displacement, base torsional angle and roof acceleration are selected as prominent responses of base-isolated structures. Results demonstrate that rotational components play an essential role in raising the structural responses. Furthermore, the effects of mass eccentricity are notable. Structures with an aspect ratio in plan equal to 3, the roof acceleration can increase to 255% in the presence of rotational components and mass eccentricity simultaneously. In similar conditions, the base shear of a 9-story building enhances 135%. Generally, the torsional component of earthquake affects the isolator displacement, base torsional angle and roof acceleration, while the base shear is influenced by the rocking components. It is revealed that the effects of mass eccentricity on the isolator displacement could be ignored.
Rotational components of near-fault earthquakes effects on triple concave friction pendulum base-isolated asymmetric structures
Tajammolian, H. (Autor:in) / Khoshnoudian, F. (Autor:in) / Loghman, V. (Autor:in)
Engineering Structures ; 142 ; 110-127
20.03.2017
18 pages
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
| British Library Online Contents | 2018
Torsionally Seismic Behavior of Triple Concave Friction Pendulum Bearing
| SAGE Publications | 2015