eprintid: 10087625
rev_number: 15
eprint_status: archive
userid: 608
dir: disk0/10/08/76/25
datestamp: 2019-12-10 11:33:13
lastmod: 2020-02-12 16:14:40
status_changed: 2019-12-10 11:33:13
type: proceedings_section
metadata_visibility: show
creators_name: Freddi, F
creators_name: Dimopoulos, C
creators_name: Karavasilis, T
title: Rocking Damage-Free Steel Column Base with Friction Devices: Design, Numerical and Experimental Evaluation
ispublished: pub
divisions: UCL
divisions: A01
divisions: B04
divisions: C05
divisions: F44
keywords: Damage-free column base; rocking; steel frames; seismic design; resilience.
note: This version is the version of record. For information on re-use, please refer to the publisher’s terms and conditions.
abstract: Conventional seismic-resistant structures, such as steel moment resisting frames, are designed to experience
significant inelastic deformations under strong earthquakes. Inelastic deformations result in damage of structural
members and residual interstory drifts, which lead to high repair costs and disruption of the building use or
occupation. The aforementioned socio-economic risks highlight the need for widespread implementation of minimaldamage structures, which can reduce both repair costs and downtime. Examples of such structures include steel
frames equipped with self-centering beam-column connections, structural fuses, passive energy dissipation devices,
self-centering braces, and others. These earthquake-resilient steel frame typologies have been extensively studied
during the last decade but little attention has been paid to the behavior of their column bases. Conventional steel
column bases are susceptible to experience non-repairable damage significantly affecting the resilience of the entire
structure. The present paper presents an innovative rocking damage-free self-centering steel column base and
summarize the results of the analytical, numerical and experimental studies. The proposed column base uses posttensioned high strength steel bars and friction devices respectively to control the rocking behavior and to dissipate
the seismic energy. The moment-rotation behaviors of the proposed column base can be easily described by using
simple analytical equations allowing the definition of a design procedure for the calibration of the main design
parameters with the aim of achieving the damage-free behavior, the self-centering capability and an adequate energy
dissipation capacity. A three-dimensional non-linear finite element model of the column base was developed in
ABAQUS in order to investigate the local behavior of the components, to validate the moment-rotation analytical
equations and to demonstrate the efficiency of the design procedure. On the other hand, a simplified model for the
column base was developed in OpenSees and allow to investigate the effects of the proposed column base on a case
study building. Nonlinear dynamic analyses show that the rocking column base fully protects the first story columns
from yielding and eliminate the 1
st story residual story drift without any detrimental effect on peak story drifts. In
addition, an experimental campaign under monotonic and cyclic load protocols allows to calibrate the numerical
models and further confirms the damage-free behavior and the high potentials of the proposed column base to be
used in the design of highly resilient steel structures.
date: 2019-09-19
date_type: published
publisher: ANIDIS
official_url: http://convegno.anidis.it/index.php/anidis/2019
oa_status: green
full_text_type: pub
language: eng
primo: open
primo_central: open_green
verified: verified_manual
elements_id: 1729001
lyricists_name: Freddi, Fabio
lyricists_id: FFRED33
actors_name: Freddi, Fabio
actors_id: FFRED33
actors_role: owner
full_text_status: public
place_of_pub: Ascoli Piceno, Italy
event_title: XVIII National Conference ANIDIS, L'Ingegneria sismica in Italia
event_location: Ascoli Piceno, Italy
event_dates: 15 September 2019 - 15 September 2019
institution: XVIII National Conference ANIDIS, L'Ingegneria sismica in Italia
book_title: XVIII National Conference ANIDIS, L'Ingegneria sismica in Italia Proceedings
citation:        Freddi, F;    Dimopoulos, C;    Karavasilis, T;      (2019)    Rocking Damage-Free Steel Column Base with Friction Devices: Design, Numerical and Experimental Evaluation.                     In:  XVIII National Conference ANIDIS, L'Ingegneria sismica in Italia Proceedings.    ANIDIS: Ascoli Piceno, Italy.       Green open access   
 
document_url: https://discovery.ucl.ac.uk/id/eprint/10087625/1/Freddi%20et%20al.%202019_ANIDIS_2019_Paper%20CB_v3.pdf