Vibration mitigation of a bridge cable using a nonlinear energy sink: design and experiment

Vibration mitigation of a bridge cable using a nonlinear energy sink: design and experiment

This work deals with the design and experiment of a cubic nonlinear energy sink (NES) for horizontal vibration mitigation of a bridge cable. Modal analysis of horizontal linear modes of the cable is experimentally performed using accelerometers and displacement sensors. A theoretical simplified 2-do...

Full description

Bibliographic Details
Main Authors: Weiss Mathieu, Vaurigaud Bastien, Savadkoohi Alireza Ture, Lamarque Claude-Henri
Format: Article
Language:English
Published: EDP Sciences 2015-01-01
Series:MATEC Web of Conferences
Online Access:http://dx.doi.org/10.1051/matecconf/20152406007
id doaj-22350f1eba7c4e688a9c926a7ffa8c31
record_format Article
spelling doaj-22350f1eba7c4e688a9c926a7ffa8c312021-02-02T05:13:34ZengEDP SciencesMATEC Web of Conferences2261-236X2015-01-01240600710.1051/matecconf/20152406007matecconf_evaces2015_06007Vibration mitigation of a bridge cable using a nonlinear energy sink: design and experimentWeiss MathieuVaurigaud Bastien0Savadkoohi Alireza Ture1Lamarque Claude-Henri2Cerema, Direction Territoriale Sud-Ouest DLBUniversité de Lyon, Ecole Nationale des Travaux Publics de l’Etat, LGCB and LTDS UMR CNRS 5513Université de Lyon, Ecole Nationale des Travaux Publics de l’Etat, LGCB and LTDS UMR CNRS 5513This work deals with the design and experiment of a cubic nonlinear energy sink (NES) for horizontal vibration mitigation of a bridge cable. Modal analysis of horizontal linear modes of the cable is experimentally performed using accelerometers and displacement sensors. A theoretical simplified 2-dof model of the coupled cable-NES system is used to analytically design the NES by mean of multi-time scale systems behaviours and detection its invariant manifold, equilibrium and singular points which stand for periodic and strongly modulated regimes, respectively. Numerical integration is used to confirm the efficiency of the designed NES for the system under step release excitation. Then, the prototype system is built using geometrical cubic nonlinearity as the potential of the NES. Efficiency of the prototype system for mitigation of horizontal vibrations of the cable under for step release and forced excitations is experimentally demonstrated.http://dx.doi.org/10.1051/matecconf/20152406007
collection DOAJ
language English
format Article
sources DOAJ
author Weiss Mathieu
Vaurigaud Bastien
Savadkoohi Alireza Ture
Lamarque Claude-Henri
spellingShingle Weiss Mathieu
Vaurigaud Bastien
Savadkoohi Alireza Ture
Lamarque Claude-Henri
Vibration mitigation of a bridge cable using a nonlinear energy sink: design and experiment
MATEC Web of Conferences
author_facet Weiss Mathieu
Vaurigaud Bastien
Savadkoohi Alireza Ture
Lamarque Claude-Henri
author_sort Weiss Mathieu
title Vibration mitigation of a bridge cable using a nonlinear energy sink: design and experiment
title_short Vibration mitigation of a bridge cable using a nonlinear energy sink: design and experiment
title_full Vibration mitigation of a bridge cable using a nonlinear energy sink: design and experiment
title_fullStr Vibration mitigation of a bridge cable using a nonlinear energy sink: design and experiment
title_full_unstemmed Vibration mitigation of a bridge cable using a nonlinear energy sink: design and experiment
title_sort vibration mitigation of a bridge cable using a nonlinear energy sink: design and experiment
publisher EDP Sciences
series MATEC Web of Conferences
issn 2261-236X
publishDate 2015-01-01
description This work deals with the design and experiment of a cubic nonlinear energy sink (NES) for horizontal vibration mitigation of a bridge cable. Modal analysis of horizontal linear modes of the cable is experimentally performed using accelerometers and displacement sensors. A theoretical simplified 2-dof model of the coupled cable-NES system is used to analytically design the NES by mean of multi-time scale systems behaviours and detection its invariant manifold, equilibrium and singular points which stand for periodic and strongly modulated regimes, respectively. Numerical integration is used to confirm the efficiency of the designed NES for the system under step release excitation. Then, the prototype system is built using geometrical cubic nonlinearity as the potential of the NES. Efficiency of the prototype system for mitigation of horizontal vibrations of the cable under for step release and forced excitations is experimentally demonstrated.
url http://dx.doi.org/10.1051/matecconf/20152406007
work_keys_str_mv AT weissmathieu vibrationmitigationofabridgecableusinganonlinearenergysinkdesignandexperiment
AT vaurigaudbastien vibrationmitigationofabridgecableusinganonlinearenergysinkdesignandexperiment
AT savadkoohialirezature vibrationmitigationofabridgecableusinganonlinearenergysinkdesignandexperiment
AT lamarqueclaudehenri vibrationmitigationofabridgecableusinganonlinearenergysinkdesignandexperiment
_version_ 1724304042469883904

Similar Items