Experimental Investigation on the Nonlinear Coupled Flutter Motion of a Typical Flat Closed-Box Bridge Deck

Experimental Investigation on the Nonlinear Coupled Flutter Motion of a Typical Flat Closed-Box Bridge Deck

The nonlinear post-flutter instabilities were experimentally investigated through two-degree-of-freedom sectional model tests on a typical flat closed-box bridge deck (width-to-depth ratio 9.14). Laser displacement sensors and piezoelectric force balances were used in the synchronous measurement of...

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Bibliographic Details
Main Authors: Guangzhong Gao, Ledong Zhu, Feng Wang, Hua Bai, Jianming Hao
Format: Article
Language:English
Published: MDPI AG 2020-01-01
Series:Sensors
Subjects:
nonlinear aeroelasticity
post flutter
limit cycle oscillation
closed box bridge section
wind tunnel
Online Access:https://www.mdpi.com/1424-8220/20/2/568
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spelling doaj-1ecd2ff423b844d99ff774f6dd4b95a02020-11-25T02:05:26ZengMDPI AGSensors1424-82202020-01-0120256810.3390/s20020568s20020568Experimental Investigation on the Nonlinear Coupled Flutter Motion of a Typical Flat Closed-Box Bridge DeckGuangzhong Gao0Ledong Zhu1Feng Wang2Hua Bai3Jianming Hao4Highway College, Chang’an University, Xi’an 710064, ChinaState Key Laboratory of Disaster Reduction in Civil Engineering, Tongji University, Shanghai 200092, ChinaHighway College, Chang’an University, Xi’an 710064, ChinaHighway College, Chang’an University, Xi’an 710064, ChinaHighway College, Chang’an University, Xi’an 710064, ChinaThe nonlinear post-flutter instabilities were experimentally investigated through two-degree-of-freedom sectional model tests on a typical flat closed-box bridge deck (width-to-depth ratio 9.14). Laser displacement sensors and piezoelectric force balances were used in the synchronous measurement of dynamic displacement and aerodynamic force. Beyond linear flutter boundary, the sectional model exhibited heave-torsion coupled limit cycle oscillation (LCOs) with an unrestricted increase of stable amplitudes with reduced velocity. The post-critical LCOs vibrated in a complex mode with amplitude-dependent mode modulus and phase angle. Obvious heaving static deformation was found to be coupled with the large-amplitude post-critical LCOs, for which classical quasi-steady theory was not applicable. The aerodynamic torsional moment and lift during post-critical LCOs were measured through a novel wind-tunnel technique by 4 piezoelectric force balances. The measured force signals were found to contain significantly higher-order components. The energy evolution mechanism during post-critical LCOs was revealed via the hysteresis loops of the measured force signals.https://www.mdpi.com/1424-8220/20/2/568nonlinear aeroelasticitypost flutterlimit cycle oscillationclosed box bridge sectionwind tunnel
collection DOAJ
language English
format Article
sources DOAJ
author Guangzhong Gao
Ledong Zhu
Feng Wang
Hua Bai
Jianming Hao
spellingShingle Guangzhong Gao
Ledong Zhu
Feng Wang
Hua Bai
Jianming Hao
Experimental Investigation on the Nonlinear Coupled Flutter Motion of a Typical Flat Closed-Box Bridge Deck
Sensors
nonlinear aeroelasticity
post flutter
limit cycle oscillation
closed box bridge section
wind tunnel
author_facet Guangzhong Gao
Ledong Zhu
Feng Wang
Hua Bai
Jianming Hao
author_sort Guangzhong Gao
title Experimental Investigation on the Nonlinear Coupled Flutter Motion of a Typical Flat Closed-Box Bridge Deck
title_short Experimental Investigation on the Nonlinear Coupled Flutter Motion of a Typical Flat Closed-Box Bridge Deck
title_full Experimental Investigation on the Nonlinear Coupled Flutter Motion of a Typical Flat Closed-Box Bridge Deck
title_fullStr Experimental Investigation on the Nonlinear Coupled Flutter Motion of a Typical Flat Closed-Box Bridge Deck
title_full_unstemmed Experimental Investigation on the Nonlinear Coupled Flutter Motion of a Typical Flat Closed-Box Bridge Deck
title_sort experimental investigation on the nonlinear coupled flutter motion of a typical flat closed-box bridge deck
publisher MDPI AG
series Sensors
issn 1424-8220
publishDate 2020-01-01
description The nonlinear post-flutter instabilities were experimentally investigated through two-degree-of-freedom sectional model tests on a typical flat closed-box bridge deck (width-to-depth ratio 9.14). Laser displacement sensors and piezoelectric force balances were used in the synchronous measurement of dynamic displacement and aerodynamic force. Beyond linear flutter boundary, the sectional model exhibited heave-torsion coupled limit cycle oscillation (LCOs) with an unrestricted increase of stable amplitudes with reduced velocity. The post-critical LCOs vibrated in a complex mode with amplitude-dependent mode modulus and phase angle. Obvious heaving static deformation was found to be coupled with the large-amplitude post-critical LCOs, for which classical quasi-steady theory was not applicable. The aerodynamic torsional moment and lift during post-critical LCOs were measured through a novel wind-tunnel technique by 4 piezoelectric force balances. The measured force signals were found to contain significantly higher-order components. The energy evolution mechanism during post-critical LCOs was revealed via the hysteresis loops of the measured force signals.
topic nonlinear aeroelasticity
post flutter
limit cycle oscillation
closed box bridge section
wind tunnel
url https://www.mdpi.com/1424-8220/20/2/568
work_keys_str_mv AT guangzhonggao experimentalinvestigationonthenonlinearcoupledfluttermotionofatypicalflatclosedboxbridgedeck
AT ledongzhu experimentalinvestigationonthenonlinearcoupledfluttermotionofatypicalflatclosedboxbridgedeck
AT fengwang experimentalinvestigationonthenonlinearcoupledfluttermotionofatypicalflatclosedboxbridgedeck
AT huabai experimentalinvestigationonthenonlinearcoupledfluttermotionofatypicalflatclosedboxbridgedeck
AT jianminghao experimentalinvestigationonthenonlinearcoupledfluttermotionofatypicalflatclosedboxbridgedeck
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