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Experiment of Thermal Vibration Characteristics of Continuous Panels in Whole Steel-framed Structure(PDF)

《建筑科学与工程学报》[ISSN:1673-2049/CN:61-1442/TU]

Issue:
2016年03期
Page:
78-85
Research Field:
Publishing date:

Info

Title:
Experiment of Thermal Vibration Characteristics of Continuous Panels in Whole Steel-framed Structure
Author(s):
LI Bing DONG Yu-li WANG Yong LOU Yong-jie
College of Civil Engineering and Architecture, Hainan University
Keywords:
whole steel-framed structure continuous panel thermal vibration characteristic Hilbert transform principal frequency
PACS:
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DOI:
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Abstract:
Thermal vibration characteristics of four continuous reinforced concrete panels and two composite beams in a whole steelframed structure were tested by using the selfmade fire furnace. The acceleration signals of the building components during the fire were collected and Hilbert transform (HT) was adopted to extract instantaneous principal frequencies. Timedomain analysis and frequencydomain analysis of acceleration signals were performed. Timedomain analysis shows that acceleration signal intensity has important relationship with boundary constraints and crack propagation. When the constraints are stronger, the signal intensity is weaker. Moreover,main crack propagation leads to mutations of acceleration signals of heated panels, but for composite beams, stress redistribution and main crack propagation stimulate mutations of acceleration signals. During the heatup stage, acceleration curves can be divided into three stages.[HJ1.74mm]Acceleration signals are relatively low during the early and late stages but strong during the medium stage with more signal mutations are detected. Frequencydomain analysis shows that principal frequencies change dramatically and present a downward trend during the heatup stage, but the changes only reflect the level of crack propagation and cannot identify damage locations. In addition, the frequency changes correspond approximately to deflection changes in sequence. Therefore through analysis of vibration characteristics, the fire behavior including deformation and cracks can be monitored.

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Last Update: 2016-06-01