Ambient resonance of rock arches

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Title Ambient resonance of rock arches
Publication Type thesis
School or College College of Mines & Earth Sciences
Department Geology & Geophysics
Author Starr, Alison Margaret
Date 2015
Description Resonant frequencies of structural elements are related to fundamental material properties of mass and stiffness, and monitoring over time can thus serve as an indirect indictor of internal mechanical change. Until now, however, this methodology has not been applied to natural rock structures such as arches and towers. We evaluated the resonance characteristics of four rock arches in southeastern Utah, combining in-situ ambient vibration measurements with numerical modal analysis. At each location, we measured the spectral and polarization attributes of ambient vibrations using up to two broadband seismometers. Ambient vibration spectra measured on the arches showed clear peaks at distinct frequencies (typically between 1-10 Hz), which we interpret as resonant frequencies, as opposed to the relatively flat spectra recorded on nearby bedrock. Polarization analysis helped us identify the orientations of vibration and explore resonant mode shapes. We then verified the measured resonant frequencies through 3D finite-element numerical modal analysis, and in most cases we were able to match the fundamental along with several higher-order modes. Repeat occupation and short-term continuous ambient vibration monitoring were aimed at assessing daily and seasonal changes in resonant frequencies, which in turn may provide evidence of internal mechanical change; Mesa Arch in Canyonlands National Park served as the main focus for our repeat measurements. Results revealed that minor, reversible changes in resonant frequencies can be created by thermal effects, i.e., changes in bulk material stiffness as the arch expands and contracts on daily and seasonal time scales. No irreversible change in the resonant frequency of Mesa Arch was detected over the period of this study. Our research provides the first step towards monitoring the long-term structural health of natural rock arches as they change through time or in the wake of a damaging event. We have shown that the resonance properties of natural rock arches can be evaluated from ambient seismic noise measurements and confirmed through experimental and numerical modal analysis. We have also shown that minor variations in resonant frequencies, which are related to environmental effects, can be expected and must be characterized in order to identify permanent change associated with internal damage.
Type Text
Publisher University of Utah
Subject Arches; National Park; resonance; sructural health monitoring; Utah
Dissertation Name Master of Science in Geophysics
Language eng
Rights Management © Alison Margaret Starr
Format application/pdf
Format Medium application/pdf
Format Extent 27,463 bytes
Identifier etd3/id/3914
ARK ark:/87278/s67q26r1
Setname ir_etd
ID 197465
Reference URL https://collections.lib.utah.edu/ark:/87278/s67q26r1
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