Ambient Vibration Modal Analysis of Natural Rock Towers and Fins

Autor: Riley Finnegan, Jeffrey R. Moore, Paul R. Geimer, Alex Dzubay, Erin K. Bessette-Kirton, Jackson Bodtker, Kathryn Vollinger
Rok vydání: 2022
Předmět:
Zdroj: Seismological Research Letters. 93:1777-1786
ISSN: 1938-2057
0895-0695
DOI: 10.1785/0220210325
Popis: The dynamic properties of freestanding rock towers are important inputs for seismic stability and vibration hazard assessments, however data describing the natural frequencies, mode shapes, and damping ratios of these landforms remain rare. We measured the ambient vibration of 14 sandstone and conglomerate rock towers and fins in Utah, United States, using broadband seismometers and nodal geophones. Fundamental frequencies vary between 0.8 and 15 Hz—inversely with tower height—and generally exhibit subhorizontal modal vectors oriented parallel to the minimum tower width. Modal damping ratios are low across all features, between 0.6% and 2.2%. We reproduced measured modal attributes in 3D numerical eigenfrequency models for 10 of the 14 landforms, showing that the fundamental mode of these features is full-height bending akin to a cantilever. Fin-like landforms commonly have a torsional second mode whereas tower-like features have a second full-height bending mode subperpendicular to the fundamental. In line with beam theory predictions, our data confirm that fundamental frequencies scale with the ratio of a tower’s width to its squared height. Compiled data from 18 other sites support our results, and taken together, provide guidance for estimating the modal properties of rock towers required for vibration risk assessment and paleoseismic shaking intensity analysis in different settings.
Databáze: OpenAIRE