Two-Dimensional Vibrations of Inflated Geosynthetic Tubes Resting on a Rigid or Deformable Foundation

Geosynthetic tubes have the potential to replace the traditional flood protection device of sandbagging. These tubes are manufactured with many individual designs and configurations. A small number of studies have been conducted on the geosynthetic tubes as water barriers. Within these studies, none...

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Main Author: Cotton, Stephen Andrew
Other Authors: Civil Engineering
Format: Others
Published: Virginia Tech 2011
Subjects:
Online Access:http://hdl.handle.net/10919/9715
http://scholar.lib.vt.edu/theses/available/etd-05132003-100532
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spelling ndltd-VTETD-oai-vtechworks.lib.vt.edu-10919-97152020-09-29T05:44:59Z Two-Dimensional Vibrations of Inflated Geosynthetic Tubes Resting on a Rigid or Deformable Foundation Cotton, Stephen Andrew Civil Engineering Plaut, Raymond H. Cousins, Thomas E. Filz, George M. geotextile soil-structure interaction dynamic response numerical modeling vibrations geosynthetic tube geomembrane tube Flood control flood-fighting devices Geosynthetic tubes have the potential to replace the traditional flood protection device of sandbagging. These tubes are manufactured with many individual designs and configurations. A small number of studies have been conducted on the geosynthetic tubes as water barriers. Within these studies, none have discussed the dynamics of unanchored geosynthetic tubes. A two-dimensional equilibrium and vibration analysis of a freestanding geosynthetic tube is executed. Air and water are the two internal materials investigated. Three foundation variations are considered: rigid, Winkler, and Pasternak. Mathematica 4.2 was employed to solve the nonlinear equilibrium and dynamic equations, incorporating boundary conditions by use of a shooting method. General assumptions are made that involve the geotextile material and supporting surface. The geosynthetic material is assumed to act like an inextensible membrane and bending resistance is neglected. Friction between the tube and rigid supporting surface is neglected. Added features of viscous damping and added mass of the water were applied to the rigid foundation study of the vibrations about the freestanding equilibrium configuration. Results from the equilibrium and dynamic analysis include circumferential tension, contact length, equilibrium and vibration shapes, tube settlement, and natural frequencies. Natural frequencies for the first four mode shapes were computed. Future models may incorporate the frequencies or combinations of the frequencies found here and develop dynamic loading simulations. Master of Science 2011-08-06T14:45:41Z 2011-08-06T14:45:41Z 2004-01-05 2003-05-13 2004-06-02 2003-06-02 Thesis etd-05132003-100532 http://hdl.handle.net/10919/9715 http://scholar.lib.vt.edu/theses/available/etd-05132003-100532 StephenCottonThesis.pdf In Copyright http://rightsstatements.org/vocab/InC/1.0/ ETD application/pdf Virginia Tech
collection NDLTD
format Others
sources NDLTD
topic geotextile
soil-structure interaction
dynamic response
numerical modeling
vibrations
geosynthetic tube
geomembrane tube
Flood control
flood-fighting devices
spellingShingle geotextile
soil-structure interaction
dynamic response
numerical modeling
vibrations
geosynthetic tube
geomembrane tube
Flood control
flood-fighting devices
Cotton, Stephen Andrew
Two-Dimensional Vibrations of Inflated Geosynthetic Tubes Resting on a Rigid or Deformable Foundation
description Geosynthetic tubes have the potential to replace the traditional flood protection device of sandbagging. These tubes are manufactured with many individual designs and configurations. A small number of studies have been conducted on the geosynthetic tubes as water barriers. Within these studies, none have discussed the dynamics of unanchored geosynthetic tubes. A two-dimensional equilibrium and vibration analysis of a freestanding geosynthetic tube is executed. Air and water are the two internal materials investigated. Three foundation variations are considered: rigid, Winkler, and Pasternak. Mathematica 4.2 was employed to solve the nonlinear equilibrium and dynamic equations, incorporating boundary conditions by use of a shooting method. General assumptions are made that involve the geotextile material and supporting surface. The geosynthetic material is assumed to act like an inextensible membrane and bending resistance is neglected. Friction between the tube and rigid supporting surface is neglected. Added features of viscous damping and added mass of the water were applied to the rigid foundation study of the vibrations about the freestanding equilibrium configuration. Results from the equilibrium and dynamic analysis include circumferential tension, contact length, equilibrium and vibration shapes, tube settlement, and natural frequencies. Natural frequencies for the first four mode shapes were computed. Future models may incorporate the frequencies or combinations of the frequencies found here and develop dynamic loading simulations. === Master of Science
author2 Civil Engineering
author_facet Civil Engineering
Cotton, Stephen Andrew
author Cotton, Stephen Andrew
author_sort Cotton, Stephen Andrew
title Two-Dimensional Vibrations of Inflated Geosynthetic Tubes Resting on a Rigid or Deformable Foundation
title_short Two-Dimensional Vibrations of Inflated Geosynthetic Tubes Resting on a Rigid or Deformable Foundation
title_full Two-Dimensional Vibrations of Inflated Geosynthetic Tubes Resting on a Rigid or Deformable Foundation
title_fullStr Two-Dimensional Vibrations of Inflated Geosynthetic Tubes Resting on a Rigid or Deformable Foundation
title_full_unstemmed Two-Dimensional Vibrations of Inflated Geosynthetic Tubes Resting on a Rigid or Deformable Foundation
title_sort two-dimensional vibrations of inflated geosynthetic tubes resting on a rigid or deformable foundation
publisher Virginia Tech
publishDate 2011
url http://hdl.handle.net/10919/9715
http://scholar.lib.vt.edu/theses/available/etd-05132003-100532
work_keys_str_mv AT cottonstephenandrew twodimensionalvibrationsofinflatedgeosynthetictubesrestingonarigidordeformablefoundation
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