Instability of a Caisson-Type Breakwater Induced by an Earthquake–Tsunami Event
Publication: International Journal of Geomechanics
Volume 16, Issue 5
Abstract
The Tohoku coastal area in Japan suffered massive damage in the Great Tohoku Earthquake, in which a prolonged major earthquake was followed by a large tsunami. The damage mechanisms of coastal structures during earthquake–tsunami events have not been fully explained. Thus, this study elucidates the damage mechanism of breakwaters by focusing on the interactions among earthquake–tsunami events, caisson structures, and soil composed of rubble mounds and seabed components. Centrifuge model tests, finite-element analyses, and smoothed particle hydrodynamics simulations with tsunami–soil–structure interactions were performed. The simulated breakwater was destabilized by not only wave pressure, but also long-acting tsunami seepage flow and overflow into the rubble mound and the seabed. These processes resulted in scour and fluidization/liquefaction, which decreased the bearing capacity. Moreover, the liquefaction resulting from earthquake motion caused caisson subsidence and excess pore water pressure in the soil components before the tsunami occurred. These problems decrease the ability of breakwaters to provide protection against tsunamis.
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© 2016 American Society of Civil Engineers.
History
Received: Oct 1, 2014
Accepted: Oct 7, 2015
Published online: Feb 3, 2016
Discussion open until: Jul 3, 2016
Published in print: Oct 1, 2016
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