Dynamic effects of surface fault rupture interaction with structures

Surface fault rupture has caused significant damage to structures in several earthquakes. The propagation of the bedrock fault rupture through the overlying soil deposit has been studied by several researchers; however, the effects of fault rupture dynamics, as opposed to pseudostatic fault movement...

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Bibliographic Details
Published in:Soil dynamics and earthquake engineering (1984) 2015-05, Vol.72, p.37-47
Main Authors: Oettle, Nicolas K., Bray, Jonathan D., Dreger, Douglas S.
Format: Article
Language:English
Subjects:
Construction
Dynamics
Earthquake engineering
Earthquakes
Faults
Fling-step
Mathematical models
Numerical analysis
Rupture
Soil (material)
Soil-structure interaction
Structural damage
Surface fault rupture
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Summary:Surface fault rupture has caused significant damage to structures in several earthquakes. The propagation of the bedrock fault rupture through the overlying soil deposit has been studied by several researchers; however, the effects of fault rupture dynamics, as opposed to pseudostatic fault movement, have not yet been evaluated. There is the potential for dynamic effects to influence significantly structural damage due to the rapid rate of deformation imposed by surface fault rupture. Numerical simulations are performed to analyze the effects of the rate of fault rupture on dip-slip surface fault rupture for free-field and soil-structure interaction conditions. The numerical results indicate that in some limited scenarios, fault rupture dynamics can influence the amount of structural damage expected for a structure located near a fault. However, in most scenarios, fault rupture dynamics is expected to play a secondary role compared to fault, soil, and structural characteristics in evaluating building performance. •We model dynamic fault-soil-structure interaction.•Structures can affect the propagation of faults through soil.•Fault slip rate affects soil and structural response.•Structure mass can improve structural performance during fault rupture.
ISSN:0267-7261
1879-341X
DOI:10.1016/j.soildyn.2015.01.019