Centrifuge modeling of buried continuous pipelines subjected to normal faulting |
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Authors: | Majid Moradi Mahdi Rojhani Abbas Galandarzadeh Shiro Takada |
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Institution: | 1159. School of Civil Engineering, College of Engineering, University of Tehran, Tehran, Iran 2159. Department of Soil Mechanics and Foundation Engineering, School of Civil Engineering, University of Tehran, Tehran, Iran
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Abstract: | Seismic ground faulting is the greatest hazard for continuous buried pipelines. Over the years, researchers have attempted to understand pipeline behavior mostly via numerical modeling such as the finite element method. The lack of well-documented field case histories of pipeline failure from seismic ground faulting and the cost and complicated facilities needed for full-scale experimental simulation mean that a centrifuge-based method to determine the behavior of pipelines subjected to faulting is best to verify numerical approaches. This paper presents results from three centrifuge tests designed to investigate continuous buried steel pipeline behavior subjected to normal faulting. The experimental setup and procedure are described and the recorded axial and bending strains induced in a pipeline are presented and compared to those obtained via analytical methods. The influence of factors such as faulting offset, burial depth and pipe diameter on the axial and bending strains of pipes and on ground soil failure and pipeline deformation patterns are also investigated. Finally, the tensile rupture of a pipeline due to normal faulting is investigated. |
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Keywords: | centrifuge models buried pipeline normal faulting earthquake permanent ground deformation |
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