Abstract
Transient ground displacement (TGD) that is caused by earthquakes can damage underground pipes. This damage is especially critical for the joints, elbows and tees of the pipes which play an important role in the operation of a pipe network. In this study, a scale pipe network with both elbows and tees, as well as some components of the pipe network with only tees or elbows, has been investigated. The response of the nodes of a pipe network, when installed in non-uniform geology, was analyzed using the shaking table test and ABAQUS finite element simulation. This paper has firstly introduced the preparation of the test and the developed finite element model. Then the system response in terms of strain, the friction, the bending deformation, the node deformation amplification coefficient and the pipe-soil relative displacement along the pipe axis of the pipe network and two pipe network components have been analyzed explaining the correlation between these responses. Finally, the influence of elbows and tees on the pipe network was analyzed, and the conclusions that have been reached about how tees and elbows can change the response of a pipe network during an earthquake can provide theoretical support for the seismic design and layout of an underground pipe network.
Highlights
Transient ground displacement (TGD), which is caused by seismic waves, is a type of geological hazard that can be triggered by earthquakes
Based on the above analysis, this paper has studied the seismic response of an underground pipe network by means of the shaking table test
A LVDT (Linear Variable Differential Transformer) displacement sensor was used in this test; it has an accuracy of 0.1mm. As this kind of displacement sensor can only measure the linear displacement in a single direction on a solid surface, it was located on the outer surface of the shear box, and the arrangement position was buried in the same horizontal plane as the pipe network, which is represented by DS
Summary
Data Availability Statement: All relevant data are within the manuscript and its Supporting Information files.
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