Experimental and Numerical Analysis of Soil-Pipe Interaction

Cases of pipeline damage caused by landslides are common in coastal or mountainous regions, where a continuous monitoring/repair activity is planned in order to maintain their serviceability. The analysis of the soil-structure interaction phenomenon can be invoked to improve the planning and design...

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Bibliographic Details
Published in:Journal of geotechnical and geoenvironmental engineering 2004-12, Vol.130 (12), p.1292-1299
Main Authors: Calvetti, Francesco, di Prisco, Claudio, Nova, Roberto
Format: Article
Language:English
Subjects:
Applied sciences
Buildings. Public works
Computation methods. Tables. Charts
Exact sciences and technology
Geotechnics
Structural analysis. Stresses
Structure-soil interaction
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Summary:Cases of pipeline damage caused by landslides are common in coastal or mountainous regions, where a continuous monitoring/repair activity is planned in order to maintain their serviceability. The analysis of the soil-structure interaction phenomenon can be invoked to improve the planning and design of buried pipelines, to guide monitoring, and to reduce the risk of damage or failure. Two different approaches are considered in this paper: small scale laboratory tests and numerical simulations using the distinct element method (DEM). The experimental setup consists of a box filled with sand and water. Several experiments were performed, in which the diameter and the depth of the tube varied. The numerical simulations are divided in two separate series: in the first, the numerical model is calibrated and its reliability in reproducing the experimental tests is checked; in the second series, the direction of the relative displacement between the tube and the surrounding "numerical soil" varies over the range ±90° with respect to the horizontal. In the latter, both vertical and horizontal components of the drag force are measured and the corresponding interaction diagrams are constructed. The DEM simulations provide useful information about the shape of the failure mechanisms and the force transfer within the soil.
ISSN:1090-0241
1943-5606
DOI:10.1061/(ASCE)1090-0241(2004)130:12(1292)