Composite Tolerable Settlement and Horizontal Displacement Criteria for Reliability-Based Design of Foundations
Publication: Foundation Engineering in the Face of Uncertainty: Honoring Fred H. Kulhawy
Abstract
The design of foundations should satisfy various serviceability performance requirements. A structural foundation may concurrently experience vertical displacement, horizontal displacement, and angular distortion. While the limiting value of a single displacement has been studied, the limiting values of multiple displacements when they occur simultaneously have not yet been well studied. The objectives of this paper are to determine the limiting tolerable displacements when multiple movement components occur and to propose a composite limiting tolerable displacement criterion involving both vertical and horizontal displacements. To determine the limiting tolerable displacements for foundations subject to movements in multiple directions, performance information of 280 bridges with either vertical displacement and/or horizontal displacement has been collected and evaluated. Limiting tolerable displacements are determined by using a fragility curve to represent the cumulative probability distribution. The limiting tolerable vertical displacement and horizontal displacement when they occur concurrently are found to be smaller than their respective limiting values when only one component occurs. Both the observed intolerable horizontal displacement and limiting horizontal displacement are smaller than the corresponding vertical displacements of the same category of bridges. A linear function between the limiting vertical and horizontal displacements is proposed. The sum of two dimensionless limiting displacement terms is equal to 1.0. The composite function is modified to allow for construction tolerances in both vertical and horizontal directions. The characteristic tolerable displacements for limit state design or the allowable displacements for conventional design in both vertical and horizontal directions can be obtained based on the composite function.
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Copyright
© 2013 American Society of Civil Engineers.
History
Published online: Mar 28, 2013
ASCE Technical Topics:
- Architectural engineering
- Bridge components
- Bridge engineering
- Bridge foundations
- Building management
- Caissons
- Composite materials
- Continuum mechanics
- Displacement (mechanics)
- Engineering materials (by type)
- Engineering mechanics
- Foundation design
- Foundation settlement
- Foundations
- Geotechnical engineering
- Materials engineering
- Serviceability
- Solid mechanics
- Structural engineering
- Structural mechanics
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