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A platform for research: civil engineering, architecture and urbanism
Seismic performance-based design of flexible earth-retaining diaphragm walls
https://orcid.org/0000-0002-4764-3738
Highlights Design values of wall forces/displacements are obtained from demand hazard curves. Demand hazard curves account for uncertainty in seismic action and soil–wall system. Construction stages are considered. Dynamic input to wall obtained from soil column response. Cyclic accumulation of earth pressures and wall forces/displacements.
Abstract Performance-based design differs from conventional design in that target performance is clearly stated and explicitly checked. A faithful application of this design approach requires refined analysis methods to quantify performance and explicit consideration of all relevant uncertainties. The paper presents a design procedure that satisfies these requirements. The procedure is illustrated with reference to flexible earth-retaining diaphragm walls, which represent a challenging test for such a procedure given the influence of dynamic soil–structure interaction on the response in terms of internal forces and deformations. In order to remain affordable and feasible in practice, yet accounting for the aforementioned sources of uncertainties and the important physical aspects of the system response, the procedure is based on small-sample Monte Carlo simulation and a recently developed nonlinear dynamic model of such soil–wall systems. The latter strikes a balance between model setup and analysis time, on one hand, and accuracy on the other, being capable of re-producing the cumulative build-up of soil pressure in cyclic deformation and the accumulation of permanent displacement of the wall, with an overall modeling and analysis effort in the order of few tens of minutes (on a standard consumer-grade laptop). Performance is measured in terms of mean annual rate of exceedance curves from which design values are obtained. [This paper is an extended version of the contribution presented at the mini-symposium on Performance-based design held at the ICOSSAR conference in June 2013, NY.]
Seismic performance-based design of flexible earth-retaining diaphragm walls
https://orcid.org/0000-0002-4764-3738
Highlights Design values of wall forces/displacements are obtained from demand hazard curves. Demand hazard curves account for uncertainty in seismic action and soil–wall system. Construction stages are considered. Dynamic input to wall obtained from soil column response. Cyclic accumulation of earth pressures and wall forces/displacements.
Abstract Performance-based design differs from conventional design in that target performance is clearly stated and explicitly checked. A faithful application of this design approach requires refined analysis methods to quantify performance and explicit consideration of all relevant uncertainties. The paper presents a design procedure that satisfies these requirements. The procedure is illustrated with reference to flexible earth-retaining diaphragm walls, which represent a challenging test for such a procedure given the influence of dynamic soil–structure interaction on the response in terms of internal forces and deformations. In order to remain affordable and feasible in practice, yet accounting for the aforementioned sources of uncertainties and the important physical aspects of the system response, the procedure is based on small-sample Monte Carlo simulation and a recently developed nonlinear dynamic model of such soil–wall systems. The latter strikes a balance between model setup and analysis time, on one hand, and accuracy on the other, being capable of re-producing the cumulative build-up of soil pressure in cyclic deformation and the accumulation of permanent displacement of the wall, with an overall modeling and analysis effort in the order of few tens of minutes (on a standard consumer-grade laptop). Performance is measured in terms of mean annual rate of exceedance curves from which design values are obtained. [This paper is an extended version of the contribution presented at the mini-symposium on Performance-based design held at the ICOSSAR conference in June 2013, NY.]
Seismic performance-based design of flexible earth-retaining diaphragm walls
https://orcid.org/0000-0002-4764-3738
Highlights Design values of wall forces/displacements are obtained from demand hazard curves. Demand hazard curves account for uncertainty in seismic action and soil–wall system. Construction stages are considered. Dynamic input to wall obtained from soil column response. Cyclic accumulation of earth pressures and wall forces/displacements.
Abstract Performance-based design differs from conventional design in that target performance is clearly stated and explicitly checked. A faithful application of this design approach requires refined analysis methods to quantify performance and explicit consideration of all relevant uncertainties. The paper presents a design procedure that satisfies these requirements. The procedure is illustrated with reference to flexible earth-retaining diaphragm walls, which represent a challenging test for such a procedure given the influence of dynamic soil–structure interaction on the response in terms of internal forces and deformations. In order to remain affordable and feasible in practice, yet accounting for the aforementioned sources of uncertainties and the important physical aspects of the system response, the procedure is based on small-sample Monte Carlo simulation and a recently developed nonlinear dynamic model of such soil–wall systems. The latter strikes a balance between model setup and analysis time, on one hand, and accuracy on the other, being capable of re-producing the cumulative build-up of soil pressure in cyclic deformation and the accumulation of permanent displacement of the wall, with an overall modeling and analysis effort in the order of few tens of minutes (on a standard consumer-grade laptop). Performance is measured in terms of mean annual rate of exceedance curves from which design values are obtained. [This paper is an extended version of the contribution presented at the mini-symposium on Performance-based design held at the ICOSSAR conference in June 2013, NY.]
Seismic performance-based design of flexible earth-retaining diaphragm walls
Franchin, Paolo (author) / Cavalieri, Francesco (author)
Engineering Structures ; 78 ; 57-68
2014-01-01
12 pages
Article (Journal)
Electronic Resource
English
Seismic performance-based design of flexible earth-retaining diaphragm walls
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Seismic earth pressures on rigid and flexible retaining walls
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Seismic earth pressures on rigid and flexible retaining walls
| British Library Online Contents | 2005