Semi-Empirical Method for Excavation-Induced Surface Displacements-Los Angeles Metro K Line Crenshaw/LAX Transit Project

Charbel Beaino; Youssef M.A. Hashash; Timothy Bernard; Abby Hutter; Maksymilian Jasiak; Jack Lawrence; Alicia Szewczyk; Wendi Zhao; Michael Pearce; Anne Lemnitzer; Lisa Star; Namasivayam Sathialingam; Edward J. Cording; Thomas D. O'Rourke; Androush Danielians

doi:10.1061/9780784484708.046

Semi-Empirical Method for Excavation-Induced Surface Displacements-Los Angeles Metro K Line Crenshaw/LAX Transit Project

Charbel Beaino, Youssef M.A. Hashash, Timothy Bernard, Abby Hutter, Maksymilian Jasiak, Jack Lawrence, Alicia Szewczyk, Wendi Zhao, Michael Pearce, Anne Lemnitzer, Lisa Star, Namasivayam Sathialingam, Edward J. Cording, Thomas D. O'Rourke, Androush Danielians

Research output: Contribution to journal › Conference article › peer-review

Abstract

Estimating excavation-induced ground surface displacements in urban areas is needed to assess potential structure damage. Empirical settlement distribution models have been widely used to estimate the zone of influence and ground response behind braced excavation walls. Three underground station excavations, part of the Los Angeles Metro's K Line Crenshaw/LAX Transit Project, offer a unique opportunity to collect field instrumentation data to improve estimates of ground deformations. One excavation employed cross-lot braces and soldier piles and wood lagging while the other two were supported by cross-lot braces and stiffer Cutter-Soil-Mixing (CSM) walls. For the excavations with stiff support systems and relatively small wall movements, upward surface displacement or heave governed the ground surface response, while surface settlement was measured at the excavation with the more flexible wall system. This heave behavior is often masked by settlement caused by relatively large wall movements, and is thus commonly disregarded. By idealizing the excavation unloading as an upward strip load at the ground surface, the Boussinesq solution for elastic upward movement can be used in combination with a settlement component resulting from lateral wall movements to estimate the magnitude and distribution of excavation-induced surface displacements.

Original language	English (US)
Pages (from-to)	492-500
Number of pages	9
Journal	Geotechnical Special Publication
Volume	2023-March
Issue number	GSP 343
DOIs	https://doi.org/10.1061/9780784484708.046
State	Published - 2023
Externally published	Yes
Event	2023 Geo-Congress: Sustainable Infrastructure Solutions from the Ground Up - Geotechnical Systems from Pore-Scale to City-Scale - Los Angeles, United States Duration: Mar 26 2023 → Mar 29 2023

ASJC Scopus subject areas

Civil and Structural Engineering
Architecture
Building and Construction
Geotechnical Engineering and Engineering Geology

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10.1061/9780784484708.046

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Beaino, C., Hashash, Y. M. A., Bernard, T., Hutter, A., Jasiak, M., Lawrence, J., Szewczyk, A., Zhao, W., Pearce, M., Lemnitzer, A., Star, L., Sathialingam, N., Cording, E. J., O'Rourke, T. D., & Danielians, A. (2023). Semi-Empirical Method for Excavation-Induced Surface Displacements-Los Angeles Metro K Line Crenshaw/LAX Transit Project. Geotechnical Special Publication, 2023-March(GSP 343), 492-500. https://doi.org/10.1061/9780784484708.046

Beaino, C, Hashash, YMA, Bernard, T, Hutter, A, Jasiak, M, Lawrence, J, Szewczyk, A, Zhao, W, Pearce, M, Lemnitzer, A, Star, L, Sathialingam, N, Cording, EJ, O'Rourke, TD & Danielians, A 2023, 'Semi-Empirical Method for Excavation-Induced Surface Displacements-Los Angeles Metro K Line Crenshaw/LAX Transit Project', Geotechnical Special Publication, vol. 2023-March, no. GSP 343, pp. 492-500. https://doi.org/10.1061/9780784484708.046

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title = "Semi-Empirical Method for Excavation-Induced Surface Displacements-Los Angeles Metro K Line Crenshaw/LAX Transit Project",

abstract = "Estimating excavation-induced ground surface displacements in urban areas is needed to assess potential structure damage. Empirical settlement distribution models have been widely used to estimate the zone of influence and ground response behind braced excavation walls. Three underground station excavations, part of the Los Angeles Metro's K Line Crenshaw/LAX Transit Project, offer a unique opportunity to collect field instrumentation data to improve estimates of ground deformations. One excavation employed cross-lot braces and soldier piles and wood lagging while the other two were supported by cross-lot braces and stiffer Cutter-Soil-Mixing (CSM) walls. For the excavations with stiff support systems and relatively small wall movements, upward surface displacement or heave governed the ground surface response, while surface settlement was measured at the excavation with the more flexible wall system. This heave behavior is often masked by settlement caused by relatively large wall movements, and is thus commonly disregarded. By idealizing the excavation unloading as an upward strip load at the ground surface, the Boussinesq solution for elastic upward movement can be used in combination with a settlement component resulting from lateral wall movements to estimate the magnitude and distribution of excavation-induced surface displacements.",

author = "Charbel Beaino and Hashash, {Youssef M.A.} and Timothy Bernard and Abby Hutter and Maksymilian Jasiak and Jack Lawrence and Alicia Szewczyk and Wendi Zhao and Michael Pearce and Anne Lemnitzer and Lisa Star and Namasivayam Sathialingam and Cording, {Edward J.} and O'Rourke, {Thomas D.} and Androush Danielians",

note = "The authors have received support for this work through the National Science Foundation, Award Number 1917036, “GOALI/Collaborative Research: Future Underground Landscape - Learning from Large Excavations in a Complex Urban Environment”. They would like to thank LA Metro for providing the data and allowing the publication of the results. The opinions expressed in this paper are those of the authors and do not necessarily reflect those of the aforementioned organizations.; 2023 Geo-Congress: Sustainable Infrastructure Solutions from the Ground Up - Geotechnical Systems from Pore-Scale to City-Scale ; Conference date: 26-03-2023 Through 29-03-2023",

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AU - Hashash, Youssef M.A.

AU - Bernard, Timothy

AU - Hutter, Abby

AU - Jasiak, Maksymilian

AU - Lawrence, Jack

AU - Szewczyk, Alicia

AU - Zhao, Wendi

AU - Pearce, Michael

AU - Lemnitzer, Anne

AU - Star, Lisa

AU - Sathialingam, Namasivayam

AU - Cording, Edward J.

AU - O'Rourke, Thomas D.

AU - Danielians, Androush

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PY - 2023

Y1 - 2023

N2 - Estimating excavation-induced ground surface displacements in urban areas is needed to assess potential structure damage. Empirical settlement distribution models have been widely used to estimate the zone of influence and ground response behind braced excavation walls. Three underground station excavations, part of the Los Angeles Metro's K Line Crenshaw/LAX Transit Project, offer a unique opportunity to collect field instrumentation data to improve estimates of ground deformations. One excavation employed cross-lot braces and soldier piles and wood lagging while the other two were supported by cross-lot braces and stiffer Cutter-Soil-Mixing (CSM) walls. For the excavations with stiff support systems and relatively small wall movements, upward surface displacement or heave governed the ground surface response, while surface settlement was measured at the excavation with the more flexible wall system. This heave behavior is often masked by settlement caused by relatively large wall movements, and is thus commonly disregarded. By idealizing the excavation unloading as an upward strip load at the ground surface, the Boussinesq solution for elastic upward movement can be used in combination with a settlement component resulting from lateral wall movements to estimate the magnitude and distribution of excavation-induced surface displacements.

AB - Estimating excavation-induced ground surface displacements in urban areas is needed to assess potential structure damage. Empirical settlement distribution models have been widely used to estimate the zone of influence and ground response behind braced excavation walls. Three underground station excavations, part of the Los Angeles Metro's K Line Crenshaw/LAX Transit Project, offer a unique opportunity to collect field instrumentation data to improve estimates of ground deformations. One excavation employed cross-lot braces and soldier piles and wood lagging while the other two were supported by cross-lot braces and stiffer Cutter-Soil-Mixing (CSM) walls. For the excavations with stiff support systems and relatively small wall movements, upward surface displacement or heave governed the ground surface response, while surface settlement was measured at the excavation with the more flexible wall system. This heave behavior is often masked by settlement caused by relatively large wall movements, and is thus commonly disregarded. By idealizing the excavation unloading as an upward strip load at the ground surface, the Boussinesq solution for elastic upward movement can be used in combination with a settlement component resulting from lateral wall movements to estimate the magnitude and distribution of excavation-induced surface displacements.

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Semi-Empirical Method for Excavation-Induced Surface Displacements-Los Angeles Metro K Line Crenshaw/LAX Transit Project

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