Nested Newmark model to calculate the post-earthquake profile of slopes

The Newmark sliding block approach is a common means of evaluating permanent displacements of slopes undergoing seismic loading. However, the conventional Newmark approach omits the presence of multiple shear zones or regions of dispersed shear movement. The occurrence of these shear movements withi...

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Published in	Engineering geology Vol. 233; pp. 139 - 145
Main Author	Leshchinsky, Ben A.
Format	Journal Article
Language	English
Published	Elsevier B.V 31.01.2018
Subjects	Displacement Earthquake geometry geophysics Landslides Limit equilibrium mathematical models Newmark Seismic Slope stability Landslides Newmark Earthquake Limit equilibrium Seismic Slope stability Displacement
Online Access	Get full text
ISSN	0013-7952 1872-6917
DOI	10.1016/j.enggeo.2017.12.006

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Abstract	The Newmark sliding block approach is a common means of evaluating permanent displacements of slopes undergoing seismic loading. However, the conventional Newmark approach omits the presence of multiple shear zones or regions of dispersed shear movement. The occurrence of these shear movements within slopes can often materialize with added vertical and lateral movements above the basal failure surface typically considered in the conventional Newmark approach. This study modifies the conventional Newmark sliding block approach by discretizing a given slope into a series of nested, critical failure wedges, each with an associated yield acceleration, termed a Nested Newmark Model (NNM). Use of the NNM enables assessment of a post-earthquake slope profile within a limit equilibrium framework based on the integration of relative displacements from the toe to the crest. The results demonstrate a different response than conventional Newmark approaches. The model outputs can account for the restriction of toe movements as well as heaving and slumping behavior of the slope face and crest, respectively. Larger seismic excitation resulted in further destabilization of nested wedges near the crest. The presented approach establishes a framework that can be extended to any type of failure geometry or series of failures, including rotational geometry. These results are compared to a numerical model, which exhibit similar behavior. This framework is conceptual, but builds upon the well-accepted Newmark sliding block approach to provide an alternative means of assessing post-earthquake slope movements. •The NNM procedure demonstrates utility for assessing a slope profile subject to horizontal or vertical changes after seismic loading.•This procedure captures regions of distributed shear within a slope and enables a geometric constraint of toe movement, as one would practically expect in realistic slope failures. The resulting profiles often demonstrate bulging and subsidence at the slope toe and crest, respectively.•The NNM framework is versatile and can be modified to incorporate a range of failure mechanisms outside of translational failures.
AbstractList	The Newmark sliding block approach is a common means of evaluating permanent displacements of slopes undergoing seismic loading. However, the conventional Newmark approach omits the presence of multiple shear zones or regions of dispersed shear movement. The occurrence of these shear movements within slopes can often materialize with added vertical and lateral movements above the basal failure surface typically considered in the conventional Newmark approach. This study modifies the conventional Newmark sliding block approach by discretizing a given slope into a series of nested, critical failure wedges, each with an associated yield acceleration, termed a Nested Newmark Model (NNM). Use of the NNM enables assessment of a post-earthquake slope profile within a limit equilibrium framework based on the integration of relative displacements from the toe to the crest. The results demonstrate a different response than conventional Newmark approaches. The model outputs can account for the restriction of toe movements as well as heaving and slumping behavior of the slope face and crest, respectively. Larger seismic excitation resulted in further destabilization of nested wedges near the crest. The presented approach establishes a framework that can be extended to any type of failure geometry or series of failures, including rotational geometry. These results are compared to a numerical model, which exhibit similar behavior. This framework is conceptual, but builds upon the well-accepted Newmark sliding block approach to provide an alternative means of assessing post-earthquake slope movements. The Newmark sliding block approach is a common means of evaluating permanent displacements of slopes undergoing seismic loading. However, the conventional Newmark approach omits the presence of multiple shear zones or regions of dispersed shear movement. The occurrence of these shear movements within slopes can often materialize with added vertical and lateral movements above the basal failure surface typically considered in the conventional Newmark approach. This study modifies the conventional Newmark sliding block approach by discretizing a given slope into a series of nested, critical failure wedges, each with an associated yield acceleration, termed a Nested Newmark Model (NNM). Use of the NNM enables assessment of a post-earthquake slope profile within a limit equilibrium framework based on the integration of relative displacements from the toe to the crest. The results demonstrate a different response than conventional Newmark approaches. The model outputs can account for the restriction of toe movements as well as heaving and slumping behavior of the slope face and crest, respectively. Larger seismic excitation resulted in further destabilization of nested wedges near the crest. The presented approach establishes a framework that can be extended to any type of failure geometry or series of failures, including rotational geometry. These results are compared to a numerical model, which exhibit similar behavior. This framework is conceptual, but builds upon the well-accepted Newmark sliding block approach to provide an alternative means of assessing post-earthquake slope movements. •The NNM procedure demonstrates utility for assessing a slope profile subject to horizontal or vertical changes after seismic loading.•This procedure captures regions of distributed shear within a slope and enables a geometric constraint of toe movement, as one would practically expect in realistic slope failures. The resulting profiles often demonstrate bulging and subsidence at the slope toe and crest, respectively.•The NNM framework is versatile and can be modified to incorporate a range of failure mechanisms outside of translational failures.
Author	Leshchinsky, Ben A.
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Cites_doi	10.1016/j.enggeo.2005.10.006 10.1061/(ASCE)1090-0241(2001)127:11(905) 10.1680/geot.1989.39.1.91 10.1785/BSSA0730030863 10.3208/sandf1972.35.2_85 10.1061/(ASCE)1090-0241(2000)126:11(1002) 10.1061/(ASCE)1090-0241(2003)129:8(673) 10.1061/(ASCE)0733-9410(1994)120:11(2041) 10.1016/j.enggeo.2010.09.007 10.1139/t98-076 10.1061/(ASCE)0733-9410(1996)122:7(577) 10.1061/(ASCE)1090-0241(2005)131:5(610) 10.1016/j.soildyn.2015.01.010 10.1016/j.enggeo.2010.09.017 10.1016/j.enggeo.2006.02.018 10.1061/(ASCE)1090-0241(1997)123:7(635) 10.1002/eqe.4290110506 10.1016/S0267-7261(01)00007-0 10.3208/sandf.44.4_83 10.1680/geot.1965.15.2.139
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SubjectTerms	Displacement Earthquake geometry geophysics Landslides Limit equilibrium mathematical models Newmark Seismic Slope stability
Title	Nested Newmark model to calculate the post-earthquake profile of slopes
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