Noncircular Slip Surface Search on Slopes Based on Minimum Potential Energy Method and Improved SA Algorithm

ABSTRACT The limit equilibrium method has been widely used in the study of searching the slip surface of slopes. However, the method ignores the deformation characteristics of the rock mass and assumes that the shape of the slip surface is circular, which is quite different from the actual situation...

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Published inInternational journal for numerical and analytical methods in geomechanics Vol. 49; no. 1; pp. 120 - 131
Main Authors Tang, Yi, Lin, Hang
Format Journal Article
LanguageEnglish
Published Bognor Regis Wiley Subscription Services, Inc 01.01.2025
Subjects
Algorithms
Compression
Deformation
Energy methods
Equilibrium methods
Finite difference method
improved simulated annealing
minimum potential energy method
noncircular slip surface
Potential energy
Rock masses
Rocks
safety factor
Search algorithms
Search methods
Shear deformation
Simulated annealing
Slip
Slope
Online AccessGet full text
ISSN0363-9061
1096-9853
DOI10.1002/nag.3865

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Abstract ABSTRACT The limit equilibrium method has been widely used in the study of searching the slip surface of slopes. However, the method ignores the deformation characteristics of the rock mass and assumes that the shape of the slip surface is circular, which is quite different from the actual situation of the slope. For this reason, this paper proposes a fast search method for noncircular slip surface considering the deformation characteristics of the rock mass. The method is able to calculate the compression and shear deformation energies stored in the slip surface, as well as the virtual displacement generated by the slide mass when the slope is in a critical equilibrium state. The direction of motion of the slide mass is further calculated from the magnitude of the virtual displacement. In addition, this paper improves the generation of new solutions in the simulated annealing (SA) algorithm for the structural characteristics of the slip surface of the slope, thus achieving a fast search of the slip surface. Finally, the method of this paper is compared with the test question of ACADS and the simulation results of the finite difference method (FDM) to verify the effectiveness of the method of this paper.
AbstractList The limit equilibrium method has been widely used in the study of searching the slip surface of slopes. However, the method ignores the deformation characteristics of the rock mass and assumes that the shape of the slip surface is circular, which is quite different from the actual situation of the slope. For this reason, this paper proposes a fast search method for noncircular slip surface considering the deformation characteristics of the rock mass. The method is able to calculate the compression and shear deformation energies stored in the slip surface, as well as the virtual displacement generated by the slide mass when the slope is in a critical equilibrium state. The direction of motion of the slide mass is further calculated from the magnitude of the virtual displacement. In addition, this paper improves the generation of new solutions in the simulated annealing (SA) algorithm for the structural characteristics of the slip surface of the slope, thus achieving a fast search of the slip surface. Finally, the method of this paper is compared with the test question of ACADS and the simulation results of the finite difference method (FDM) to verify the effectiveness of the method of this paper.
ABSTRACT The limit equilibrium method has been widely used in the study of searching the slip surface of slopes. However, the method ignores the deformation characteristics of the rock mass and assumes that the shape of the slip surface is circular, which is quite different from the actual situation of the slope. For this reason, this paper proposes a fast search method for noncircular slip surface considering the deformation characteristics of the rock mass. The method is able to calculate the compression and shear deformation energies stored in the slip surface, as well as the virtual displacement generated by the slide mass when the slope is in a critical equilibrium state. The direction of motion of the slide mass is further calculated from the magnitude of the virtual displacement. In addition, this paper improves the generation of new solutions in the simulated annealing (SA) algorithm for the structural characteristics of the slip surface of the slope, thus achieving a fast search of the slip surface. Finally, the method of this paper is compared with the test question of ACADS and the simulation results of the finite difference method (FDM) to verify the effectiveness of the method of this paper.
Author Tang, Yi
Lin, Hang
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Notes This study was funded by Projects (42277175) supported by National Natural Science Foundation of China; Project (2023JJ30657) supported by Hunan Provincial Natural Science Foundation of China; Guizhou Provincial Major Scientific and Technological Program (2023‐425); Hunan Provincial Department of Natural Resources Geological Exploration Project (2023ZRBSHZ056); The First National Natural Disaster Comprehensive Risk Survey in Hunan Province (2022‐70); and Key Project of the Hunan Provincial Department of Education (22A0566).
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Snippet ABSTRACT The limit equilibrium method has been widely used in the study of searching the slip surface of slopes. However, the method ignores the deformation...
The limit equilibrium method has been widely used in the study of searching the slip surface of slopes. However, the method ignores the deformation...
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SubjectTerms Algorithms
Compression
Deformation
Energy methods
Equilibrium methods
Finite difference method
improved simulated annealing
minimum potential energy method
noncircular slip surface
Potential energy
Rock masses
Rocks
safety factor
Search algorithms
Search methods
Shear deformation
Simulated annealing
Slip
Slope
Title Noncircular Slip Surface Search on Slopes Based on Minimum Potential Energy Method and Improved SA Algorithm
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