A general shakedown approach for geo-structures under cyclic loading using ABAQUS/Python
Shakedown limit has been recognised as a design criterion against excessive permanent deformation for many geo-structures under cyclic loading. Existing approaches for determining shakedown limits of geo-structures are either case-oriented or time-consuming thus practically hindering their extended...
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| Published in | Acta geotechnica Vol. 17; no. 12; pp. 5773 - 5788 |
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| Main Authors | , |
| Format | Journal Article |
| Language | English |
| Published |
Berlin/Heidelberg
Springer Berlin Heidelberg
01.12.2022
Springer Nature B.V |
| Subjects | |
| Online Access | Get full text |
| ISSN | 1861-1125 1861-1133 |
| DOI | 10.1007/s11440-022-01499-4 |
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| Abstract | Shakedown limit has been recognised as a design criterion against excessive permanent deformation for many geo-structures under cyclic loading. Existing approaches for determining shakedown limits of geo-structures are either case-oriented or time-consuming thus practically hindering their extended applications. This paper is concerned with the development and implementation of a robust shakedown approach of wide applicability. The proposed approach draws on the advantages of the feature of a direct shakedown analysis based on lowerbound shakedown theorem, and powerful processing techniques in ABAQUS using Python. In the shakedown analysis, a time-independent residual stress field is expressed as a function of residual stress rate, which can be directly solved using the finite element theory, self-equilibrium conditions and a return mapping scheme considering a general plastic flow rule. By coding the analysis into a Python script, in cooperation with elastic solutions for only one load cycle and mesh-related matrices from ABAQUS, the shakedown limits of geostructures can be obtained. The accuracy and performance of the approach is first examined by analysing a central-holed plate problem and a pavement problem considering several common-used constitutive models. It is then applied to the analysis of a three-dimensional elliptical cavity under a cyclic inner pressure, revealing a gradual decline of the shakedown limit with increasing aspect ratio, from the analytical shakedown solution for a spherical cavity to the one for a cylindrical cavity. The numerical results demonstrate the proposed approach lends itself to a robust tool of obtaining shakedown limits for various geo-structures. |
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| AbstractList | Shakedown limit has been recognised as a design criterion against excessive permanent deformation for many geo-structures under cyclic loading. Existing approaches for determining shakedown limits of geo-structures are either case-oriented or time-consuming thus practically hindering their extended applications. This paper is concerned with the development and implementation of a robust shakedown approach of wide applicability. The proposed approach draws on the advantages of the feature of a direct shakedown analysis based on lowerbound shakedown theorem, and powerful processing techniques in ABAQUS using Python. In the shakedown analysis, a time-independent residual stress field is expressed as a function of residual stress rate, which can be directly solved using the finite element theory, self-equilibrium conditions and a return mapping scheme considering a general plastic flow rule. By coding the analysis into a Python script, in cooperation with elastic solutions for only one load cycle and mesh-related matrices from ABAQUS, the shakedown limits of geostructures can be obtained. The accuracy and performance of the approach is first examined by analysing a central-holed plate problem and a pavement problem considering several common-used constitutive models. It is then applied to the analysis of a three-dimensional elliptical cavity under a cyclic inner pressure, revealing a gradual decline of the shakedown limit with increasing aspect ratio, from the analytical shakedown solution for a spherical cavity to the one for a cylindrical cavity. The numerical results demonstrate the proposed approach lends itself to a robust tool of obtaining shakedown limits for various geo-structures. |
| Author | Tang, Xiaojun Wang, Juan |
| Author_xml | – sequence: 1 givenname: Xiaojun surname: Tang fullname: Tang, Xiaojun organization: Department of Civil Engineering, University of Nottingham Ningbo China – sequence: 2 givenname: Juan orcidid: 0000-0003-4128-8744 surname: Wang fullname: Wang, Juan email: juan.wang@nottingham.edu.cn organization: Department of Civil Engineering, University of Nottingham Ningbo China, Ningbo Nottingham New Materials Institute, University of Nottingham Ningbo China |
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| CitedBy_id | crossref_primary_10_1016_j_trgeo_2024_101210 crossref_primary_10_3390_buildings14071892 crossref_primary_10_1002_nag_3837 crossref_primary_10_1007_s40571_024_00740_z crossref_primary_10_1016_j_matdes_2024_112670 crossref_primary_10_1016_j_mex_2024_102632 |
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| SubjectTerms | Analysis Aspect ratio Complex Fluids and Microfluidics Constitutive models Cyclic loading Cyclic loads Deformation Design criteria Engineering Equilibrium conditions Finite element method Foundations Geoengineering Geotechnical Engineering & Applied Earth Sciences Hydraulics Mathematical models Plastic flow Programming languages Python Research Paper Residual stress Robustness (mathematics) Shakedown analysis Soft and Granular Matter Soil Science & Conservation Solid Mechanics Stress distribution Structures Three dimensional analysis |
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| Title | A general shakedown approach for geo-structures under cyclic loading using ABAQUS/Python |
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