The stochastic Galerkin scaled boundary finite element method on random domain |
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Authors: | Duy Minh Do Wei Gao Albert A Saputra Chongmin Song Chi Hang Leong |
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Affiliation: | School of Civil and Environmental Engineering, The University of New South Wales, Sydney, NSW, Australia |
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Abstract: | The research work extends the scaled boundary finite element method to non‐deterministic framework defined on random domain wherein random behaviour is exhibited in the presence of the random‐field uncertainties. The aim is to blend the scaled boundary finite element method into the Galerkin spectral stochastic methods, which leads to a proficient procedure for handling the stress singularity problems and crack analysis. The Young's modulus of structures is considered to have random‐field uncertainty resulting in the stochastic behaviour of responses. Mathematical expressions and the solution procedure are derived to evaluate the statistical characteristics of responses (displacement, strain, and stress) and stress intensity factors of cracked structures. The feasibility and effectiveness of the presented method are demonstrated by particularly chosen numerical examples. Copyright © 2016 John Wiley & Sons, Ltd. |
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Keywords: | scaled boundary finite element method random field Karhunen– Loeve expansion uncertainty polynomial chaos expansion |
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