Abstract
Based upon a combination of a temporally-piecewise adaptive algorithm with an Element-Free Galerkin Scaled Boundary Method (EFG-SBM), a partitioning algorithm is presented for the two-dimensional viscoelastic analysis of cyclically symmetric structures. By expanding variables at a discretized time interval, the variations of variables can be described more precisely, and a space–time domain-coupled problem can be converted into a series of recurrent boundary value problems which are solved by an EFG-SBM-based partitioning algorithm via an adaptive computing process. Numerical examples are given to verify the proposed algorithm in terms of computing accuracy and efficiency.
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The research leading to this paper is funded by NSF [11572068], NKBRSF [2015CB057804], Natural Science Funding of Liaoning Province [201602115].
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Guo, X., Yang, H. Solving viscoelastic problems with cyclic symmetry via a temporally adaptive EFG-SB partitioning algorithm. Engineering with Computers 35, 101–113 (2019). https://doi.org/10.1007/s00366-018-0586-6
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DOI: https://doi.org/10.1007/s00366-018-0586-6