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Scale-bridging with the extended/generalized finite element method for linear elastodynamics

Publication ,  Journal Article
Geelen, R; Plews, J; Dolbow, J
Published in: Computational Mechanics
August 1, 2021

This paper presents an extended/generalized finite element method for bridging scales in linear elastodynamics in the absence of scale separation. More precisely, the GFEMgl framework is expanded to enable the numerical solution of multiscale problems through the automated construction of specially-tailored shape functions, thereby enabling high-fidelity finite element modeling on simple, fixed finite element meshes. This introduces time-dependencies in the shape functions in that they are subject to continuous adaptation with time. The temporal aspects of the formulation are investigated by considering the Newmark-β time integration scheme, and the efficacy of mass lumping strategies is explored in an explicit time-stepping scheme. This method is demonstrated on representative wave propagation examples as well as a dynamic fracture problem to assess its accuracy and flexibility.

Duke Scholars

Published In

Computational Mechanics

DOI

EISSN

1432-0924

ISSN

0178-7675

Publication Date

August 1, 2021

Volume

68

Issue

2

Start / End Page

295 / 310

Related Subject Headings

  • Applied Mathematics
  • 4017 Mechanical engineering
  • 4005 Civil engineering
  • 0915 Interdisciplinary Engineering
  • 0913 Mechanical Engineering
  • 0905 Civil Engineering
 

Citation

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Geelen, R., Plews, J., & Dolbow, J. (2021). Scale-bridging with the extended/generalized finite element method for linear elastodynamics. Computational Mechanics, 68(2), 295–310. https://doi.org/10.1007/s00466-021-02032-2
Geelen, R., J. Plews, and J. Dolbow. “Scale-bridging with the extended/generalized finite element method for linear elastodynamics.” Computational Mechanics 68, no. 2 (August 1, 2021): 295–310. https://doi.org/10.1007/s00466-021-02032-2.
Geelen R, Plews J, Dolbow J. Scale-bridging with the extended/generalized finite element method for linear elastodynamics. Computational Mechanics. 2021 Aug 1;68(2):295–310.
Geelen, R., et al. “Scale-bridging with the extended/generalized finite element method for linear elastodynamics.” Computational Mechanics, vol. 68, no. 2, Aug. 2021, pp. 295–310. Scopus, doi:10.1007/s00466-021-02032-2.
Geelen R, Plews J, Dolbow J. Scale-bridging with the extended/generalized finite element method for linear elastodynamics. Computational Mechanics. 2021 Aug 1;68(2):295–310.
Journal cover image

Published In

Computational Mechanics

DOI

EISSN

1432-0924

ISSN

0178-7675

Publication Date

August 1, 2021

Volume

68

Issue

2

Start / End Page

295 / 310

Related Subject Headings

  • Applied Mathematics
  • 4017 Mechanical engineering
  • 4005 Civil engineering
  • 0915 Interdisciplinary Engineering
  • 0913 Mechanical Engineering
  • 0905 Civil Engineering