Parallel Volume Integral Equation Method for Two-Dimensional Elastodynamic Analysis
- Authors
- Lee, Jungki; Jeong, Hogwan
- Issue Date
- Sep-2019
- Publisher
- WORLD SCIENTIFIC PUBL CO PTE LTD
- Keywords
- Two-dimensional elastodynamic analysis; multilayered anisotropic inclusions; parallel volume integral equation method
- Citation
- INTERNATIONAL JOURNAL OF COMPUTATIONAL METHODS, v.16, no.6
- Journal Title
- INTERNATIONAL JOURNAL OF COMPUTATIONAL METHODS
- Volume
- 16
- Number
- 6
- URI
- https://scholarworks.bwise.kr/hongik/handle/2020.sw.hongik/1143
- DOI
- 10.1142/S021987621840025X
- ISSN
- 0219-8762
- Abstract
- The parallel volume integral equation method (PVIEM) is applied for the analysis of two-dimensional elastic wave scattering problems in an unbounded isotropic solid containing various types of multiple multilayered anisotropic inclusions. It should be noted that the volume integral equation method (VIEM) does not require the use of the Green's function for the anisotropic inclusion-only the Green's function for the unbounded isotropic matrix is needed. A detailed analysis of the SH wave scattering problem is presented for various types of multiple multilayered orthotropic inclusions. Numerical results are presented for the elastic fields at the interfaces for square and hexagonal packing arrays of various types of multilayered orthotropic inclusions in a broad frequency range of practical interest. Standard parallel programming was used to speed up computation in the VIEM. The PVIEM enables us to investigate the effects of single/multiple scattering, fiber packing type, fiber volume fraction, single/multiple layer(s), multilayer's shapes and geometry, isotropy/anisotropy, and softness/hardness of various types of multiple multilayered anisotropic inclusions on displacements and stresses at the interfaces of the inclusions and far-field scattering patterns. Also, powerful capabilities of the PVIEM for the analysis of general two-dimensional multiple scattering problems are investigated.
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Collections - College of Science and Technology > Department of Mechanical and Design Engineering > 1. Journal Articles
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