Analysis of a many-hole problem using coupling-matrix-free iterative s-version FEM with multiple local meshes

Analysis of a many-hole problem using coupling-matrix-free iterative s-version FEM with multiple local meshes

The coupling-matrix-free iterative s-version finite element method is extended to multiple local meshes in order to model multiple local features such as holes, inclusions, and cracks. The formulation with multiple local meshes is presented, along with the stress transfer method between the local me...

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Autores principales: Yasunori YUSA, Joe OKAMOTO, Daiji TOYAMA, Hiroshi OKADA
Formato: article
Lenguaje:EN
Publicado: The Japan Society of Mechanical Engineers 2018
Materias:
s-version finite element method
multiple local meshes
coupling stiffness matrix
iterative method
numerical integration
stress concentration problem
Mechanical engineering and machinery
TJ1-1570
Acceso en línea:https://doaj.org/article/d574ed0e72304b44b02749723f425a42
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Sumario:The coupling-matrix-free iterative s-version finite element method is extended to multiple local meshes in order to model multiple local features such as holes, inclusions, and cracks. The formulation with multiple local meshes is presented, along with the stress transfer method between the local meshes. The present method does not require the generation of coupling stiffness matrices with a very sophisticated numerical integration method between the global and local meshes or between the local meshes. Instead, stress transfers between pairs of overlapping meshes are performed. Several numerical examples, such as a patch test, a two-hole problem, and a structure with many holes, are presented. The examples demonstrate that the present method is capable of representing a uniform stress distribution as well as capturing the stress concentration of multiple holes that are located in the vicinity of each other. Moreover, numerical integration methods of the global mesh and local meshes are found to have significant influences on the convergence of the iteration. In these numerical examples, the straightforward Gaussian quadrature could not achieve convergence, whereas the element subdivision technique could. Thus, sufficient element subdivisions in the global mesh and the local meshes are necessary in order to produce a converged solution.

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