An interface shell element for coupling non-matching quadrilateral shell meshes

Thuan Ho-Nguyen-Tan; Hyun Gyu Kim

doi:10.1016/j.compstruc.2018.07.008

An interface shell element for coupling non-matching quadrilateral shell meshes

Thuan Ho-Nguyen-Tan
, Hyun Gyu Kim

Dept. of Mechanical & Automotive Engineering

Seoul National University of Science and Technology (SNUST)

Research output: Contribution to journal › Article › peer-review

13 Scopus citations

Abstract

In this study, a novel interface shell element (ISE) is developed based on a variable-node element formulation to couple non-matching quadrilateral shell meshes. Shape functions for ISEs are explicitly presented in a polynomial form with the use of appropriate supports of weight functions in moving least square (MLS) approximation. Assumed natural strains in the form of the mixed interpolation of tensorial components (MITC) approach are employed to avoid the transverse shear locking when the thickness of shell tends to zero. Moreover, an assumed membrane strain field defined over quadrilateral subdomains subdividing an ISE is used to alleviate the membrane locking in curved ISEs. Numerical experiments show the effectiveness and efficiency of ISE for connecting dissimilar quadrilateral shell meshes at a common interface.

Original language	English
Pages (from-to)	151-173
Number of pages	23
Journal	Computers and Structures
Volume	208
DOIs	https://doi.org/10.1016/j.compstruc.2018.07.008
State	Published - 1 Oct 2018

Keywords

Interface shell element
Membrane locking
Non-matching meshes
Transverse shear locking
Variable-node elements

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10.1016/j.compstruc.2018.07.008

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title = "An interface shell element for coupling non-matching quadrilateral shell meshes",

abstract = "In this study, a novel interface shell element (ISE) is developed based on a variable-node element formulation to couple non-matching quadrilateral shell meshes. Shape functions for ISEs are explicitly presented in a polynomial form with the use of appropriate supports of weight functions in moving least square (MLS) approximation. Assumed natural strains in the form of the mixed interpolation of tensorial components (MITC) approach are employed to avoid the transverse shear locking when the thickness of shell tends to zero. Moreover, an assumed membrane strain field defined over quadrilateral subdomains subdividing an ISE is used to alleviate the membrane locking in curved ISEs. Numerical experiments show the effectiveness and efficiency of ISE for connecting dissimilar quadrilateral shell meshes at a common interface.",

keywords = "Interface shell element, Membrane locking, Non-matching meshes, Transverse shear locking, Variable-node elements",

author = "Thuan Ho-Nguyen-Tan and Kim, \{Hyun Gyu\}",

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AU - Ho-Nguyen-Tan, Thuan

AU - Kim, Hyun Gyu

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N2 - In this study, a novel interface shell element (ISE) is developed based on a variable-node element formulation to couple non-matching quadrilateral shell meshes. Shape functions for ISEs are explicitly presented in a polynomial form with the use of appropriate supports of weight functions in moving least square (MLS) approximation. Assumed natural strains in the form of the mixed interpolation of tensorial components (MITC) approach are employed to avoid the transverse shear locking when the thickness of shell tends to zero. Moreover, an assumed membrane strain field defined over quadrilateral subdomains subdividing an ISE is used to alleviate the membrane locking in curved ISEs. Numerical experiments show the effectiveness and efficiency of ISE for connecting dissimilar quadrilateral shell meshes at a common interface.

AB - In this study, a novel interface shell element (ISE) is developed based on a variable-node element formulation to couple non-matching quadrilateral shell meshes. Shape functions for ISEs are explicitly presented in a polynomial form with the use of appropriate supports of weight functions in moving least square (MLS) approximation. Assumed natural strains in the form of the mixed interpolation of tensorial components (MITC) approach are employed to avoid the transverse shear locking when the thickness of shell tends to zero. Moreover, an assumed membrane strain field defined over quadrilateral subdomains subdividing an ISE is used to alleviate the membrane locking in curved ISEs. Numerical experiments show the effectiveness and efficiency of ISE for connecting dissimilar quadrilateral shell meshes at a common interface.

KW - Interface shell element

KW - Membrane locking

KW - Non-matching meshes

KW - Transverse shear locking

KW - Variable-node elements

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DO - 10.1016/j.compstruc.2018.07.008

M3 - Article

AN - SCOPUS:85051363005

SN - 0045-7949

VL - 208

SP - 151

EP - 173

JO - Computers and Structures

JF - Computers and Structures

ER -

An interface shell element for coupling non-matching quadrilateral shell meshes

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Keywords

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