A reduced smoothed integration scheme of the cell‐based smoothed finite element method for solving fluid–structure interaction on severely distorted meshes

This article describes an inexpensive partitioned coupling strategy for computational fluid–structure interaction (FSI) admitting negative‐Jacobian elements. The emphasis is very much on a reduced smoothed integration (RSI) scheme of the cell‐based smoothed finite element method (CSFEM) using four‐n...

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Vydáno v:International journal for numerical methods in fluids Ročník 96; číslo 8; s. 1337 - 1364
Hlavní autoři: He, Tao, Lu, Fang‐Xing, Ma, Xi
Médium: Journal Article
Jazyk:angličtina
Vydáno: Bognor Regis Wiley Subscription Services, Inc 01.08.2024
Témata:
cell‐based smoothed finite element method
Effectiveness
Finite element method
Fluid-structure interaction
hourglass control
Integration
mesh distortion
Navier–Stokes
Quadrilaterals
reduced smoothed integration
ISSN:0271-2091, 1097-0363
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Shrnutí:This article describes an inexpensive partitioned coupling strategy for computational fluid–structure interaction (FSI) admitting negative‐Jacobian elements. The emphasis is very much on a reduced smoothed integration (RSI) scheme of the cell‐based smoothed finite element method (CSFEM) using four‐node quadrilateral (Q4) elements for a cost‐effective solution to the Navier–Stokes (NS) equations. In the discrete fluid field, each Q4 element is considered as one single smoothing cell so as to diminish the smoothed integration loops substantially. However, the RSI scheme does not respect the stability condition of smoothed Galerkin weak‐form integral in the CSFEM. To tackle this issue, a simple hourglass control is introduced to the under‐integrated formulation of the NS solver. Importantly, the stabilized RSI scheme has an inbuilt advantage of its enormous tolerance towards negative‐Jacobian elements. The developed technique is easy‐to‐implement and has been tested in various FSI examples adopting both fine and distorted meshes. This article develops a reduced smoothed integration (RSI) scheme of the cell‐based finite element method for fluid‐structure interaction. After introducing an hourglass control to the under‐integrated formulation, the RSI scheme has an inbuilt advantage of its enormous tolerance towards negative‐Jacobian elements. The proposed technique is tested, with good accuracy and higher efficiency, through various examples adopting fine and damaged meshes.
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ISSN:0271-2091
1097-0363
DOI:10.1002/fld.5289