Article
Open Access
Non-linear flow-induced vibrations in deformable curved bodies: A lattice Boltzmann-immersed boundary-finite element study
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Alessandro De Rosis
Published/Copyright:
May 27, 2015
Received: 2015-4-10
Accepted: 2015-5-15
Published Online: 2015-5-27
© 2015 Alessandro De Rosis
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- Prediction of natural frequencies of laminated curved panels using refined 2-D theories in the spectral collocation method
- A two dimensions modeling of non-collocated piezoelectric patches bonded on thin structure
- Vibration analysis of multi-stepped and multi-damaged parabolic arches using GDQ
- Curved composite beam with interlayer slip loaded by radial load
- Isogeometric treatment of large deformation contact and debonding problems with T-splines: a review
- Design and Optimization of a Composite Canard Control Surface of an Advanced Fighter Aircraft under Static Loading
- The Algebraic Formulation: Why and How to Use it
- Nonlinear forced vibration response of smart two-phase nano-composite beams to external harmonic excitations
- Free vibration behavior of laminated composite stiffened elliptic parabolic shell panel with cutout
- Redesigning of a Canard Control Surface of an Advanced Fighter Aircraft: Effect on Buckling and Aerodynamic Behavior
- The Cell Method: An Overview on the Main Features
- Flexural strengthening of Reinforced Concrete (RC) Beams Retrofitted with Corrugated Glass Fiber Reinforced Polymer (GFRP) Laminates
- Analytical solution to bending of stiffened and continuous antisymmetric laminates
- Determination of fracture parameters for interface cracks in transverse isotropic magnetoelectroelastic composites
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- A nth-order shear deformation theory for composite laminates in cylindrical bending
- Heat conduction and Thermal Stress Analysis of laminated composites by a variable kinematic MITC9 shell element
- Non-linear flow-induced vibrations in deformable curved bodies: A lattice Boltzmann-immersed boundary-finite element study
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Keywords for this article
Fluid-structure interaction;
Curved bodies;
Lattice
Boltzmann method;
Immersed Boundary method
Creative Commons
BY-NC-ND 3.0
Articles in the same Issue
- Prediction of natural frequencies of laminated curved panels using refined 2-D theories in the spectral collocation method
- A two dimensions modeling of non-collocated piezoelectric patches bonded on thin structure
- Vibration analysis of multi-stepped and multi-damaged parabolic arches using GDQ
- Curved composite beam with interlayer slip loaded by radial load
- Isogeometric treatment of large deformation contact and debonding problems with T-splines: a review
- Design and Optimization of a Composite Canard Control Surface of an Advanced Fighter Aircraft under Static Loading
- The Algebraic Formulation: Why and How to Use it
- Nonlinear forced vibration response of smart two-phase nano-composite beams to external harmonic excitations
- Free vibration behavior of laminated composite stiffened elliptic parabolic shell panel with cutout
- Redesigning of a Canard Control Surface of an Advanced Fighter Aircraft: Effect on Buckling and Aerodynamic Behavior
- The Cell Method: An Overview on the Main Features
- Flexural strengthening of Reinforced Concrete (RC) Beams Retrofitted with Corrugated Glass Fiber Reinforced Polymer (GFRP) Laminates
- Analytical solution to bending of stiffened and continuous antisymmetric laminates
- Determination of fracture parameters for interface cracks in transverse isotropic magnetoelectroelastic composites
- Bending analysis of laminated composite and sandwich beams according to refined trigonometric beam theory
- A nth-order shear deformation theory for composite laminates in cylindrical bending
- Heat conduction and Thermal Stress Analysis of laminated composites by a variable kinematic MITC9 shell element
- Non-linear flow-induced vibrations in deformable curved bodies: A lattice Boltzmann-immersed boundary-finite element study
- Stochastic Thermal Post Buckling Response of Elastically Supported Laminated Piezoelectric Composite Plate Using Micromechanical approach
- Energy methods for curved composite beams with partial shear interaction
