scholarly journals Fluid-structure interaction analysis on motion control of a self-propelled flexible plate near a rigid body utilizing PD control

2021 ◽  
Author(s):  
Yang Luo ◽  
Marvin Wright ◽  
Qing Xiao ◽  
Hong Yue ◽  
Guang Pan
Keyword(s):  
Rigid Body ◽  
Motion Control ◽  
Interaction Analysis ◽  
Fluid Structure Interaction ◽  
Flexible Plate ◽  
Pd Control ◽  
Fluid Structure ◽  
Structure Interaction

A computational fluid-structure interaction analysis of a fiber-reinforced stentless aortic valve

2003 ◽  
Vol 36 (5) ◽  
pp. 699-712 ◽  
Author(s):  
J. De Hart ◽  
F.P.T. Baaijens ◽  
G.W.M. Peters ◽  
P.J.G. Schreurs
Keyword(s):  
Aortic Valve ◽  
Interaction Analysis ◽  
Fluid Structure Interaction ◽  
Fiber Reinforced ◽  
Fluid Structure ◽  
Structure Interaction

scholarly journals B-Spline Impulse Response Functions of Rigid Bodies for Fluid-Structure Interaction Analysis

2018 ◽  
Vol 2018 ◽  
pp. 1-10 ◽  
Author(s):  
S. Zhou-Bowers ◽  
D. C. Rizos
Keyword(s):  
Impulse Response ◽  
Dynamic Models ◽  
Interaction Analysis ◽  
Fluid Structure Interaction ◽  
Rigid Bodies ◽  
The Body ◽  
Impulse Response Functions ◽  
Fluid Structure ◽  
B Spline ◽  
Structure Interaction

Reduced 3D dynamic fluid-structure interaction (FSI) models are proposed in this paper based on a direct time-domain B-spline boundary element method (BEM). These models are used to simulate the motion of rigid bodies in infinite or semi-infinite fluid media in real, or near real, time. B-spline impulse response function (BIRF) techniques are used within the BEM framework to compute the response of the hydrodynamic system to transient forces. Higher-order spatial and temporal discretization is used in developing the kinematic FSI model of rigid bodies and computing its BIRFs. Hydrodynamic effects on the massless rigid body generated by an arbitrary transient acceleration of the body are computed by a mere superposition of BIRFs. Finally, the dynamic models of rigid bodies including inertia effects are generated by introducing the kinematic interaction model to the governing equation of motion and solve for the response in a time-marching scheme. Verification examples are presented and demonstrate the stability, accuracy, and efficiency of the proposed technique.

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