A New Numerical Simulation System for a Flexible Beam with Imbedded Fluid

Ning Ma; Hui Xu; Jian Wei Wang

doi:10.4028/www.scientific.net/AMR.538-541.1024

Paper Titles

Rigid Finite Element Modeling of Ball Screw System
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Study on Estimate Model of Linear Objects’ Fractal Dimension
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Analysis of Hottest-Spot Temperature Distribution in Cast-Resin Dry-Type Transformer Design
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The PC Main Board Static Stress Analysis Using ABAQUS
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A New Numerical Simulation System for a Flexible Beam with Imbedded Fluid
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Algorithm and Application of Springback Modification for Complex Bending Parts
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A Rapid Inverse Method of Material Performance Parameters in Sheet Metal Forming
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Influence of Cooling Rate on the Microstructure in HCCI/Steel Bimetal Composite Hammer
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Optimization of Initial Blank Shape to Minimize Defects in an A Pillar Inner Panel Using Finite Element Method
p.1045

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A New Numerical Simulation System for a Flexible Beam with Imbedded Fluid

Abstract:

A new numerical simulation system of a flexible Euler beam with imbedded fluid subsystem, an expansive FLUENT UDF computing system, has been proposed and investigated in this paper. The results of numerical simulation basically matched the experiment. The shape of fluid free surface, the pressure field and the velocity field of the field commendably opened out the movement law of fluid in cavum and the characteristic of fluid-beam interworking, and explain the interior principle and validity of reducing vibration of the Interior Inlay Viscous Fluid Unit (IVFU) towards the flexible beam.