The Study of Meshless Method Simulation of Plate Bending Problem

Yu Ling Jiao; Guang Wei Meng; Xu Xi Qin

doi:10.4028/www.scientific.net/AMR.446-449.3633

Paper Titles

The Finite Element Model Study of the Pre-Twisted Euler Beam
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Dynamic Characteristics Analysis of Stepped Circular Plates
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Analysis of Mechanical Behavior of Subway Tunnel Constructed by Cover and Cut Reverse Method
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Finite Element Analysis of Plane Shear(Mode II) Fracture Mechanism of Brittle Rock at High Temperature
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The Study of Meshless Method Simulation of Plate Bending Problem
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Study of Crack Growth Based on Extended Finite Element Method
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Effect of High Pressure on Dynamic Compressive Strength of A95 Alumina Ceramics
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Experamental Study on Temperature Characteristic of Compound Crumb Rubber Modified Asphalt and Mixture
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Experiment Study on Corrosion Rate of Concrete Specimens Immersed in Sulfuric Acid
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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 446-449The Study of Meshless Method Simulation of Plate...

The Study of Meshless Method Simulation of Plate Bending Problem

Abstract:

moving least square meshless method is a numerical approximation based on points that do not generate the grid of cells, as long as the node information. Basis function and weight function meshless method for the calculation of accuracy have a significant impact. In order to compare the order of the base functions and powers of the radius of influence domain function meshless method for computational accuracy and efficiency , this paper selected first, second and third basis function and spline-type weight function in a different influence domain radius, respectively construct the field function. Mindlin plate element is derived based on the format of the plate bending problem meshless discrete equations. Programming examples are calculated with elastic plate bending problems non-grid solutions, and analysis and comparison of their accuracy and efficiency, results show that the meshless method using elastic plate bending problem is feasible and effective.

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Periodical:

Advanced Materials Research (Volumes 446-449)

Pages:

3633-3638

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.446-449.3633

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Online since:

January 2012

Authors:

Yu Ling Jiao, Guang Wei Meng, Xu Xi Qin

Keywords:

Basis Function, Elastic Plate Bending, Meshless Method, Mindlin Plate, Weight Function

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