Finite Element Method in the Research on the Application of Contact Deformation

Jia Jia Su; Jing Hu Chen

doi:10.4028/www.scientific.net/AMM.182-183.1585

Paper Titles

Convergence Analysis for the Elliptic Boundary Value Problem of Rectangle Nested Refinement Finite Element with Q₁ Truncation
p.1567

The Weighted Error Estimation of Finite Element Method for Two-Point Boundary Value Problem
p.1571

Studies on the Thermal Decomposition Kinetic of an Nitrate Ester
p.1575

Nonlinear Analysis of Two Shear Walls Using Elastic Plastic Damage Model
p.1581

Finite Element Method in the Research on the Application of Contact Deformation
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Construction of Planar Dynamic Systems with Function of Non-Linear Angle Variables
p.1590

The Load Analysis of Chisel-Edge Ruling Tool for Diffraction Gratings
p.1596

The Parameter Inversion and Stress Simulation Analysis for High RCC Gravity Dam in Construction
p.1600

Study on Blank Holder Force Control in Sheet Metal Forming Process
p.1605

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 182-183Finite Element Method in the Research on the...

Finite Element Method in the Research on the Application of Contact Deformation

Abstract:

Wear is the matrix surface and plastic deformation as the basic factors of the phenomenon, this paper analyzed with abaqus finite element method friction deformation which stress. The results show that the stress state changes drastically with different friction coefficient and the distribution of plastic deformation regions also changes. The regions seriously damaged by friction lead to fatigue via plastic deformation, which is the main reason for material friction and then dislocation friction occurs.

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Periodical:

Applied Mechanics and Materials (Volumes 182-183)

Pages:

1585-1589

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.182-183.1585

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Online since:

June 2012

Authors:

Jia Jia Su, Jing Hu Chen

Keywords:

Contact Mechanics, Fatigue Wear, Finite Element Method (FEM)

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References

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