Solution of the dynamic frictional contact problem between a functionally graded coating and a moving cylindrical punch

•Analytical method is developed to solve dynamic contact problem of graded coatings.•The rigid cylindrical punch moves at a constant speed on the graded coating.•The singular integral equation is solved to reveal the elastodynamic effects.•Results of the present analytical method are verified by com...

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Published inInternational journal of solids and structures Vol. 161; pp. 267 - 281
Main Authors Balci, Mehmet N., Dag, Serkan
Format Journal Article
LanguageEnglish
Published New York Elsevier Ltd 01.04.2019
Elsevier BV
Subjects
Boundary conditions
Coefficient of friction
Collocation methods
Contact stress
Contact stresses
Dynamic contact mechanics
Elastodynamics
Elastostatics
Fourier transforms
Frictional moving cylindrical punch
Functionally graded coating
Functionally gradient materials
Inhomogeneity
Integral equations
Partial differential equations
Singular integral equation
Singular integral equations
Functionally graded coating
Singular integral equation
Dynamic contact mechanics
Contact stress
Frictional moving cylindrical punch
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Abstract •Analytical method is developed to solve dynamic contact problem of graded coatings.•The rigid cylindrical punch moves at a constant speed on the graded coating.•The singular integral equation is solved to reveal the elastodynamic effects.•Results of the present analytical method are verified by comparison studies.•Dynamic effect on contact stresses due to punch speed is found to be significant. This paper presents an analytical method developed to investigate the dynamic frictional contact mechanics between a functionally graded coating and a rigid moving cylindrical punch. Governing partial differential equations of elastodynamics are solved analytically by applying Galilean and Fourier transformations. Interface continuity and boundary conditions are written and contact problem is then reduced to a singular integral equation of the second kind. The singular integral equation is solved numerically by means of an expansion-collocation method. Developed solution procedures are verified through the comparisons made to the results available in the literature. Presented parametric analyses illustrate the effects of punch speed, coefficient of friction, material inhomogeneity and geometric parameters upon the contact stresses. It is shown that, especially at higher punch speeds, the difference between contact stresses obtained through elastodynamic and elastostatic solutions is rather significant. A formulation based on the elastodynamic theory, as presented in the current study, is required to compute more realistic contact stresses.
AbstractList This paper presents an analytical method developed to investigate the dynamic frictional contact mechanics between a functionally graded coating and a rigid moving cylindrical punch. Governing partial differential equations of elastodynamics are solved analytically by applying Galilean and Fourier transformations. Interface continuity and boundary conditions are written and contact problem is then reduced to a singular integral equation of the second kind. The singular integral equation is solved numerically by means of an expansion-collocation method. Developed solution procedures are verified through the comparisons made to the results available in the literature. Presented parametric analyses illustrate the effects of punch speed, coefficient of friction, material inhomogeneity and geometric parameters upon the contact stresses. It is shown that, especially at higher punch speeds, the difference between contact stresses obtained through elastodynamic and elastostatic solutions is rather significant. A formulation based on the elastodynamic theory, as presented in the current study, is required to compute more realistic contact stresses.
•Analytical method is developed to solve dynamic contact problem of graded coatings.•The rigid cylindrical punch moves at a constant speed on the graded coating.•The singular integral equation is solved to reveal the elastodynamic effects.•Results of the present analytical method are verified by comparison studies.•Dynamic effect on contact stresses due to punch speed is found to be significant. This paper presents an analytical method developed to investigate the dynamic frictional contact mechanics between a functionally graded coating and a rigid moving cylindrical punch. Governing partial differential equations of elastodynamics are solved analytically by applying Galilean and Fourier transformations. Interface continuity and boundary conditions are written and contact problem is then reduced to a singular integral equation of the second kind. The singular integral equation is solved numerically by means of an expansion-collocation method. Developed solution procedures are verified through the comparisons made to the results available in the literature. Presented parametric analyses illustrate the effects of punch speed, coefficient of friction, material inhomogeneity and geometric parameters upon the contact stresses. It is shown that, especially at higher punch speeds, the difference between contact stresses obtained through elastodynamic and elastostatic solutions is rather significant. A formulation based on the elastodynamic theory, as presented in the current study, is required to compute more realistic contact stresses.
Author Balci, Mehmet N.
Dag, Serkan
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  surname: Balci
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  givenname: Serkan
  surname: Dag
  fullname: Dag, Serkan
  organization: Mechanical Engineering Department, Middle East Technical University, Ankara, Turkey
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Keywords Functionally graded coating
Singular integral equation
Dynamic contact mechanics
Contact stress
Frictional moving cylindrical punch
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Snippet •Analytical method is developed to solve dynamic contact problem of graded coatings.•The rigid cylindrical punch moves at a constant speed on the graded...
This paper presents an analytical method developed to investigate the dynamic frictional contact mechanics between a functionally graded coating and a rigid...
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SubjectTerms Boundary conditions
Coefficient of friction
Collocation methods
Contact stress
Contact stresses
Dynamic contact mechanics
Elastodynamics
Elastostatics
Fourier transforms
Frictional moving cylindrical punch
Functionally graded coating
Functionally gradient materials
Inhomogeneity
Integral equations
Partial differential equations
Singular integral equation
Singular integral equations
Title Solution of the dynamic frictional contact problem between a functionally graded coating and a moving cylindrical punch
URI https://dx.doi.org/10.1016/j.ijsolstr.2018.11.020
https://www.proquest.com/docview/2186793612
Volume 161
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