Assessment of the Depth of the Deformed Layer in the Roller Burnishing Process

This paper presents the methods used to determine the depth of the plastically deformed top layer in the roller burnishing process. An analytical method was developed for determining the depth of the plastically deformed layer on the basis of the Hertz–Bielayev theory. The depth of deformation was o...

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Veröffentlicht in:	Strength of materials 2018-05, Vol.50 (3), p.493-503
Hauptverfasser:	Kowalik, M., Mazur, T., Trzepiecinski, T.
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Sprache:	eng
Schlagworte:	Burnishing Characterization and Evaluation of Materials Chemistry and Materials Science Classical Mechanics Computer simulation Deformation Finite element method Materials Science Mathematical models Process parameters Rings (mathematics) Roller burnishing Solid Mechanics
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creator	Kowalik, M. Mazur, T. Trzepiecinski, T.
description	This paper presents the methods used to determine the depth of the plastically deformed top layer in the roller burnishing process. An analytical method was developed for determining the depth of the plastically deformed layer on the basis of the Hertz–Bielayev theory. The depth of deformation was obtained as a function of the process parameters: burnishing force, material strength and roller radius. The analytical solution has been verified using an original method based on the measurement of the face profile of rings. A mathematical model for a theoretical solution and a plan for experimental tests have been developed. The numerical simulation of the depth of the plastically deformed layer was carried out based on the finite element method. The results of deformation depth as a function of roller force, material strength and roller geometry show a good agreement between analytical and experimental methods.
doi_str_mv	10.1007/s11223-018-9994-5
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An analytical method was developed for determining the depth of the plastically deformed layer on the basis of the Hertz–Bielayev theory. The depth of deformation was obtained as a function of the process parameters: burnishing force, material strength and roller radius. The analytical solution has been verified using an original method based on the measurement of the face profile of rings. A mathematical model for a theoretical solution and a plan for experimental tests have been developed. The numerical simulation of the depth of the plastically deformed layer was carried out based on the finite element method. 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An analytical method was developed for determining the depth of the plastically deformed layer on the basis of the Hertz–Bielayev theory. The depth of deformation was obtained as a function of the process parameters: burnishing force, material strength and roller radius. The analytical solution has been verified using an original method based on the measurement of the face profile of rings. A mathematical model for a theoretical solution and a plan for experimental tests have been developed. The numerical simulation of the depth of the plastically deformed layer was carried out based on the finite element method. The results of deformation depth as a function of roller force, material strength and roller geometry show a good agreement between analytical and experimental methods.</abstract><cop>New York</cop><pub>Springer US</pub><doi>10.1007/s11223-018-9994-5</doi><tpages>11</tpages><oa>free_for_read</oa></addata></record>
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subjects	Burnishing Characterization and Evaluation of Materials Chemistry and Materials Science Classical Mechanics Computer simulation Deformation Finite element method Materials Science Mathematical models Process parameters Rings (mathematics) Roller burnishing Solid Mechanics
title	Assessment of the Depth of the Deformed Layer in the Roller Burnishing Process
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