A Discussion on Present Theories of Rubber Friction, with Particular Reference to Different Possible Choices of Arbitrary Roughness Cutoff Parameters

A Discussion on Present Theories of Rubber Friction, with Particular Reference to Different Possible Choices of Arbitrary Roughness Cutoff Parameters

Since the early study by Grosch in 1963 it has been known that rubber friction shows generally two maxima with respect to speed—the first one attributed to adhesion, and another at higher velocities attributed to viscoelastic losses. The theory of Klüppel and Heinrich and that of...

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Main Authors: Andrea Genovese, Flavio Farroni, Antonio Papangelo, Michele Ciavarella
Format: Article
Language:English
Published: MDPI AG 2019-09-01
Series:Lubricants
Subjects:
rubber friction
viscoelasticity
roughness
Online Access:https://www.mdpi.com/2075-4442/7/10/85
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spelling doaj-7ac81d4910384691a46ff17456c67e272020-11-25T01:12:42ZengMDPI AGLubricants2075-44422019-09-017108510.3390/lubricants7100085lubricants7100085A Discussion on Present Theories of Rubber Friction, with Particular Reference to Different Possible Choices of Arbitrary Roughness Cutoff ParametersAndrea Genovese0Flavio Farroni1Antonio Papangelo2Michele Ciavarella3Department of Industrial Engineering, University of Naples Federico II, Via Claudio, 21-80125 Naples, ItalyDepartment of Industrial Engineering, University of Naples Federico II, Via Claudio, 21-80125 Naples, ItalyDepartment of Mechanics, Mathematics and Management, Politecnico di Bari, Via Orabona 4, 70125 Bari, ItalyDepartment of Mechanics, Mathematics and Management, Politecnico di Bari, Via Orabona 4, 70125 Bari, ItalySince the early study by Grosch in 1963 it has been known that rubber friction shows generally two maxima with respect to speed—the first one attributed to adhesion, and another at higher velocities attributed to viscoelastic losses. The theory of Klüppel and Heinrich and that of Persson suggests that viscoelastic losses crucially depend on the “multiscale” aspect of roughness and in particular on truncation at fine scales. In this study, we comment a little on both theories, giving some examples using Persson’s theory on the uncertainties involved in the truncation of the roughness spectrum. It is shown how different choices of Persson’s model parameters, for example the high-frequency cutoff, equally fit experimental data on viscoelastic friction, hence it is unclear how to rigorously separate the adhesive and the viscoelastic contributions from experiments.https://www.mdpi.com/2075-4442/7/10/85rubber frictionviscoelasticityroughness
collection DOAJ
language English
format Article
sources DOAJ
author Andrea Genovese
Flavio Farroni
Antonio Papangelo
Michele Ciavarella
spellingShingle Andrea Genovese
Flavio Farroni
Antonio Papangelo
Michele Ciavarella
A Discussion on Present Theories of Rubber Friction, with Particular Reference to Different Possible Choices of Arbitrary Roughness Cutoff Parameters
Lubricants
rubber friction
viscoelasticity
roughness
author_facet Andrea Genovese
Flavio Farroni
Antonio Papangelo
Michele Ciavarella
author_sort Andrea Genovese
title A Discussion on Present Theories of Rubber Friction, with Particular Reference to Different Possible Choices of Arbitrary Roughness Cutoff Parameters
title_short A Discussion on Present Theories of Rubber Friction, with Particular Reference to Different Possible Choices of Arbitrary Roughness Cutoff Parameters
title_full A Discussion on Present Theories of Rubber Friction, with Particular Reference to Different Possible Choices of Arbitrary Roughness Cutoff Parameters
title_fullStr A Discussion on Present Theories of Rubber Friction, with Particular Reference to Different Possible Choices of Arbitrary Roughness Cutoff Parameters
title_full_unstemmed A Discussion on Present Theories of Rubber Friction, with Particular Reference to Different Possible Choices of Arbitrary Roughness Cutoff Parameters
title_sort discussion on present theories of rubber friction, with particular reference to different possible choices of arbitrary roughness cutoff parameters
publisher MDPI AG
series Lubricants
issn 2075-4442
publishDate 2019-09-01
description Since the early study by Grosch in 1963 it has been known that rubber friction shows generally two maxima with respect to speed—the first one attributed to adhesion, and another at higher velocities attributed to viscoelastic losses. The theory of Klüppel and Heinrich and that of Persson suggests that viscoelastic losses crucially depend on the “multiscale” aspect of roughness and in particular on truncation at fine scales. In this study, we comment a little on both theories, giving some examples using Persson’s theory on the uncertainties involved in the truncation of the roughness spectrum. It is shown how different choices of Persson’s model parameters, for example the high-frequency cutoff, equally fit experimental data on viscoelastic friction, hence it is unclear how to rigorously separate the adhesive and the viscoelastic contributions from experiments.
topic rubber friction
viscoelasticity
roughness
url https://www.mdpi.com/2075-4442/7/10/85
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