Nonlinear friction dynamics on fibrous materials, application to the characterization of surface quality. Part II: local characterization of phase space by recurrence plots

As has been shown in the first part of this series of papers, the global analysis of phase spaces does not allow one to access topographies of attractors, generated by the singular dynamic contacts between MODALSENS and our evaluated fibrous surfaces. By using the same time series from MODALSENS, th...

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Veröffentlicht in:	Nonlinear dynamics 2011-12, Vol.66 (4), p.647-665
Hauptverfasser:	Fontaine, Stéphane, Dia, Seydou, Renner, Marc
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Sprache:	eng
Schlagworte:	Automotive Engineering Cartography Classical Mechanics Control Dynamic tests Dynamical Systems Dynamics Engineering Friction Heterogeneity Mechanical Engineering Nonlinear dynamics Original Paper Surface properties Topography Vibration
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container_title	Nonlinear dynamics
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creator	Fontaine, Stéphane Dia, Seydou Renner, Marc
description	As has been shown in the first part of this series of papers, the global analysis of phase spaces does not allow one to access topographies of attractors, generated by the singular dynamic contacts between MODALSENS and our evaluated fibrous surfaces. By using the same time series from MODALSENS, this second paper presents a local exploration of the recurrences of the phase spaces. As a complement of the results from Part I, we propose, in this part of the work, a finer analysis of the vibrations of MODALSENS. Therefore, this part of the work aims at tracing friction dynamics cartographies of fibrous surfaces with the help of Recurrence Plots. This tool allows one to obtain images of recurrences in the space portraits. Hence, by regarding passages between strong and low magnitudes of vibrations, it is possible to take into account strong heterogeneities of relief and also the various mechanical and frictional behaviors of the asperities encountered during friction. Finally, Recurrence Quantification Analysis is performed in order to discuss the relationship between expected performances of the tested surfaces and their friction dynamics behaviors.
doi_str_mv	10.1007/s11071-011-9968-7
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subjects	Automotive Engineering Cartography Classical Mechanics Control Dynamic tests Dynamical Systems Dynamics Engineering Friction Heterogeneity Mechanical Engineering Nonlinear dynamics Original Paper Surface properties Topography Vibration
title	Nonlinear friction dynamics on fibrous materials, application to the characterization of surface quality. Part II: local characterization of phase space by recurrence plots
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