Friction force models play a fundamental role for simulation ofmechanical systems. Their choice affects the matching of numerical results with physically observed behavior. Friction is a complex phenomenon depending on many physical parameters and working conditions, and none of the available models can claim general validity. This paper focuses the attention on well-known friction models and offers a review and comparison based on numerical efficiency. However, it should be acknowledged that each model has its own distinctive pros and cons. Suitability of the model depends on physical and operating conditions. Features such as the capability to replicate stiction, Stribeck effect, and pre-sliding displacement are taken into account when selecting a friction formulation. For mechanical systems, the computational efficiency of the algorithm is a critical issue when a fast and responsive dynamic computation is required. This paper reports and compares eight widespread engineering friction force models. These are divided into two main categories: those based on the Coulomb approach and those established on the bristle analogy.The numerical performances and differences of each model have been monitored and compared. Three test cases are discussed: theRabinowicz test and other two test problems casted for this occurrence.

Pennestri', E., Rossi, V., Salvini, P., Valentini, P.p. (2016). Review and comparison of dry friction force models. NONLINEAR DYNAMICS, 83(4), 1785-1801 [10.1007/s11071-015-2485-3].

Review and comparison of dry friction force models

PENNESTRI', ETTORE;SALVINI, PIETRO;VALENTINI, PIER PAOLO
2016-01-01

Abstract

Friction force models play a fundamental role for simulation ofmechanical systems. Their choice affects the matching of numerical results with physically observed behavior. Friction is a complex phenomenon depending on many physical parameters and working conditions, and none of the available models can claim general validity. This paper focuses the attention on well-known friction models and offers a review and comparison based on numerical efficiency. However, it should be acknowledged that each model has its own distinctive pros and cons. Suitability of the model depends on physical and operating conditions. Features such as the capability to replicate stiction, Stribeck effect, and pre-sliding displacement are taken into account when selecting a friction formulation. For mechanical systems, the computational efficiency of the algorithm is a critical issue when a fast and responsive dynamic computation is required. This paper reports and compares eight widespread engineering friction force models. These are divided into two main categories: those based on the Coulomb approach and those established on the bristle analogy.The numerical performances and differences of each model have been monitored and compared. Three test cases are discussed: theRabinowicz test and other two test problems casted for this occurrence.
2016
Pubblicato
Rilevanza internazionale
Articolo
Esperti anonimi
Settore ING-IND/13 - MECCANICA APPLICATA ALLE MACCHINE
Settore ING-IND/14 - PROGETTAZIONE MECCANICA E COSTRUZIONE DI MACCHINE
English
Friction; Stiction; Stick–slip; Rabinowicz test; Pre-sliding; Bristle
Pennestri', E., Rossi, V., Salvini, P., Valentini, P.p. (2016). Review and comparison of dry friction force models. NONLINEAR DYNAMICS, 83(4), 1785-1801 [10.1007/s11071-015-2485-3].
Pennestri', E; Rossi, V; Salvini, P; Valentini, Pp
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2108/130424
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