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Friction Induced Vibrations of Brakes: Research Fields and Activities
Technical Paper
2008-01-2579
ISSN: 0148-7191, e-ISSN: 2688-3627
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English
Abstract
Friction induced vibrations in brakes are a topic of major interest and concern for the automotive industry. The structural vibrations that may occur, as well as the audible noise that can be related to them, may lead to consequences as diverse as driver discomfort, maintenance requirements, and even safety issues. Although friction induced vibrations are known already since the beginnings of friction brake design, a generally accepted consensus on many aspects, like fundamental mechanisms or generic solution approaches, seems still to be debated. The present paper attempts to shed some light on the reasons for these persisting difficulties. A review of the different classes of phenomena appearing is given, which could be understood as an attempt to limit the scope of phenomena considered as friction induced. Research topics and disciplines involved will be identified and a clarification of achievements and unanswered questions will be attempted. Due to the enormous amount of work that has been done on the general topic during the last at least five centuries, and in the context of vehicle friction brakes during at least one century, it is of course not claimed to give an exhaustive and in-depth review of each and any line of thought and investigation. However, by synoptically bringing together the phenomenological as well as the disciplinary points of view, a contribution to explaining remaining difficulties and to addressing open research tasks is attempted.
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Citation
Hoffmann, N. and Gaul, L., "Friction Induced Vibrations of Brakes: Research Fields and Activities," SAE Technical Paper 2008-01-2579, 2008, https://doi.org/10.4271/2008-01-2579.Also In
References
- Abendroth H. Wernitz B. The integrated test concept: Dyno-vehicle, performance-noise SAE 2000-01-2774 2000
- Akay A. Acoustics of friction J. Acoust. Soc. Am. 111 1525 1548 2002
- Armstrong-Helouvry B. DuPont P. Canudas de Wit C. A survey of models, analysis tools and compensation methods for the control of machines with friction Automatica 30 1093 1138 1994
- Attia F. Abdelhamid M.K. Blaschke P. The psycho acoustical approaches behind the brake squeal evaluation procedure BONI SAE 2006-01-3210
- Brecht J. Mechanisms of brake creep groan SAE 973026 1997
- Cunefare K.A. Graf A.J. Experimental active control of automotive disc brake rotor squeal using dither J. Sound Vib. 250 579 590 2002
- Earles S.W.E. Chambers P.W. Disc brake squeal noise generation: predicting its dependency on system parameters including damping Int. J. Veh. Design 8 538 552 1987
- Eriksson M. Bergman F. Jacobson S. Surface characterisation of brake pads after running under silent and squealing conditions Wear 232 163 167 1999
- Flint J. Hulten J. Lining-deformation-induced modal coupling as squeal generator in a distributed parameter disc brake model J. Sound Vib. 254 1-21 2002
- Gauger U. Hanss M. Gaul L. Zur Simulation des Bremsenquietschens mit unsicheren Parametern. University Stuttgart 2007
- Gaul L. Nitsche R. The role of friction in mechanical joints Appl. Mech. Rev. 54 93 106 2001
- Gaul L. Allgaier R. Keiper W. Willner K. Untersuchungen zum Bremsenquietschen am Balken-Scheibe-Modell VDI-Bericht 1736 17 31 2002
- Giannini O. Sestieri A. Predictive model of squeal noise occurring on a laboratory brake J. Sound Vibr. 296 583 601 2006
- Gouya M. Nishiwaki M. Study on disc brake groan SAE 900007 1990
- Hess D.P. Soom A. Kim C.H. Normal Vibrations and friction at a Hertzian contact under random excitation: theory and experiments J. Sound Vib. 153 491 508 1992
- Hetzler H. Schwarzer D. Seemann W. Steady-state stability and bifurcations of friction oscillators due to velocity-dependent friction characteristics Proc. Inst. Mech. Eng. Part K, J. Multibody Dynamics 221 401 412 2007
- Hochlenert D. Spelsberg-Korspeter G. Hagedorn P. Friction induced vibrations in moving continua and their application to brake squeal J. Appl. Mech 74 542 549 2007
- Hoffmann N. Fischer M. Allgaier R. Gaul L. A minimal model for studying properties of the mode-coupling type instability in frictio induced oscillations Mech. Res. Comm. 29 197 205 2002
- Hoffmann N. Gaul L. The role of damping in mode-coupling type instability Z. Angew. Math. Mech. 83 524 534 2003
- Hoffmann N. Gaul L. A sufficient criterion for the onset of sprag slip oscillations Archive of Applied Mechanics 73 650 660 2004
- Hoffmann N. Bieser S. Gaul L. Harmonic Balance and Averaging Techniques for Stick-Slip Limit-Cycle Determination in Mode-Coupling Friction Self-Excited Systems Technische Mechanik 24 185 197 2004
- Hoffmann N. Wagner N. Gaul L. L. Quenching mode-coupling friction induced instability using high frequency dither Journal of Sound and Vibration 279 471 480 2005
- Hoffmann N. Linear stability of steady sliding in point contacts with velocity dependent and LuGre type friction Journal of Sound and Vibration 301 1023 1034 2007
- Hoffmann N. P. Iwankiewicz R. On the role of the random nature of friction in friction induced mode-coupling instability Proc. of Eurodyn 2008
- Ibrahim R.A. Friction-induced vibration, chatter, squeal, and chaos: part II - dynamics and modeling ASME Appl. Mech. Rev. 47 227 253 1994
- Ibrahim R.A. Madhavan S. Qiao S.L. Chang W.K. Experimental investigation of friction-induced noise in disc brake systems Int. J. Veh. Design 23 218 240 2000
- Jacobsson H. Aspects of Disc Brake Judder Proc. Inst. Mech. Eng. D J. Automobile Engineering 217 419 430 2003
- James S. Ouyang H. Brookfield D.J. Mottershead J.E. Disc Brake Squeal - An Experimental Approach Mat. Sc. Forum 440 237 244 2003
- Kinkaid N.M. Automotive disc brake squeal J. Sound Vib. 267 105 166 2003
- Kirillov O.N. Subcritical flutter in the acoustics of friction Proc. Roy. Soc. A 2008
- Massi F. Baillet L. Giannini O. Sestieri A. Brake squeal: Linear and nonlinear numerical approaches Mech. Syst. Sign. Proc. 21 2374 2393 2007
- Moirot F. Nguyen Q.S. Brake squeal: a problem of flutter instability of the steady sliding solution Arch. Mech. 52 645 661 2000
- Moser F. Storck H. Three step simulation process for brake squeal analysis Braking 2004 167 175 2004
- Nack W.V. Joshi A.M. Friction Induced Vibration: Brake Moan SAE 951095 1995
- Nguyen Q.S. Instability and friction C. R. Mecanique 331 99 112 2003
- North M.R. Disc brake squeal ImechE 1976
- Österle W. Urban I. Friction layers and friction films on PMC brake pads Wear 257 215 226 2004
- Ostermeyer G.P. On the dynamics of the friction coefficient Wear 254 852 858 2003
- Ostermeyer G.P. Müller M. Abendroth H. Wernitz B. Surface topography and wear dynamics of brake pads SAE 2006-01-3202 2006
- Ouyang H. Nack W. Yuan Y. Chen F. Numerical analysis of automotive disc brake squeal: a review Int. J. Vehicle Noise and Vibration 1 207 231 2005
- Popp K. Stelter P. Stick-Slip vibrations and chaos Phil. Trans. Roy. Soc. 332 89 105 1990
- Popp K. Rudolph M. Kröger M. Lindner M. Mechanisms to generate and to avoid friction induced vibrations VDI-Bericht 1736 2002
- Popp K. Vibration control to avoid stick-slip motion J. Vib. Contr. 10 1585 1600 2004
- Qiao S.L. Ibrahim R.A. Stochastic dynamics of systems with friction-induced vibration J. Sound Vib. 223 115 140 1999
- Rubinstein S. M. Cohen G. Fineberg J. Nature 430 1005 2004
- Rubinstein S.M. Cohen G. Fineberg J. Dynamics of Precursors to Frictional Sliding Phys. Rev. Lett. 98 2007
- Ruina A.L. Constitutive relations for frictional slip Bazant Z.P. Mechanics of Geomaterials: Rocks, Concrete, Soils Wiley New York 1985 169 188
- Schroth R. Hoffmann N. Swift R. Mechanism of Brake Squeal - from Theory to Experimentally Measured Mode Coupling XXII IMAC 2004
- Sinou J.-J. Jezequel L. Mode coupling instability in friction-induced vibrations and its dependency on system parameters including damping Europ. J. Mech. 26 106 122 2007
- Sinou J.-J. Thouverez F. Jezequel L. Analysis fo friction and instability by the centre manifold theory for a non-linear sprag-slip model J. Sound Vib. 265 527 559 2003
- Spurr R.T. A theory of brake squeal Proc. Inst. Mech. Eng. 1 33 52 1961
- Talbot C. Fieldhouse J.D. Animations of a disc brake generating noise SAE 2001-01-3126 2001
- Tan M. Stepper K. Abdelhamid K. Afaneh A. Blaschke P. An integrated process for design against brake squeal IMAC-XXI 2003
- Tuchinda A. Hoffmann N.P. Ewins D.J. Keiper W. Mode lock-in characteristics and instability study of the pin-on-disc system IMAC-XIX 2001
- von Wagner U. Hochlenert D. Jearsiripongkul T. Hagedorn P. Active control of brake squeal via smart pads SAE 2004-01-2773 2004
- Wallaschek J. Hach K.H. Stolz U. Mody P. A survey of the present state of friction modelling in the analytical and numerical investigation of brake squeal Proc. ASME Vibr. Conf. Las Vegas 1999
- Wernitz B. Hoffmann N. Linear and non-linear time series analysis of vibration in friction brakes WCCM8 Venice 2008
- Willner K. Representation of individual mode's damping in large-scale systems Personal Communication 2001
- Willner K. Elasto-plastic normal contact of three-dimensional fractal surfaces using halfspace theory J. Tribology 126 28 33 2004