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Modeling of Friction Evolution and Assessment of Impacts on Vibration Excitation at the Pad-Disc Interface

Journal Article
2008-01-2582
ISSN: 1946-3995, e-ISSN: 1946-4002
DOI: https://doi.org/10.4271/2008-01-2582
Published October 12, 2008 by SAE International in United States
Modeling of Friction Evolution and Assessment of Impacts on Vibration Excitation at the Pad-Disc Interface
Sector:
Citation: Österle, W., Kloß, H., and Dmitriev, A., "Modeling of Friction Evolution and Assessment of Impacts on Vibration Excitation at the Pad-Disc Interface," SAE Int. J. Passeng. Cars - Mech. Syst. 1(1):1258-1266, 2009, https://doi.org/10.4271/2008-01-2582.
Language: English

References

  1. Rhee, S.K. “Automotive Brake NVH” Proc. IWAAFC-2 Bijwe J. Feb 07-08 2008 ITMMEC IIT Delhi 92 99
  2. Godet, M. “The third body approach: a mechanical view of wear” Wear 100 1984
  3. Jacko, M.G. Tsang P.H.S. Rhee S.K. “Wear debris compaction and friction film formation of polymer composites” Wear 133 1989 23 38
  4. Kinkaid, N.M. O'Reilly O.M. Papadopoulos P. “Automotive disc brake squeal” Journal of Sound and Vibration 267 2003 105 166
  5. Eriksson, M. “Friction and contact phenomena of disc brakes related to squeal” Uppsala University 2000, Acta Universitatis Upsaliensis 91-554-4716-3
  6. Rhee, S.K. Jacko M.G. Tsang P.H.S. The role of friction film in friction, wear and noise of automotive brakes” SAE Warrendale, PA 1990
  7. Psakhie, S.G. Horie Y. Ostermeyer G.P. et al. MCA method for simulating materials with mesostructure Theor.Appl.Fract.Mech. 37 2001 311 334
  8. Österle, W. Kloß H. Urban I. Dmitriev A.I. “Towards a better understanding of brake friction materials” Wear 263 2007 1189 1201
  9. Wirth, A. Eggleston D. Withaker R. “A fundamental tribochemical study of the third body layer formed during automotive friction braking” Wear 179 1994 75 81
  10. Scieszka, S.F. “Tribological phenomena in steel composite brake material friction pairs” Wear 64 1980 367 378
  11. Eriksson, M. Jacobson S. “Tribological surfaces of organic brake pads” Tribol.Int. 33 2000 817 827
  12. Filip, P. Weiss Z. Rafaja J. “On friction layer formation in polymer matrix composite materials for brake applications” Wear 252 2002 189 198
  13. Kemmer, H.A. “Investigation of the friction behaviour of automotive brakes through experiments and tribological modeling” University Paderborn 2002, Robert Bosch GmbH, Schriftenreihe 3-00-011230-8
  14. Dmitriev, A.I. Österle W. Kloß H. “Numerical simulation of typical contact situations of brake friction materials” Tribology International 41 2008 1 8
  15. Dmitriev, A.I. Österle W. Kloß H. “Numerical simulation of mechanically mixed layer formation at local contacts of an automotive brake system” Tribology Transactions
  16. Cho, M.H. Cho K.H. Kim S.J. Kim D.H. Jang H. “The role of transfer layers on friction characteristics in the sliding interface between friction materials against gray iron brake disks” Tribology Letters 20 2005 101 108
  17. Eriksson, M. Lord J. Jacobson S. “Wear and contact conditions of brake pads: dynamic in situ studies of pad on glass” Wear 249 2001 272 278
  18. Österle, W. Urban I. “Friction layers and friction films on PMC brake pads” Wear 257 2004 215 226
  19. Jibiki, T. Shima M. Akita H. Tamura M. “A basic study of friction noise caused by fretting” Wear 251 2001 1492 1503

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