Advanced search
Publication Cover
Tribology Transactions Volume 59, 2016 - Issue 6
Submit an article Journal homepage
372
Views
20
CrossRef citations to date
0
Altmetric
Original Articles

Pressure Distribution of a Multidisc Clutch Suffering Frictionally Induced Thermal Load

Likun YangNational Key Laboratory of Vehicle Transmission, Beijing Institute of Technology, Beijing, China;Department of Mechanical Engineering, Virginia Polytechnic Institute and State University, Blacksburg, Virginia, USA
,
Biao MaNational Key Laboratory of Vehicle Transmission, Beijing Institute of Technology, Beijing, China
,
Mehdi AhmadianDepartment of Mechanical Engineering, Virginia Polytechnic Institute and State University, Blacksburg, Virginia, USA
,
Heyan LiNational Key Laboratory of Vehicle Transmission, Beijing Institute of Technology, Beijing, ChinaCorrespondence[email protected]
&
Brian VickDepartment of Mechanical Engineering, Virginia Polytechnic Institute and State University, Blacksburg, Virginia, USA
Pages 983-992 | Received 28 Apr 2015, Accepted 28 Nov 2015, Published online: 23 Jun 2016

References

  • Day, A. J., Tirovic, M., and Newcomb, T. P. (1991), “Thermal Effects and Pressure Distributions in Brakes,” Proceedings of the Institution of Mechanical Engineers - Part D: Journal of Automobile Engineering, 205(3), pp 199–206.
  • Fatima, N., Marklund, P., and Larsson, R. (2013), “Influence of Clutch Output Shaft Inertia and Stiffness on the Performance of the Wet Clutch,” Tribology Transactions, 56(2), pp 310–319.
  • Hwang, P., Wu, X., and Jeon, Y. B. (2009), “Thermal–Mechanical Coupled Simulation of a Solid Brake Disc in Repeated Braking Cycles,” Proceedings of the Institution of Mechanical Engineers, Part J: Journal of Engineering Tribology, 223(7), pp 1041–1048.
  • Hwang, P., and Wu, X. (2010), “Investigation of Temperature and Thermal Stress in Ventilated Disc Brake Based on 3D Thermo-Mechanical Coupling Model,” Journal of Mechanical Science and Technology, 24(1), pp 81–84.
  • Zhao, S., Hilmas, G. E., and Dharani, L. R. (2008), “Behavior of a Composite Multidisc Clutch Subjected to Mechanical and Frictionally Excited Thermal Load,” Wear, 264, pp 1059–1068.
  • Cho, H., and Cho, C. (2008), “Prediction of Hot Spots by Correlating Finite Element Analysis and Measurement for an Automotive Disk Brake,” Tribology Transactions, 51(5), pp 609–620.
  • Ouyang, H., Abu-Bakar, A., and Li, L. (2009), “A Combined Analysis of Heat Conduction, Contact Pressure and Transient Vibration of a Disk Brake,” International Journal of Vehicle Design, 51(1–2), pp 190–206.
  • Zagrodzki, P. (1985), “Numerical Analysis of Temperature Fields and Thermal Stresses in the Friction Discs of a Multidisc Wet Clutch,” Wear, 101(3), pp 255–271.
  • Zagrodzki, P. (1990), “Analysis of Thermomechanical Phenomena in Multidisc Clutches and Brakes,” Wear, 140(2), pp 291–308.
  • Choi, J., Han, J., and Lee, I. (2004), “Transient Analysis of Thermoelastic Contact Behaviors in Composite Multidisc Brakes,” Journal of Thermal Stresses, 27, pp 1149–1167.
  • Choi, J., and Lee, I. (2003), “Transient Thermoelastic Analysis of Disk Brakes in Frictional Contact,” Journal of Thermal Stresses, 26(3), pp 223–244.
  • Awrejcewicz, J., and Grzelczyk, D. (2011), “Modeling and Analytical /Numerical Analysis of Wear Process in a Mechanical Friction Clutch,” International Journal of Bifurcation and Chaos, 21(10), pp 2861–2869.
  • Grzelczyk, D., and Awrejcewicz, J. (2015), “Wear Processes in Mechanical Friction Clutch: Theoretical, Numerical and Experimental Studies,” Mathematical Problems in Engineering, 2015, pp 1–28.
  • Davis, C. L., Sadeghi, F., and Krousgrill, C. M. (2000), “A Simplified Approach to Modeling Thermal Effects in Wet Clutch Engagement: Analytical and Experimental Comparison,” Journal of Tribology, 122(1), pp 110–118.
  • Natsumeda, S., and Miyoshi, T. (1994), “Numerical Simulation of Engagement of Paper Based Wet Clutch Facing,” Journal of Tribology, 116(2), pp 232–237.
  • Ompusunggu, A., Sas, P., and Brussel, H. (2013), “Modeling and Simulation of the Engagement Dynamics of a Wet Friction Clutch System Subjected to Degradation: An Application to Condition Monitoring and Prognostics,” Mechatronics, 23(6), pp 700–712.
  • Pilipchuk, V., Olejnik, P., and Awrejcewicz, J. (2015), “Transient Friction-Induced Vibrations in a 2-DOF Model of Brakes,” Journal of Sound and Vibration, 344, pp 297–312.
  • Ingram, M., Noles, J., Watts, R., Harris, S., Spikes, H. A. (2011), “Friction Properties of Automatic Transmission Fluids: Part I—Measurement of Friction–Sliding Speed Behavior,” Tribology Transactions, 54(1), pp 145–153.
  • Al-Shabibi, A. M. (2014), “Transient Behavior of Initial Perturbation in Multidisc Clutch System,” Tribology Transactions, 57(6), pp 1164–1171.
  • Abdullah, O. I., and Schattmann, J. (2012), “Effect of Band Contact on the Temperature Distribution for Dry Friction Clutch,” World Academy of Science, Engineering and Technology, 69, pp 150–160.
  • Jen, T., and Nemecek, D. J. (2008), “Thermal Analysis of a Wet-Disk Clutch Subjected to a Constant Energy Engagement,” International Journal of Heat and Mass Transfer, 51(7–8), pp 1757–1769.
  • Grzes, P. (2009), “Finite Element Analysis of Disc Temperature during Braking Process,” Acta Mechanica et Automatica, 3(4), pp 36–42.
  • Patankar, S. V. (1980), Numerical Heat Transfer and Fluid Flow, McGraw-Hill Book Company: New York.
  • Tatara, R. A., and Payvar, P. (2002), “Multiple Engagement Wet Clutch Heat Transfer Model,” Numerical Heat Transfer, 42(3), pp 215–231.
  • Becker, A. A. (1992), The Boundary Element Method in Engineering, McGraw-Hill Book Company: New York.
  • Wriggers, P. (2002), Computational Contact Mechanics, John Wiley & Sons Ltd.: Sussex, UK.
  • Zhong, Z. (1993), Finite Element Procedures for Contact–Impact Problems, Oxford Science Publications: Oxford, UK.

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.