한국자동차공학회논문집 (Transactions of the Korean Society of Automotive Engineers)

  • 제11권1호
  • /
  • Pages.137-142
  • /
  • 2003
  • /
  • 1225-6382(pISSN)
  • /
  • 2234-0149(eISSN)
한국자동차공학회 (The Korean Society of Automotive Engineers)
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Axisymmetric Temperature Analysis of Ventilated Disk using Equivalent Parameters

  • 여태인 (울산대학교 기계 자동차공학부)
  • 발행 : 2003.01.01
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초록

In automotive brake systems, the frictional heat generated can cause high temperature at the interface of rotor and pad which may deteriorate the material properties of the sliding parts and can result in brake fade. Conventionally, a pie-shaped 3-dimentional model is adopted to calculate temperature of ventilated disk using finite element method. To overcome the difficulties in preparing 3D finite element model and reduce the computational time required, the ventilated rotor is to be analyzed, in this study, as an axisymmetric finite element model in which, taking into considerations the effects of cooling passages, a homogenization technique is used to obtain the equivalent thermal properties and boundary conditions for the elements placed at the vent holes. Numerical tests show the proposed procedure can be successfully applied in practice, replacing 3-dimensional thermal analysis of ventilated disk.

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참고문헌

  1. Proceedings of the 19th Annual Brake Colloquium & Exhibition An Experimental Investigation of Hot Judder J. D. Fieldhouse;C. Beveridge
  2. SAE 890086 Computation of a Thermally Stressed Brake Disc B. Blot
  3. The Finite Element Method T. J. R. Huges
  4. Journal of Tribology v.116 Non-axisymmetric Effects for 3D Thermoelastic Analysis of a Brake System A. Floquet;M. C. Dubourg https://doi.org/10.1115/1.2928852
  5. A Study on Wear Life Prediction of Disk Brake Pads v.10 no.4 Taein Yeo
  6. Journal of Tribology v.118 Realistic Braking Operation Simulation of Ventilated Disk Brakes A. Floquet;M. C. Dubourg https://doi.org/10.1115/1.2831559
  7. SAE 880256 Approaches to the Thermal Modeling of Disc Brakes D. C. Sheridan;J. A. Kutchey;F. Samie
  8. Brake Design and Safety R. Limpert