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http://yadda.icm.edu.pl:80/baztech/element/bwmeta1.element.baztech-a6bcd9ce-ee1f-4844-8ac2-1d6257658b80

Czasopismo

Journal of Theoretical and Applied Mechanics

Tytuł artykułu

Axisymmetric fe model to analysis of thermal stresses in a brake disk

Autorzy Adamowicz, A. 
Treść / Zawartość
Warianty tytułu
Języki publikacji EN
Abstrakty
EN The preceding to this study was a finite element analysis (FEA) of transient temperature fields in a disk brake. In this paper, a FE model to determine corresponding quasi-static stresses in a such tribosystem is proposed. Numerical simulation of a single braking process for the 2D axisymmetric model of the brake disk is carried out. It is assumed that the contact pressure on the friction surfaces is constant, and the angular speed decreases linearly. Evolutions and spatial distributions of the components of the stress tensor and the equivalent Huber-Mises stress in the disk are analyzed.
Słowa kluczowe
EN frictional heating   thermal stresses   pad-disk brake system   finite element method  
Wydawca Polskie Towarzystwo Mechaniki Teoretycznej i Stosowanej
Czasopismo Journal of Theoretical and Applied Mechanics
Rocznik 2015
Tom Vol. 53 nr 2
Strony 357--370
Opis fizyczny Bibliogr. 27 poz., rys., tab.
Twórcy
autor Adamowicz, A.
  • Bialystok University of Technology (BUT), Faculty of Mechanical Engineering, Białystok, Poland, a.adamowicz@pb.edu.pl
Bibliografia
1. Adamowicz A., Grzes P., 2011a, Analysis of disc brake temperature distribution during single braking under non-axisymmetric load, Applied Thermal Engineering, 31, 1003-1012
2. Adamowicz A., Grzes P., 2011b, Influence of convective cooling on a disc brake temperature distribution during repetitive braking, Applied Thermal Engineering, 31, 2177-2185
3. Adamowicz A., Grzes P., 2013, Three-dimensional FE model for calculation of temperature of a thermosensitive disc, Applied Thermal Engineering, 50, 572-581
4. Burczyński T., 1995, The Boundary Element Method in Mechanics, WNT, Warsaw
5. Chichinadze A.V., 1967, Calculation And Investigation Of External Friction During Braking (in Russian), Nauka, Moscow
6. Choi J-H., Lee I., 2003, Transient thermoelastic analysis of disk brakes in frictional contact, Journal of Thermal Stresses, 26, 223-244
7. Choi J.-H., Lee I., 2004, Finite element analysis of transient thermoelastic behaviors in disk brakes, Wear, 257, 47-58
8. Collignon M., Cristol A.-L., Dufr´enoy P., Desplanques Y., Balloy D., 2013, Failure of truck brake discs: a coupled numerical-experimental approach to identifying critical thermomechanical loadings, Tribology International, 59, 114-120
9. Dufr´enoy P., Weichert D., 2003, A thermomechanical model for the analysis of disc brake fracture mechanisms, Journal of Thermal Stresses, 26, 815-828
10. Evtushenko A., Matysiak S., Kutsei M., 2005, Thermal problem of friction at braking of coated body, Journal of Friction and Wear, 26, N2, 33-40
11. Gao C.H., Huang J.M., Lin X.Z., Tang X.S., 2007, Stress analysis of thermal fatigue fracture of brake disks based on thermomechanical coupling, Journal of Tribology, ASME, 129, 536-543
12. Huebner K.H., Thornton E.A., 1982, The Finite Element Method for Engineers, John Wiley & Sons, New York
13. Mackin T.J., Noe S.C., Ball K.J., Bedell B.C., Bim-Merle D.P., Bingaman M.C., Bomleny D.M., Chemlir G.J., Clayton D.B., Evans H.A., Gau R., Hart J.L., Karney J.S., Kiple B.P., Kaluga R.C., Kung P., Law A.K., Lim D., Merema R.C., Miller B.M., Miller T.R., Nielson T.J., O’Shea T.M., Olson M.T., Padilla H.A., Penner B.W., Penny C., Peterson R.P., Polidoro V.C., Raghu A., Resor B.R., Robinson B.J., Schambach D., Snyder B.D., Tom E., Tschantz R.R., Walker B.M., Wasielewski K.E., Webb T.R., Wise S.A., Yang R.S., Zimmerman R. S., 2002, Thermal cracking in disc brakes, Engineering Failure Analysis, 9, 63-76
14. Matysiak S. J., Yevtushenko A., Kuciej M., 2007, Temperature field in the process of braking of a massive body with composite coating, Materials Science, 43, N1, 62-69
15. MSC. Nastran Thermal Analysis User’s Guide, 2002
16. Noda N., Hetnarski R.B., Tanigawa Y., 2003, Thermal Stresses, Taylor & Francis, New York
17. Sakamoto H., Hirakawa K., 2005, Fracture analysis and material improvement of brake discs, JSME International Journal, Series A – Solid Mechanics, 48, 458-464
18. Scieszka S.F., Zolnierz M., 2014, Experimental and numerical investigations of thermomechanical instability of the industrial disc brakes, Proceedings of the Institution of Mechanical Engineers, Part J: Journal of Engineering Tribology, 228, 5. 567-576
19. Talati F., Jalalifar S., 2009, Analysis of heat conduction in a disk brake system, Heat Mass Transfer, 45, 1047-1059
20. Yevtushenko A.A., Grzes P., 2010, FEM-modeling of the frictional heating phenomenon in the pad/disc tribosystem (a review), Numerical Heat Transfer, Part A – Applications, 58, 207-226
21. Yevtushenko A., Grzes P., 2011, Finite element analysis of heat partition in a pad/disc brake system, Numerical Heat Transfer, Part A – Applications, 59, 521-542
22. Yevtushenko A.A., Grzes P., 2012, Axisymmetric finite element model for the calculation of temperature at braking for thermosensitive materials of a pad and a disc, Numerical Heat Transfer, Part A – Applications, 62, 211-230
23. Yevtushenko A.A., Grzes P., Adamowicz A., 2014, Numerical analysis of thermal stresses in disk brakes and clutches (a review),Numerical Heat Transfer, Part A – Applications, ID: 923221, DOI: 10.1080/10407782.2014.923221
24. Zagrodzki P., 1985, Numerical analysis of temperature fields and thermal stresses in the friction discs of a multidisc wet clutch, Wear, 101, 255-271
25. Zagrodzki P., 1990, Analysis of thermomechanical phenomena in multidisc clutches and brakes, Wear, 140, 291-308
26. Zhao S., Hilmas G., Dharani L.R., 2008, Behavior of a composite multidisk clutch subjected to mechanical and frictionally excited thermal load, Wear, 264, 1059-1068
27. Zienkiewicz O.C., Taylor R.L., Zhu J.Z., 2005, The Finite Element Method: Its Basis And Fundamentals, Elsevier Butterworth-Heinemann, Amsterdam
Kolekcja BazTech
Identyfikator YADDA bwmeta1.element.baztech-a6bcd9ce-ee1f-4844-8ac2-1d6257658b80
Identyfikatory
DOI 10.15632/jtam-pl.53.2.357