Effect of Brake Caliper and Its Restraint on Thermo-Mechanical Coupling Characteristics of Disc Brake

被引：0

作者：

Meng D. ^{[1
]}

Zhang B. ^{[1
]}

Xu J. ^{[1
]}

Zhang L. ^{[1
]}

机构：

[1] School of Automotive Studies, Tongji University, Shanghai

来源：

Tongji Daxue Xuebao/Journal of Tongji University | 2019年 / 47卷 / 05期

关键词：

Brake caliper; Disc brake; Guide pins; Thermo-mechanical coupling;

D O I：

10.11908/j.issn.0253-374x.2019.05.016

中图分类号：

学科分类号：

摘要：

Based on defining the constraint and boundary conditions between parts and setting the key parameters such as brake friction coefficient, convection heat transfer coefficient and rubber bushing stiffness, a complete transient thermo-mechanical coupled finite element model considering brake disc, friction linings, back plates, piston, brake caliper, bracket, guide pins and rubber bushings, was established. By using this model, the thermo-mechanical coupled characteristics, such as temperature, circumferential stress and deformation, under single braking condition of disc were analyzed. In further research, it is found that the function of pin rubber bushings is equivalent to springs but can not be ignored as fixed restraint. The model was verified by thermo-mechanical coupling test on brake inertia test bench. The results of thermal imager and other equipment show that the brake caliper has an important influence on the thermo-mechanical coupled characteristics of the brake. © 2019, Editorial Department of Journal of Tongji University. All right reserved.

引用

页码：704 / 713

页数：9

共 29 条

[1] Cantoni C., Cesarini R., Mastinu G., Et al., Brake comfort-a review, Vehicle System Dynamics, 47, 8, (2009)
[2] Gao C., Huang J., Lin X., Et al., Research status on heat dynamics of friction and wear for disc-pad braking systems, Chinese Journal of Construction Machinery, 4, 1, (2006)
[3] Le Gigan G., Vernersson T., Lunden R., Et al., Disc brakes for heavy vehicles: an experimental study of temperatures and cracks, Journal of Automobile Engineering, 229, 6, (2015)
[4] Kao T.K., Richmond J.W., Douarre A., Brake disc hot spotting and thermal judder: an experimental and finite element study, International Journal of Vehicle Design, 23, 3, (2000)
[5] Hassan M.Z., Brooks P.C., Barton D.C., Thermo-mechanical contact analysis of car disc brake squeal, SAE International Journal of Passenger Cars-Electronic and Electrical Systems, (2009)
[6] Barber J.R., Thermoelasticity and contact, Journal of Thermal Stresses, 22, 4-5, (1999)
[7] Zagrodzki P., Analysis of thermomechanical phenomena in multidisc clutches and brakes, Wear, 140, 2, (1990)
[8] Evtushenko A.A., Gorbacheva N.V., Ivanik E.G., Thermomechanical processes in the friction heating of disk brakes, Journal of Engineering Physics and Thermophysics, 70, 1, (1997)
[9] Thuresson D., Thermomechanical analysis of friction brakes, SAE Technical Papers, 18th Annual Brake Colloquium and Engineering Display, pp. 358-369, (2000)
[10] Yevtushenko A.A., Kuciej M., Och E., Temperature in thermally nonlinear pad-disk brake system, International Communications in Heat and Mass Transfer, 57, (2014)

← 1 2 3 →