[1]简弃非,吴昊.紧急制动工况下汽车通风盘式制动器瞬态温度场分布的研究[J].江西师范大学学报(自然科学版),2016,40(02):153-161.
 JIAN Qifei,WU Hao.The Analysis of Ttransient Temperature Field Distribution of Vehicle Ventilated Disc Brake under Emergency Braking Condition[J].Journal of Jiangxi Normal University:Natural Science Edition,2016,40(02):153-161.
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紧急制动工况下汽车通风盘式制动器瞬态温度场分布的研究()
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《江西师范大学学报》(自然科学版)[ISSN:1006-6977/CN:61-1281/TN]

卷:
40
期数:
2016年02期
页码:
153-161
栏目:
出版日期:
2016-03-25

文章信息/Info

Title:
The Analysis of Ttransient Temperature Field Distribution of Vehicle Ventilated Disc Brake under Emergency Braking Condition
作者:
简弃非;吴昊
华南理工大学机械与汽车工程学院,广东 广州 510640
Author(s):
JIAN QifeiWU Hao
College of Mechanical and Automobile Engineering,South China University of Technology,Guangzhou Guangdong 510640,China
关键词:
通风盘式制动器 有限元 温度场 台架试验
Keywords:
ventilated disc brake the finite element temperature field bench test
分类号:
U 663.5
文献标志码:
A
摘要:
以某乘用车前轮采用的通风盘式制动器为研究对象,建立其热-结构耦合的3维有限元分析模型.在此基础上采用直接耦合法对该通风盘式制动器在紧急制动工况下的瞬态温度场进行仿真分析,获得整个通风式制动盘和摩擦片在紧急制动过程中温度场的分布情况及变化特性.结果显示:在整个紧急制动过程中,制动盘温度场的分布不是轴对称的,其在径向、周向及轴向3个方向上均存在着一定的温度梯度; 制动盘的最高温度出现在1.91 s,最高温度为227.1 ℃.同时对该通风盘式制动器进行了与仿真分析相同制动工况下的台架试验,所获得的实验结果与仿真计算结果基本一致,从而验证了仿真分析的有效性,为通风盘式制动器的设计及优化提供了理论基础.
Abstract:
The ventilated disc brake which used in a passenger vehicle front wheel as the research object is set,its thermal-structure coupled three-dimensional finite element analysis model is set up.Then direct coupling method is adopt to simulate the transient temperature field of ventilated disc brake under emergency braking condition on the basis of model,eventually the distribution and change characteristics of temperature field of ventilated brake disc and pad in emergency braking are gotten.The results show that the temperature field distribution of brake disc is not axial symmetry in emergency braking,there are certain temperature gradient in radial,circumferential and axial three directions.The highest temperature of the brake disc appeared in 1.91 s,the highest temperature is 227.1 ℃.Meanwhile the ventilated disc brake bench test is carried on under the brake condition as same as the simulation analysis,the obtained experimental result basic consistent with the result of the simulation calculation,thus the validity of the simulation analysis is verified,and a theoretical basis for design and optimization of ventilated disc brake is provided.

参考文献/References:

[1] Milenkovic P D.The influence of brake pads thermal conductivity on passenger car brake system efficiency [J].Thermal Science,2010,14(suppl):221-230.
[2] Ghadimi B,Sajedi R,Kowsary F.3D investigation of thermal stresses in a locomotive ventilated brake disc based on a conjugate thermo-fluid coupling boundary condition [J].International Communications in Heat and Mass Transfer,2013,49:104-109.
[3] Limpert R.Brake design and safety [M].2nd ed.Warrendale:Society of Automotive Engineers Inc,1999.
[4] Limpert R.An investigation of thermal conditions leading to surface rupture of cast iron rotors [J].Sae Technical Paper,1972,2(1):18-24.
[5] Ali Belhocine,Mostefa Bouchetara.Thermomechanical modeling of dry contacts in automotive disc brake [J].Thermal Science,2012,60:161-170.
[6] Ali Belhocine,Mostefa Bouchetara.Thermal analysis of a solid brake disc [J].Apply Thermal Engineering,2012,32:59-67.
[7] Park S B,Lee K S,Lee D H.An investigation of local heat transfer characteristics in a ventilated disc brake with helically fluted surfaces [J].Mechanical Science and Technology,2007,21(12):2178-2187.
[8] Kang S S,Cho S K.Thermal deformation and stress analysis of disk brakes by finite element method [J].Mechanical Science and Technology,2012,26(7):2133-2137.
[9] Gao Chenhui,Lin Xiezhao.Transient temperature field analysis of a brake in a non-axisymmetric three-dimensional model [J].Materials Processing Technology,2002,129(1/2/3):513-517.
[10] Duzgun M.Investigation of thermal-structural behaviors of different ventilation application on brake discs [J].Mechanical Science and Technology,2012,26(1):235-240.
[11] 刘莹,胡育勇,任奇锋,等.基于ANSYS汽车盘式制动器温度场和热应力数值模拟 [J].南昌大学学报:工科版,2013,35(3):276-281.
[12] 金晓行.盘式制动器温度场研究 [D].合肥:合肥工业大学,2007.
[13] 苏海赋.盘式制动器热-机耦合有限元分析 [D].广州:华南理工大学,2011.
[14] 黄武全,符旭,吴明苏,等.汽车材料 [M].北京:机械工业出版社,2011.
[15] Bagnoli F,Dolce F,Bernabei M.Thermal fatigue cracks of fire fighting vehicles gray iron brake discs [J].Engineering Failure Analysis,2009,16(1):152-163.
[16] Friedrich K,Flock J,Varadi K,et al.Numerical and finite element contact and thermal analysis of real composite-steel surfaces in sliding contact [J].Wear,1999,225(4):368-379.
[17] Kennedy F E.Surface temperatures in sliding systems:A finite element analysis [J].Journal of Tribology,1981,103(1):90-96.
[18] 杨世铭,陶文铨.传热学 [M].4版.北京:高等教育出版社,2006:1-395.

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备注/Memo

备注/Memo:
基金项目:国家自然科学基金(50930005)和广东省工程研究技术中心建设(2012B070800008)资助项目 作者简介:简弃非(1963-),男,湖南邵阳人,教授,博士,博士生导师,主要从事动力机械、制冷工程及燃料电池等方向的研究.
更新日期/Last Update: 1900-01-01