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某乘用车制动盘冷却特性的研究 被引量:4

Brake Disc Cooling Characteristics of a Passenger Car
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摘要 基于某SUV的整车环境,利用数值计算和热环境风洞(CWT)试验的方法,探索了重复制动工况下制动盘的温升和冷却过程,分析了制动盘冷却过程中的散热方式以及冷却特性.结果表明,计算流体力学(CFD)得到的温升和冷却特性曲线与试验结果的一致性较好;对流散热是影响制动盘冷却性能的主导因素;制动盘的温度随冷却时间呈指数关系下降,冷却系数随汽车来流速度呈幂律关系增长. A computational fluid dynamics(CFD)simulation was performed on a brake disc of an SUV during the repetitive braking and cooling process. The temperature rising and drop procedure were numerically investigated compared with the climatic wind tunnel(CWT)test,and the brake cooling characteristics was specifically analyzed based on the heat transfer theory.The results show that the CFD simulation and the experiments are in good agreement.The convection heat transfer acts as a key factor for the cooling performance of the brake.The temperature drop for brake disc exhibits an exponential function of the cooling time,while the cooling coefficient shows a power law increase with the oncoming velocity of the vehicle.
作者 杜旭之 杨志刚 李启良 赵兰萍
机构地区 同济大学上海地面交通工具风洞中心 同济大学机械与能源工程学院
出处 《同济大学学报(自然科学版)》 EI CAS CSCD 北大核心 2016年第5期787-793,共7页 Journal of Tongji University:Natural Science
基金 国家"九七三"重点基础研究发展计划(2011CB711203)
关键词 制动盘 计算流体力学 热环境风洞试验 冷却系数 brake disc computational fluid dynamics(CFD) climatic wind tunnel(CWT)test cooling coefficient
分类号 U46 [机械工程—车辆工程]
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参考文献28

  • 1Lee K. Numerical prediction of brake fluid temperature rise during braking and heat soaking[J]. SAE Transactions, 1999, 108(6) : 897.
  • 2Jerhamre A, Bergstr6m C. Numerical study of brake disc cooling accounting for both aerodynamic drag force and cooling efficiency[J]. SAE Transactions, 2001, 110(6).. 1156.
  • 3Hertel J E, Suster J R, Hawley J R, et al. Finite difference heat transfer model of a steel-clad aluminum brake rotor[C]// SAE. Orlando: 23rd Annual Brake Colloquium & Exhibition, 2005 : 2005-01-3943.
  • 4蒋京,夏群生,余志生.盘式制动器重复制动温度计算[J].汽车工程,1996,18(3):168-174. 被引量:15
  • 5陈友飞,李亮,杨财,宋健.制动器热分析有限差分仿真模型的研究[J].汽车工程,2012,34(3):236-240. 被引量:10
  • 6Yigit S, Penther P, Wuchatsch J, et al. A monolithic approach to simulate the cooling behavior of disk brakes [J]. SAE International Journal of Passenger Cars-Mechanical Systems, 2013, 6(3): 1430.
  • 7Thomas S. Cooling analysis of a passenger car disk brake[C]// SAE. Detroit: SAE International, 2009: 2009-01-3049.
  • 8CHENG Qian. Aerodynamic shape optimization using CFD parametric model with brake cooling application [C] // SAE. Detroit: SAE International, 2002: 2002-01-0599.
  • 9Nutwell B, Ramsay T. Modeling the cooling characteristics of a disk brake on an inertia dynamometer, using combined fluid flow and thermal simulation [ C ] // SAE. Detroit: SAE International, 2009: 2009-01-0861.
  • 10Jeong B U, Kim H, Kim W, et al. Optimization of cooling air duct and dust cover shape for brake disc best cooling performance[C]ffSAE. Detroit: SAE International, 2014: 2014-01-2519.

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同济大学学报(自然科学版)
2016年 第5期

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