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引用次数: 0
摘要
本文提出了一种基于车辆速度估计盘式制动器热负荷的方法,其中热负荷作为数值模拟的输入。通过平衡车辆的机械能变化和通过空气动力和滚动阻力耗散的能量来估计负载。RS Racing UFRGS团队提供了车辆的数据和几何形状,速度数据取自真实的耐力赛。这样计算的热负荷然后被用作包含圆盘和轮毂的三维瞬态有限元模型的输入。结果与RS Racing UFRGS团队的预期一致。基于三维瞬态模型的结果,两种简化的分析是可行的:一种是在永久状态下,得到瞬态模型所呈现的振荡内的温度分布;用等效全局换热系数替换轮毂进行二维分析。
VELOCITY-BASED MODELING OF THE THERMAL LOAD FOR A FORMULA SAE’S DISK BRAKE SIMULATION
This paper proposes a methodology for the estimation of a disk brake’s thermal load based on its vehicle’s velocity, where this thermal load serves as an input for a numerical simulation. The load is estimated through a balance between variation in the mechanical energy of the vehicle and the energy dissipated via aerodynamic and rolling drag forces. The RS Racing UFRGS team provided the vehicle’s data and geometry, and the velocity data was taken from a real endurance competition. The thermal load thus calculated is then used as input for a 3D transient finite element model containing the disk and the wheel hub. The results are consistent with what is expected by the RS Racing UFRGS team. Based on the results of the 3D transient model, two more simplified analysis are viable: one in permanent regime, which achieves a temperature distribution within the oscillation presented on the transient model; and also a 2D analysis which can be made by the replacement of the wheel hub with an equivalent global heat transfer coefficient.
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