汽车工业
制动器
盘式制动器
汽车工程
热机械分析
计算机科学
机械工程
工程类
材料科学
复合材料
热膨胀
航空航天工程
作者
Daxin Jiang,Chao Han,Jianjiao Deng,Qing Jia,Wentao Zhao
出处
期刊:SAE international journal of passenger vehicle systems
[SAE International]
日期:2025-07-09
卷期号:18 (3)
标识
DOI:10.4271/15-18-03-0013
摘要
<div>The thermal characteristics of brakes significantly influence the braking performance of passenger vehicles. During braking, most of the vehicle’s kinetic energy is converted into internal energy in the brake disk through friction, leading to complex coupled thermomechanical issues. This article focuses on the analysis of a disk brake from a specific vehicle model. Using STAR-CCM+, a virtual disk brake bench simulation model was established. Based on the multi-timescale and multi-field coupled simulation method, the analysis of the brake disk temperature and field distributions under cyclic braking conditions was carried out. Subsequently, this work investigated the effects of factors such as thermal conduction, thermal radiation, and the shape of ventilation ribs on the heat generation and dissipation characteristics of the brake disk. Finally, a thermal deformation simulation and optimization method was developed using STAR-CCM+, ABAQUS, and ALTAIR OPTISTRUCT software. In comparison with the test measurements, the accuracy of the thermal deformation simulation for the brake disk reached 94.5%, and the optimized brake disk’s thermal deformation was further reduced by 36.1%. This work provides a design verification method for brake disk optimization.</div>
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