Parametric analysis on temperature influence on brake squeal generation in a single-seater off-road vehicle’s disc brake

Q3 Physics and Astronomy

Noise and Vibration Worldwide Pub Date : 2023-09-20 DOI:10.1177/09574565231203250

Mateus Holanda Cardoso Maciel, Rômulo do Nascimento Rodrigues, Camilo Augusto Santos Costa, Roberto De Araujo Bezerra, Vanessa Vieira Gonçalves, Thiago Victor Albuquerque de Freitas

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Abstract

Brakes are a critical component of automobiles, responsible for converting kinetic energy into heat and vibration. The phenomenon of brake squeal, which produces uncomfortable noises, has been extensively studied in both drum and disc brakes. Many studies have evaluated the influence of material and operational parameters on brake instability to reduce squeal. However, the effect of temperature, a key factor in brake performance, is often overlooked. This study aims to fill this gap by analyzing a single rear-axle disc brake from an off-road single-seater vehicle using a parametric approach. Two branches were developed in ANSYS software. The first branch consisted of a finite element model of the brake with disc, pads, and backplates. A static structural analysis was performed to simulate a real braking pressure situation, and the resulting pre-stress state was used to conduct complex modal analysis, which extracted eigenvalues and values responsible for stability. The second branch involved a transient thermal simulation before the static analysis, also considering a real braking situation, to create a gradient of temperature and change component pre-stress reactions accordingly. A design of experiments process was used to explore geometric, thermal, and operational variables. The results showed that temperature and its parameters (convection and emissivity coefficient) increase brake squeal. Thus, considering the effect of temperature is crucial when evaluating brake instability, and optimizing temperature control can help reduce brake squeal, improving safety and comfort for drivers and passengers.

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温度对单座越野车盘式制动器制动尖叫产生影响的参数分析

制动器是汽车的关键部件，负责将动能转化为热能和振动。在鼓式制动器和盘式制动器中，对产生令人不适噪声的制动尖叫现象进行了广泛的研究。许多研究评估了材料和操作参数对制动不稳定性的影响，以降低尖叫。然而，温度的影响，在制动性能的关键因素，往往被忽视。本研究旨在通过使用参数化方法分析越野单座车辆的单后桥盘式制动器来填补这一空白。在ANSYS软件中对两个分支进行了开发。第一个分支包括制动盘、制动垫和制动后板的有限元模型。通过静力结构分析模拟真实制动压力情况，利用得到的预应力状态进行复模态分析，提取特征值和负责稳定性的值。第二个分支涉及静态分析之前的瞬态热模拟，也考虑到真实的制动情况，以产生温度梯度并相应地改变组件的预应力反应。实验过程的设计是用来探索几何，热，和操作变量。结果表明，温度及其参数(对流系数和发射系数)增加了制动尖叫。因此，在评估制动不稳定性时，考虑温度的影响是至关重要的，优化温度控制有助于减少制动尖叫，提高驾驶员和乘客的安全性和舒适性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Noise and Vibration Worldwide Physics and Astronomy-Acoustics and Ultrasonics

CiteScore

1.90

自引率

0.00%

发文量

期刊介绍： Noise & Vibration Worldwide (NVWW) is the WORLD"S LEADING MAGAZINE on all aspects of the cause, effect, measurement, acceptable levels and methods of control of noise and vibration, keeping you up-to-date on all the latest developments and applications in noise and vibration control.