摘要
随着汽车工业的发展,车辆速度的提升、载重的增加以及人们对驾驶体验要求的提高,对制动性能提出了更高的要求,一个优秀的制动系统应能够在各种复杂、恶劣的工况下保持稳定的制动效能。因此,本文就汽车制动系统最基础的机械传动展开深入探讨,重点从结构优化设计、高性能材料应用及机电协同控制等维度系统阐述提升制动性能的具体路径与方法,旨在为相关技术的优化提供参考。
Abstract
With the development of the automobile industry, the improvement of vehicle speed, the increase of load and the improvement of people's demand for driving experience have put forward higher requirements for braking performance, an excellent braking system should be able to maintain stable braking efficiency in a variety of complex and harsh conditions. Therefore, in this paper, the most basic mechanical transmission of automobile braking system is discussed in depth, the specific paths and methods to improve the braking performance are expounded from the dimensions of structural optimization design, high-performance material application and electromechanical cooperative control, aiming to provide reference for the optimization of related technologies.
关键词
汽车制动系统 /
机械传动特性 /
材料科学 /
电控系统协同
Key words
automotive braking system /
mechanical transmission characteristic /
materials science /
electronic control system coordination
王轲, 刘雨凡.
汽车制动系统的机械传动特性与性能提升研究[J]. 汽车电器. 2025, 1(11): 82-84
Wang Ke, Liu Yufan.
Research on Mechanical Transmission Characteristics and Performance Improvement of Automobile Braking System[J]. AUTO ELECTRIC PARTS. 2025, 1(11): 82-84
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参考文献
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[2] 王科. 汽车液压制动系统性能优化与故障诊断研究[J].汽车维修技师,2025(12):55-57.
[3] 何群伟. 基于EHB系统的新能源汽车制动性能和安全性研究[J].南方农机,2024,55(S1):96-99.
[4] 何晨语. 液压传动技术在汽车中的应用及发展趋势[J].内燃机与配件,2021(22):81-82.
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