electromechanical brake

简明释义

机电式制动器

英英释义

例句

1.The electromechanical brake system is often preferred in modern cars due to its efficiency.

由于其效率，现代汽车通常更喜欢使用电机械制动器系统。

2.During the test drive, I noticed that the electromechanical brake responded quickly to my inputs.

在试驾过程中，我注意到电机械制动器对我的操作反应迅速。

3.The new electric vehicle features an advanced electromechanical brake for improved stopping power.

这款新电动车配备了先进的电机械制动器，以提高制动性能。

4.The electromechanical brake allows for precise control during emergency stops.

在紧急制动时，电机械制动器可以实现精确控制。

5.Our engineers are developing a new electromechanical brake that reduces wear on brake pads.

我们的工程师正在开发一种新的电机械制动器，以减少刹车片的磨损。

作文

The advent of modern technology has significantly transformed various industries, and one of the most notable advancements is in the field of automotive engineering. Among the innovations that have emerged is the electromechanical brake, which plays a crucial role in enhancing vehicle safety and performance. The electromechanical brake (电机机械制动) system operates by converting electrical energy into mechanical energy, allowing for precise control over braking actions. This system replaces traditional hydraulic brakes, offering several advantages that are important for both manufacturers and consumers.One of the primary benefits of the electromechanical brake is its ability to provide faster response times when braking. Traditional hydraulic systems can experience delays due to fluid compression, but with the electromechanical brake, the absence of fluid dynamics means that the brake engages almost instantaneously. This quick response is particularly vital in emergency situations, where every millisecond counts in preventing accidents.Moreover, the electromechanical brake allows for more precise braking control. Drivers can benefit from enhanced modulation of braking force, which is essential for improving overall driving comfort and safety. For instance, during slippery conditions, the electromechanical brake can adjust the braking force applied to each wheel individually, helping to prevent skidding and maintaining vehicle stability. This level of control is difficult to achieve with conventional braking systems, making the electromechanical brake a preferred choice in high-performance vehicles.Another significant advantage of the electromechanical brake is its potential for integration with advanced driver-assistance systems (ADAS). As vehicles become increasingly equipped with smart technology, the ability to communicate between the braking system and other electronic components is paramount. The electromechanical brake can seamlessly integrate with features such as adaptive cruise control and collision avoidance systems, enhancing the overall safety profile of the vehicle. By working in tandem with these systems, the electromechanical brake can automatically apply the brakes when necessary, reducing the likelihood of human error.In addition to performance and safety benefits, the electromechanical brake also contributes to improved energy efficiency. Since this system uses electric motors instead of hydraulic pumps, it consumes less energy and generates less heat during operation. This efficiency not only extends the lifespan of the braking components but also reduces the environmental impact associated with traditional braking systems. Additionally, the lighter weight of the electromechanical brake contributes to overall vehicle weight reduction, further enhancing fuel efficiency.Despite these advantages, there are challenges associated with the implementation of electromechanical brakes. One concern is the initial cost of development and production, which can be higher than traditional systems. However, as technology advances and economies of scale come into play, it is expected that these costs will decrease over time.In conclusion, the electromechanical brake (电机机械制动) represents a significant leap forward in braking technology. With its rapid response, precise control, and compatibility with modern automotive systems, it offers numerous benefits that enhance both safety and performance. As the automotive industry continues to evolve, the electromechanical brake is likely to become a standard feature in vehicles worldwide, paving the way for safer and more efficient driving experiences.

现代技术的出现显著改变了各个行业，其中汽车工程领域的进步尤为突出。新兴的创新之一是电机机械制动，它在提高车辆安全性和性能方面发挥着至关重要的作用。电机机械制动系统通过将电能转化为机械能实现对制动行为的精确控制。这一系统取代了传统的液压制动，提供了多项对制造商和消费者都重要的优势。电机机械制动的主要优点之一是其在制动时能够提供更快的响应时间。传统的液压系统由于液体压缩可能会出现延迟，而电机机械制动由于没有液体动力学的影响，制动几乎瞬间就能接合。在紧急情况下，这种快速响应尤其重要，因为每一毫秒都关系到预防事故。此外，电机机械制动还允许更精确的制动控制。驾驶者可以受益于增强的制动力调节，这对于提高整体驾驶舒适性和安全性至关重要。例如，在滑溜的条件下，电机机械制动可以单独调整施加在每个车轮上的制动力，有助于防止打滑并保持车辆稳定。这种控制水平在传统制动系统中难以实现，因此电机机械制动成为高性能车辆的首选。电机机械制动的另一个重要优势是其与先进驾驶辅助系统（ADAS）的集成潜力。随着车辆越来越多地配备智能技术，制动系统与其他电子组件之间的通信能力变得至关重要。电机机械制动可以与自适应巡航控制和碰撞避免系统等功能无缝集成，从而增强车辆的整体安全性能。通过与这些系统协同工作，电机机械制动可以在必要时自动施加制动，降低人为错误的可能性。除了性能和安全性优势外，电机机械制动还提高了能效。由于该系统使用电动机而非液压泵，因此在操作过程中消耗的能量更少，产生的热量也更少。这种效率不仅延长了制动部件的使用寿命，还减少了与传统制动系统相关的环境影响。此外，电机机械制动的轻量化也有助于整体车辆重量的减轻，进一步提高了燃油效率。尽管有这些优势，但实施电机机械制动也面临挑战。其中一个问题是开发和生产的初始成本可能高于传统系统。然而，随着技术的进步和规模经济的发挥，预计这些成本会随着时间的推移而下降。总之，电机机械制动（电机机械制动）代表了制动技术的一次重大飞跃。凭借其快速响应、精确控制和与现代汽车系统的兼容性，它提供了许多增强安全性和性能的好处。随着汽车行业的不断发展，电机机械制动很可能会成为全球车辆的标准配置，为更安全、更高效的驾驶体验铺平道路。