electric brake

简明释义

电制动器

英英释义

例句

1.During the test drive, I noticed how responsive the electric brake 电刹车 was when slowing down.

在试驾过程中，我注意到当减速时电刹车 电刹车的反应非常灵敏。

2.The new electric vehicle features an advanced electric brake 电刹车 system that enhances safety during sudden stops.

这款新电动车配备了先进的电刹车 电刹车系统，可以在突然停车时增强安全性。

3.With the electric brake 电刹车, the car can automatically adjust its braking force based on speed.

通过电刹车 电刹车，汽车可以根据速度自动调整刹车力度。

4.The mechanic explained that the electric brake 电刹车 system requires less maintenance than hydraulic brakes.

机械师解释说，电刹车 电刹车系统比液压刹车需要更少的维护。

5.The electric brake 电刹车 allows for smoother deceleration compared to traditional brakes.

与传统刹车相比，电刹车 电刹车可以实现更平稳的减速。

作文

In recent years, the automotive industry has witnessed a remarkable transformation with the introduction of advanced technologies. One of the most significant innovations is the development of the electric brake, which has fundamentally changed the way vehicles operate and enhance safety on the roads. The electric brake (电动刹车) system utilizes electric actuators to apply braking force, replacing traditional hydraulic systems that have been used for decades.The primary advantage of the electric brake system is its responsiveness. Unlike conventional brakes that rely on hydraulic fluid to transmit force, the electric brake allows for instantaneous adjustments based on various driving conditions. This means that drivers can experience smoother stops and improved control, especially in emergency situations. For instance, when a driver presses the brake pedal, the electric brake system can detect the urgency of the situation and respond more quickly than traditional systems, significantly reducing stopping distances.Another key benefit of the electric brake is its integration with other advanced vehicle technologies. Many modern cars are equipped with features such as anti-lock braking systems (ABS), traction control, and automated driving systems. The electric brake works seamlessly with these systems, allowing for enhanced performance and safety. For example, during slippery conditions, the electric brake can modulate braking power to prevent wheel lock-up, thereby maintaining traction and stability.Moreover, the electric brake contributes to energy efficiency in electric and hybrid vehicles. Traditional braking systems dissipate energy as heat, while regenerative braking systems, often paired with electric brake technology, capture some of that energy and convert it back into electrical energy to recharge the vehicle's battery. This not only extends the range of electric vehicles but also reduces wear and tear on brake components, leading to lower maintenance costs.However, there are challenges associated with the adoption of electric brake systems. One concern is the reliability of electric components, especially in extreme weather conditions. Engineers must ensure that these systems can function effectively in both hot and cold environments. Additionally, the cost of implementing electric brake technology can be higher than traditional systems, which may deter some manufacturers from making the switch.As we look to the future, the role of the electric brake in automotive design will likely continue to grow. With ongoing advancements in technology, we can expect even more innovative features that enhance safety and performance. The potential for electric brake systems to integrate with autonomous driving technology is particularly exciting. As vehicles become more automated, the need for precise and reliable braking systems will be paramount.In conclusion, the electric brake represents a significant leap forward in automotive technology. Its ability to provide responsive, efficient, and safe braking makes it an essential component of modern vehicles. As the industry continues to evolve, the electric brake will undoubtedly play a crucial role in shaping the future of transportation, ensuring that we can drive with confidence and peace of mind.

近年来，汽车行业经历了显著的变革，先进技术的引入使得这一变化愈加明显。其中最重要的创新之一是开发了电动刹车（electric brake），这在根本上改变了车辆的操作方式并增强了道路安全。电动刹车系统利用电动执行器施加制动力，取代了几十年来使用的传统液压系统。电动刹车系统的主要优势在于其响应能力。与依赖液压流体传递力量的传统刹车不同，电动刹车可以根据各种驾驶条件进行瞬时调整。这意味着驾驶员可以体验到更平稳的停车效果和更好的控制，尤其是在紧急情况下。例如，当驾驶员踩下刹车踏板时，电动刹车系统可以检测到情况的紧迫性，并比传统系统更快地做出反应，从而显著缩短制动距离。另一个关键好处是，电动刹车与其他先进车辆技术的集成。许多现代汽车配备了防抱死刹车系统（ABS）、牵引力控制和自动驾驶系统等功能。电动刹车与这些系统无缝协作，提高了性能和安全性。例如，在滑溜的条件下，电动刹车可以调节制动力以防止车轮锁死，从而保持牵引力和稳定性。此外，电动刹车有助于提高电动和混合动力汽车的能效。传统的刹车系统会将能量以热量的形式散失，而再生制动系统通常与电动刹车技术相结合，捕获部分能量并将其转化为电能，以便为车辆的电池充电。这不仅延长了电动车的续航里程，还减少了刹车部件的磨损，从而降低了维护成本。然而，采用电动刹车系统也面临一些挑战。一个问题是电气组件在极端天气条件下的可靠性。工程师必须确保这些系统在高温和低温环境中都能有效运行。此外，实施电动刹车技术的成本可能高于传统系统，这可能会阻碍一些制造商的转型。展望未来，电动刹车在汽车设计中的作用可能会继续增长。随着技术的不断进步，我们可以期待更多创新功能来提升安全性和性能。电动刹车系统与自动驾驶技术的整合潜力尤其令人兴奋。随着车辆变得越来越自动化，对精确可靠的制动系统的需求将至关重要。总之，电动刹车代表了汽车技术的重大飞跃。它提供的快速、有效和安全的制动能力，使其成为现代车辆不可或缺的组成部分。随着行业的不断发展，电动刹车无疑将在塑造未来交通方面发挥关键作用，确保我们能够自信和安心地驾驶。