braking efficiency

简明释义

制动效率

英英释义

例句

1.The new car model boasts improved braking efficiency, which means it can stop faster and safer.

新车型拥有更高的制动效率，这意味着它可以更快、更安全地停车。

2.The race team focused on maximizing braking efficiency to improve lap times.

赛车队专注于最大化制动效率以提高圈速。

3.Testing showed that the braking efficiency of the electric vehicle is significantly better in wet conditions.

测试显示，电动车在湿滑条件下的制动效率明显更好。

4.Regular maintenance can greatly enhance your vehicle's braking efficiency.

定期维护可以大大提升您车辆的制动效率。

5.A lighter vehicle generally has a higher braking efficiency compared to heavier models.

相较于较重的车型，较轻的车辆通常具有更高的制动效率。

作文

Braking efficiency is a critical factor in the performance of any vehicle. It refers to the ability of a vehicle's braking system to slow down or stop the vehicle effectively and safely. High braking efficiency (制动效率) ensures that a vehicle can respond quickly to the driver's commands, providing a sense of safety and control. In this essay, I will explore the importance of braking efficiency (制动效率), the factors that affect it, and how it can be improved in modern vehicles.Firstly, the significance of braking efficiency (制动效率) cannot be overstated. In emergency situations, a vehicle's ability to stop quickly can mean the difference between avoiding an accident and being involved in one. A vehicle with poor braking efficiency (制动效率) may take longer to stop, increasing the risk of collisions, especially at high speeds. Therefore, manufacturers invest heavily in developing advanced braking systems that enhance braking efficiency (制动效率) to ensure the safety of drivers and passengers alike.Several factors influence braking efficiency (制动效率). One of the primary factors is the type of braking system used. There are two main types: disc brakes and drum brakes. Disc brakes tend to offer better braking efficiency (制动效率) due to their design, which allows for better heat dissipation and less brake fade under heavy use. Additionally, the quality of the brake pads and the condition of the brake fluid play significant roles in determining overall braking efficiency (制动效率). Worn-out pads or contaminated fluid can severely diminish a vehicle’s stopping power.Another important aspect to consider is the weight of the vehicle. Heavier vehicles require more force to stop, which means that their braking efficiency (制动效率) must be optimized to handle the additional mass. This is why larger vehicles, such as trucks and buses, are equipped with more robust braking systems to ensure they can stop effectively despite their weight. Furthermore, the road conditions also impact braking efficiency (制动效率). Wet or icy roads can reduce traction, making it harder for the brakes to work effectively.To improve braking efficiency (制动效率), vehicle manufacturers are continuously innovating. One such advancement is the introduction of anti-lock braking systems (ABS). ABS prevents the wheels from locking up during hard braking, allowing the driver to maintain steering control while maximizing braking efficiency (制动效率). Another development is electronic stability control (ESC), which helps to prevent skidding and loss of control, further enhancing the overall safety of the vehicle.In conclusion, braking efficiency (制动效率) is a vital component of vehicle safety and performance. Understanding its importance and the factors that influence it can help both manufacturers and consumers make informed decisions. As technology continues to advance, we can expect to see even greater improvements in braking efficiency (制动效率), leading to safer roads for everyone. Ensuring that our vehicles are equipped with efficient braking systems is not just a matter of performance; it is a matter of safety that affects us all.

制动效率是任何车辆性能的关键因素。它指的是车辆制动系统有效、安全地减速或停车的能力。高的制动效率（braking efficiency）确保车辆能够快速响应驾驶员的指令，提供安全感和控制感。在这篇文章中，我将探讨制动效率（braking efficiency）的重要性、影响其的因素以及如何在现代车辆中提高这一效率。首先，制动效率（braking efficiency）的重要性不容小觑。在紧急情况下，车辆迅速停下来的能力可能意味着避免事故与卷入事故之间的差别。制动效率差的车辆可能需要更长的时间来停车，从而增加了碰撞的风险，尤其是在高速行驶时。因此，制造商在开发先进的制动系统以增强制动效率（braking efficiency）方面投入了大量资金，以确保驾驶员和乘客的安全。影响制动效率（braking efficiency）的因素有很多。其中一个主要因素是所使用的制动系统类型。主要有两种类型：盘式制动和鼓式制动。由于设计原因，盘式制动通常提供更好的制动效率（braking efficiency），因为它允许更好的散热并减少在重负荷下的制动衰退。此外，制动片的质量和制动液的状态在确定整体制动效率（braking efficiency）方面也起着重要作用。磨损的制动片或污染的制动液会严重降低车辆的制动能力。另一个重要方面是车辆的重量。较重的车辆需要更多的力量来停车，这意味着它们的制动效率（braking efficiency）必须优化以处理额外的质量。这就是为什么大型车辆，如卡车和公交车，配备更强大的制动系统，以确保它们能够有效停车，尽管有额外的重量。此外，路况也会影响制动效率（braking efficiency）。湿滑或结冰的道路会降低附着力，使得制动效果不佳。为了提高制动效率（braking efficiency），汽车制造商不断创新。其中一个进步是防抱死制动系统（ABS）的引入。ABS可以防止在剧烈制动时车轮锁死，使驾驶员在最大化制动效率（braking efficiency）的同时保持转向控制。另一个发展是电子稳定控制（ESC），它有助于防止打滑和失控，进一步增强了车辆的整体安全性。总之，制动效率（braking efficiency）是车辆安全和性能的重要组成部分。了解它的重要性及其影响因素可以帮助制造商和消费者做出明智的决策。随着技术的不断进步，我们可以期待在制动效率（braking efficiency）方面看到更大的改善，从而使每个人的道路更加安全。确保我们的车辆配备高效的制动系统不仅是性能问题；这是一个影响我们所有人的安全问题。