supersynchronous braking

简明释义

超同步制动

英英释义

例句

1.The new electric train system incorporates supersynchronous braking, which allows for quicker stops and improved safety.

新的电动列车系统采用了超同步制动，这使得停车更快，安全性更高。

2.The aircraft's supersynchronous braking system ensures a smooth landing even in adverse weather conditions.

飞机的超同步制动系统确保即使在恶劣天气条件下也能平稳着陆。

3.The race car was equipped with supersynchronous braking to improve its performance on the track.

这辆赛车配备了超同步制动以提高其赛道表现。

4.During the test run, the engineers noted that the supersynchronous braking significantly reduced the stopping distance.

在测试运行中，工程师们注意到超同步制动显著缩短了制动距离。

5.Implementing supersynchronous braking technology in urban transit systems can enhance passenger comfort.

在城市交通系统中实施超同步制动技术可以提高乘客的舒适度。

作文

In modern transportation systems, the efficiency and safety of vehicles are paramount. One of the key technologies that have emerged to enhance vehicle performance is known as supersynchronous braking. This advanced braking mechanism operates at a level beyond traditional synchronous braking methods, allowing for quicker and more effective deceleration. Understanding supersynchronous braking is essential for anyone involved in the automotive or aerospace industries, as it represents a significant leap in braking technology.To comprehend the concept of supersynchronous braking, we must first look at how conventional braking systems function. In standard braking systems, the brake pads create friction against the rotors, which slows down the vehicle. While this method is effective, it can lead to overheating and wear over time, especially under heavy load or during high-speed maneuvers.In contrast, supersynchronous braking employs a more sophisticated approach. This system utilizes a combination of mechanical and electronic components to achieve optimal braking performance. By integrating sensors and control algorithms, supersynchronous braking can adjust the braking force applied to each wheel, ensuring that the vehicle remains stable and responsive even in challenging conditions. This adaptability is crucial for maintaining control during emergency situations or when navigating sharp turns.Another advantage of supersynchronous braking is its ability to recover energy during the braking process. Traditional braking systems dissipate energy as heat, but with supersynchronous braking, some of this energy can be captured and redirected to recharge the vehicle's battery. This feature is particularly beneficial for electric and hybrid vehicles, as it enhances overall energy efficiency and extends driving range.Moreover, supersynchronous braking contributes to improved safety features in vehicles. The system can communicate with other onboard technologies, such as traction control and stability management systems, to provide real-time adjustments during braking. For example, if a vehicle detects slippery conditions, supersynchronous braking can modulate the braking force to prevent skidding, thereby enhancing driver confidence and passenger safety.As the automotive industry continues to evolve, the implementation of supersynchronous braking is likely to become more widespread. Manufacturers are increasingly recognizing the benefits of this technology, not only for improving vehicle performance but also for meeting stringent safety regulations. As a result, we can expect to see more vehicles equipped with supersynchronous braking systems in the near future.In conclusion, supersynchronous braking represents a significant advancement in braking technology, offering enhanced performance, energy recovery, and improved safety. Understanding this innovative system is crucial for those in the automotive field, as it will shape the future of vehicle design and functionality. As we continue to push the boundaries of what is possible in transportation, technologies like supersynchronous braking will play a vital role in creating safer and more efficient vehicles for everyone.

在现代交通系统中，车辆的效率和安全性至关重要。出现的一项关键技术是被称为超同步制动的先进制动机制。此制动机制在传统同步制动方法之上运作，允许更快、更有效的减速。理解超同步制动对于任何参与汽车或航空航天行业的人来说都是必不可少的，因为它代表了制动技术的重大飞跃。为了理解超同步制动的概念，我们首先要看看传统制动系统是如何工作的。在标准制动系统中，制动片与转子之间产生摩擦，从而减慢车辆速度。虽然这种方法有效，但在重载或高速机动时，可能会导致过热和磨损。相比之下，超同步制动采用了更复杂的方法。该系统利用机械和电子组件的组合来实现最佳制动性能。通过集成传感器和控制算法，超同步制动可以调整施加到每个车轮的制动力，确保即使在挑战性条件下，车辆也能保持稳定和响应。这种适应能力对于在紧急情况下或驾驶急转弯时保持控制至关重要。超同步制动的另一个优点是在制动过程中回收能量。传统的制动系统将能量以热量的形式散失，但在超同步制动中，这部分能量可以被捕获并重新导向为车辆的电池充电。这一特性对电动车和混合动力车尤其有利，因为它提升了整体能效并延长了行驶里程。此外，超同步制动还增强了车辆的安全特性。该系统可以与其他车载技术（如牵引力控制和稳定性管理系统）进行通信，以在制动期间提供实时调整。例如，如果车辆检测到滑溜的条件，超同步制动可以调节制动力，以防止打滑，从而增强驾驶者的信心和乘客的安全。随着汽车行业的不断发展，超同步制动的应用可能会变得更加普及。制造商越来越认识到这一技术的好处，不仅可以改善车辆性能，还可以满足严格的安全法规。因此，我们可以期待在不久的将来看到更多装备有超同步制动系统的车辆。总之，超同步制动代表了制动技术的重大进步，提供了增强的性能、能量回收和改进的安全性。理解这一创新系统对于汽车领域的人士至关重要，因为它将塑造未来的车辆设计和功能。随着我们继续推动交通领域的可能性，像超同步制动这样的技术将在为每个人创造更安全、更高效的车辆方面发挥重要作用。