anti-roll stabilizer

简明释义

减横摇装置

英英释义

例句

1.When driving on uneven terrain, the anti-roll stabilizer helps maintain vehicle stability.

在不平坦的地形上驾驶时，防侧倾稳定器有助于保持车辆的稳定性。

2.Many luxury sedans come equipped with a sophisticated anti-roll stabilizer system for a smoother ride.

许多豪华轿车都配备了复杂的防侧倾稳定器系统，以提供更平稳的驾驶体验。

3.Upgrading the anti-roll stabilizer can significantly enhance your car's performance on the track.

升级防侧倾稳定器可以显著提升你汽车在赛道上的表现。

4.The new sports car features an advanced anti-roll stabilizer to improve handling during sharp turns.

这款新跑车配备了先进的防侧倾稳定器，以改善急转弯时的操控性能。

5.The anti-roll stabilizer is crucial for preventing body roll in large SUVs.

在大型SUV中，防侧倾稳定器对于防止车身侧倾至关重要。

作文

The modern automotive industry has seen a significant evolution in vehicle technology, particularly concerning safety and performance. One of the critical components that contribute to both is the anti-roll stabilizer, known in Chinese as 防倾杆. This device plays a crucial role in enhancing vehicle stability during cornering and reducing body roll, which is essential for maintaining control and ensuring passenger comfort. When a vehicle takes a turn, centrifugal force pushes it outward, causing the body to lean or roll to one side. This rolling motion can lead to loss of traction on the tires, making the vehicle more susceptible to skidding or tipping over, especially in high-speed situations. The anti-roll stabilizer effectively counteracts this phenomenon by connecting the left and right wheels through a torsion bar or similar mechanism. When the vehicle begins to roll, the stabilizer applies a force that helps keep the body level, thereby improving handling and safety.In addition to safety benefits, the anti-roll stabilizer also enhances the driving experience. By minimizing body roll, it allows for sharper steering responses and a more connected feeling between the driver and the road. This is particularly important for sports cars and performance vehicles, where precision and agility are paramount. Moreover, the anti-roll stabilizer contributes to a smoother ride, as it helps to absorb shocks from uneven surfaces, making the journey more comfortable for passengers.There are two main types of anti-roll stabilizers: passive and active. Passive systems are the most common and rely on mechanical components to provide resistance against roll. They are typically simpler and more cost-effective but may not adapt to changing road conditions as effectively as active systems. Active anti-roll stabilizers, on the other hand, utilize electronic sensors and actuators to adjust the stiffness of the stabilizer dynamically. This allows for real-time adjustments based on driving conditions, providing an even greater level of control and comfort.As the automotive industry continues to innovate, the design and functionality of the anti-roll stabilizer are likely to evolve further. With the rise of electric and autonomous vehicles, new materials and technologies may be integrated into these systems, leading to even more efficient and effective solutions for vehicle stability. For instance, lightweight materials could reduce the overall weight of the anti-roll stabilizer, improving fuel efficiency without compromising safety. Additionally, advancements in artificial intelligence could enable vehicles to predict and react to potential roll situations before they occur, enhancing safety even further.In conclusion, the anti-roll stabilizer is a vital component in modern vehicles, contributing significantly to safety, handling, and passenger comfort. As technology continues to advance, we can expect to see even more innovative developments in this area, further enhancing the driving experience. Understanding the importance and function of the anti-roll stabilizer is essential for anyone interested in automotive technology, whether they are engineers, enthusiasts, or everyday drivers. By appreciating how this component works, we can better understand the complexities of vehicle dynamics and the ongoing efforts to improve automotive safety and performance.

现代汽车工业在车辆技术方面经历了显著的演变，特别是在安全性和性能方面。防倾杆作为一种关键组件，对提高车辆稳定性和减少车身侧倾起着重要作用，这对于保持控制和确保乘客舒适至关重要。当车辆转弯时，离心力会将其推向外侧，导致车身倾斜或侧倾。这种滚动运动可能导致轮胎失去牵引力，使车辆在高速情况下更容易打滑或翻倒。防倾杆通过连接左右车轮，利用扭杆或类似机制有效抵消这一现象。当车辆开始侧倾时，稳定器施加一个力，帮助保持车身水平，从而改善操控性和安全性。除了安全益处，防倾杆还增强了驾驶体验。通过最小化车身侧倾，它允许更灵敏的转向反应，并增强驾驶员与道路之间的联系感。这对于跑车和高性能车辆尤为重要，因为精确性和灵活性至关重要。此外，防倾杆有助于提供更平稳的乘坐体验，因为它帮助吸收不平坦表面的冲击，使乘客的旅程更加舒适。防倾杆主要有两种类型：被动和主动。被动系统是最常见的，依靠机械组件提供对侧倾的抵抗。它们通常更简单且成本效益更高，但可能无法像主动系统那样有效地适应变化的道路条件。另一方面，主动防倾杆利用电子传感器和执行器动态调整稳定器的刚度。这允许根据驾驶条件实时调整，提供更高的控制和舒适度。随着汽车工业的不断创新，防倾杆的设计和功能可能会进一步发展。随着电动车和自动驾驶车辆的兴起，新材料和技术可能会被集成到这些系统中，导致更高效、更有效的车辆稳定解决方案。例如，轻量化材料可以减少防倾杆的整体重量，提高燃油效率，而不会影响安全性。此外，人工智能的进步可能使车辆能够预测并在发生侧倾情况之前作出反应，从而进一步提高安全性。总之，防倾杆是现代车辆中的重要组成部分，对安全性、操控性和乘客舒适性做出了重要贡献。随着技术的不断进步，我们可以期待在这一领域看到更多创新的发展，进一步提升驾驶体验。理解防倾杆的重要性和功能，对于任何对汽车技术感兴趣的人来说都是必不可少的，无论他们是工程师、爱好者还是普通驾驶者。通过理解这个组件的工作原理，我们可以更好地理解车辆动力学的复杂性，以及在改善汽车安全性和性能方面的持续努力。