steering resistance

简明释义

回转阻力

英英释义

例句

1.Adjusting the tire pressure can help decrease steering resistance, making the vehicle easier to handle.

调整轮胎压力可以帮助减少转向阻力，使车辆更易于操控。

2.The sports car is designed with minimal steering resistance for improved performance on the track.

这款跑车设计时考虑到最小化转向阻力，以提高赛道上的性能。

3.During the test drive, I noticed that the steering resistance was much lower than in my previous vehicle.

在试驾过程中，我注意到转向阻力比我之前的车辆低得多。

4.Drivers often prefer vehicles with lower steering resistance for a more responsive feel.

驾驶者通常更喜欢具有较低转向阻力的车辆，以获得更灵敏的操控感。

5.The new car model has significantly reduced steering resistance to enhance driving comfort.

新车型显著降低了转向阻力，以提升驾驶舒适性。

作文

In the world of automotive engineering, the term steering resistance refers to the force that opposes the movement of the steering wheel when a driver attempts to turn it. This resistance is a crucial aspect of vehicle handling and can significantly affect the driving experience. When steering resistance is too high, it can make the vehicle difficult to maneuver, leading to driver fatigue and reduced control, especially in tight turns or during parking. Conversely, if the steering resistance is too low, the steering can feel overly sensitive, making it challenging for drivers to maintain precise control over their vehicle. Therefore, achieving the right balance of steering resistance is essential for optimal vehicle performance.The design of the steering system plays a vital role in determining the level of steering resistance. Most modern vehicles use power steering systems that assist the driver in turning the wheel. These systems can be hydraulic or electric, each offering different characteristics of steering resistance. Hydraulic systems generally provide a more natural feel, while electric systems can be adjusted to offer varying levels of steering resistance based on speed and driving conditions. For instance, many electric power steering systems increase steering resistance at higher speeds to provide better feedback and stability, while reducing it at lower speeds for easier maneuverability.Moreover, steering resistance is influenced by various factors, including tire pressure, wheel alignment, and even the surface of the road. Proper maintenance of these components is crucial for ensuring that steering resistance remains within an acceptable range. Drivers should regularly check their tire pressure and ensure that their wheels are aligned correctly to avoid excessive steering resistance. Additionally, road conditions such as potholes or uneven surfaces can temporarily alter the steering resistance, making it important for drivers to be aware of their surroundings and adjust their steering input accordingly.The importance of steering resistance extends beyond just comfort and ease of driving; it also has safety implications. A vehicle with inappropriate steering resistance can lead to accidents, especially in emergency situations where quick maneuvers are necessary. For example, if a driver needs to swerve to avoid an obstacle and the steering resistance is too high, they may not react quickly enough, resulting in a collision. Therefore, automotive engineers must carefully consider the desired steering resistance when designing steering systems, taking into account the intended use of the vehicle, whether it be for daily commuting, racing, or off-road adventures.In conclusion, steering resistance is a fundamental concept in the field of vehicle dynamics that affects both the performance and safety of automobiles. Understanding how it works and what factors influence it can help drivers appreciate the intricacies of their vehicles and encourage them to maintain their cars properly. As technology advances, we can expect to see further innovations in steering systems that will continue to enhance the balance of steering resistance for a safer and more enjoyable driving experience.

在汽车工程领域，术语steering resistance指的是当驾驶员试图转动方向盘时，抵抗方向盘运动的力量。这种阻力是车辆操控的重要方面，能够显著影响驾驶体验。当steering resistance过高时，会使车辆难以操控，导致驾驶疲劳和控制能力下降，尤其是在紧急转弯或停车时。相反，如果steering resistance过低，方向盘可能会显得过于敏感，使驾驶员难以保持对车辆的精准控制。因此，实现适当的steering resistance平衡对于最佳车辆性能至关重要。方向系统的设计在决定steering resistance水平方面发挥着重要作用。大多数现代车辆使用助力转向系统来帮助驾驶员转动方向盘。这些系统可以是液压的或电动的，各自提供不同特性的steering resistance。液压系统通常提供更自然的感觉，而电动系统则可以根据速度和驾驶条件调节提供不同水平的steering resistance。例如，许多电动助力转向系统在高速行驶时增加steering resistance以提供更好的反馈和稳定性，而在低速时减少steering resistance以便于操控。此外，steering resistance还受到轮胎压力、车轮对齐以及道路表面等各种因素的影响。适当维护这些组件对于确保steering resistance保持在可接受范围内至关重要。驾驶员应定期检查轮胎压力，并确保车轮正确对齐，以避免过度的steering resistance。此外，路况如坑洞或不平坦的表面可能暂时改变steering resistance，因此，驾驶员需要注意周围环境，并相应调整其转向输入。steering resistance的重要性不仅体现在舒适性和驾驶便利性上；还具有安全隐患。如果车辆的steering resistance不当，可能导致事故，特别是在需要快速机动的紧急情况下。例如，如果驾驶员需要为了避免障碍物而急转方向，而steering resistance过高，他们可能反应不够迅速，从而导致碰撞。因此，汽车工程师在设计转向系统时，必须仔细考虑所需的steering resistance，并考虑车辆的预期用途，无论是日常通勤、赛车还是越野冒险。总之，steering resistance是车辆动力学领域的一个基本概念，影响着汽车的性能和安全性。理解其工作原理及影响因素可以帮助驾驶员欣赏自己车辆的复杂性，并鼓励他们妥善维护汽车。随着技术的进步，我们可以期待在转向系统中看到更多创新，将继续增强steering resistance的平衡，为更安全、更愉悦的驾驶体验奠定基础。