fluid brake

简明释义

液力制动器

英英释义

例句

1.During the test drive, I noticed the fluid brake 液压制动 was not responding as quickly as it should.

在试驾过程中，我注意到液压制动反应没有应该那么快。

2.It's crucial to check the fluid brake 液压制动 levels regularly to avoid any accidents.

定期检查液压制动液位是避免事故的关键。

3.The new racing car features an advanced fluid brake 液压制动 system for better control at high speeds.

这款新赛车配备了先进的液压制动系统，以便在高速行驶时更好地控制。

4.The mechanic explained that the fluid brake 液压制动 system needed to be flushed to ensure optimal performance.

技师解释说，液压制动系统需要被冲洗以确保最佳性能。

5.If you hear a grinding noise when using the fluid brake 液压制动, it may indicate worn brake pads.

如果在使用液压制动时听到磨擦声，可能表示刹车片磨损。

作文

In the realm of automotive engineering, the term fluid brake refers to a braking system that utilizes hydraulic fluid to transmit force from the brake pedal to the brake mechanisms. This technology has revolutionized the way vehicles slow down or come to a complete stop, providing smoother and more efficient braking performance compared to older systems. The fluid brake system operates on the principle of Pascal's law, which states that pressure applied to a confined fluid is transmitted undiminished in all directions. This means that when a driver presses the brake pedal, the force is transferred through the hydraulic fluid to the brake calipers, which then clamp down on the brake discs, creating friction that slows the vehicle down.One of the primary advantages of fluid brakes is their ability to provide consistent braking power regardless of the conditions. Whether driving in wet or dry weather, the hydraulic system maintains its effectiveness, ensuring that drivers can rely on their brakes to perform as expected. This reliability is crucial for safety, especially in emergency situations where every second counts. Moreover, fluid brakes are less prone to wear and tear compared to mechanical systems, leading to lower maintenance costs over time.Another important aspect of fluid brake systems is their adaptability to various types of vehicles. From passenger cars to heavy-duty trucks, hydraulic braking systems can be designed to meet the specific needs of different applications. For instance, performance vehicles often utilize advanced fluid brake technologies that allow for quicker response times and enhanced stopping power, while larger vehicles may require more robust systems capable of handling greater loads.The evolution of fluid brake technology has also led to the development of anti-lock braking systems (ABS), which prevent the wheels from locking up during hard braking. This innovation not only improves control and stability but also reduces the risk of skidding, particularly on slippery surfaces. As automotive technology continues to advance, we can expect further enhancements in fluid brake systems, including the integration of electronic controls and sensors that optimize braking performance in real-time.In conclusion, the fluid brake system is a critical component of modern vehicles, providing reliable and efficient braking capabilities. Its design, based on fundamental principles of physics, allows for superior performance and adaptability across a wide range of vehicles. As we look to the future, the ongoing development of fluid brake technology promises to enhance vehicle safety and performance even further, making our roads safer for everyone. Understanding the significance of fluid brake systems not only highlights the complexity of automotive engineering but also emphasizes the importance of safety in transportation. The advancements in this field continue to shape the way we drive, ensuring that we can confidently navigate our journeys with the assurance that our brakes will respond effectively when needed.

在汽车工程领域，术语液压制动指的是一种利用液压油将制动踏板的力量传递到制动机制的制动系统。这项技术彻底改变了车辆减速或完全停止的方式，与旧系统相比，提供了更平滑和更高效的制动性能。液压制动系统基于帕斯卡定律，该定律指出，施加在封闭液体上的压力会在各个方向上不减弱地传递。这意味着，当驾驶员踩下制动踏板时，力量通过液压油传递到制动钳，然后夹紧制动盘，产生摩擦力，使车辆减速。液压制动的主要优点之一是它能够在各种条件下提供一致的制动力。无论是在湿润还是干燥的天气中，液压系统都能保持其有效性，确保驾驶员可以依靠制动器按预期工作。这种可靠性对于安全至关重要，特别是在紧急情况下，每一秒都很重要。此外，与机械系统相比，液压制动系统磨损程度较低，从而在长期使用中降低维护成本。液压制动系统的另一个重要方面是其对各种类型车辆的适应性。从乘用车到重型卡车，液压制动系统可以设计以满足不同应用的特定需求。例如，性能车辆通常采用先进的液压制动技术，允许更快的响应时间和增强的制动能力，而较大车辆可能需要更强大的系统来处理更大的负载。液压制动技术的发展还导致了防抱死制动系统（ABS）的出现，这可以防止在急刹车时车轮锁死。这一创新不仅提高了控制和稳定性，还减少了打滑的风险，特别是在光滑的路面上。随着汽车技术的不断进步，我们可以期待对液压制动系统的进一步改进，包括集成电子控制和传感器，以实时优化制动性能。总之，液压制动系统是现代车辆的重要组成部分，提供可靠和高效的制动能力。它的设计基于物理学的基本原理，使其在各种车辆中具有卓越的性能和适应性。展望未来，液压制动技术的持续发展有望进一步提升车辆的安全性和性能，使我们的道路更加安全。理解液压制动系统的重要性，不仅突显了汽车工程的复杂性，也强调了交通安全的重要性。该领域的进步继续塑造我们的驾驶方式，确保我们在需要时能够自信地驾驭旅程，确信我们的制动器会有效响应。