brake mean pressre

简明释义

平均制动压力

英英释义

例句

1.Engineers often adjust the brake mean pressure 制动平均压力 during vehicle testing to evaluate different braking systems.

工程师在车辆测试中经常调整 brake mean pressure 制动平均压力 以评估不同的制动系统。

2.During the test, we monitored the brake mean pressure 制动平均压力 to ensure optimal braking efficiency.

在测试过程中，我们监测了 brake mean pressure 制动平均压力 以确保最佳制动效率。

3.A higher brake mean pressure 制动平均压力 can lead to quicker stops but may also cause more wear on the brake components.

较高的 brake mean pressure 制动平均压力 可以导致更快的停车，但也可能导致刹车部件的磨损加剧。

4.Understanding the relationship between speed and brake mean pressure 制动平均压力 is essential for race car drivers.

理解速度与 brake mean pressure 制动平均压力 之间的关系对赛车手至关重要。

5.The technician explained that the brake mean pressure 制动平均压力 is a crucial factor in determining engine performance.

技术人员解释说，brake mean pressure 制动平均压力 是决定发动机性能的关键因素。

作文

In the world of engineering and mechanics, understanding various terms is crucial for effective communication and problem-solving. One such term that often comes up in discussions about braking systems is brake mean pressure. This term refers to the average pressure exerted by the brake system during its operation. It is an essential parameter that helps engineers evaluate the performance and efficiency of braking systems in vehicles. The significance of brake mean pressure cannot be overstated as it directly influences the safety and reliability of a vehicle's braking capabilities.To delve deeper into the concept, let us first break down what brake mean pressure entails. When a driver applies the brakes, hydraulic fluid is forced through the brake lines, creating pressure that activates the brake pads against the rotors. The average pressure generated during this process over a specific period is what we refer to as brake mean pressure. This measurement is vital for engineers when designing braking systems because it affects how quickly and effectively a vehicle can come to a stop.Moreover, brake mean pressure plays a significant role in the overall design of the braking system. For instance, if the brake mean pressure is too low, the brakes may not engage effectively, leading to longer stopping distances and increased risk of accidents. Conversely, if the pressure is too high, it could lead to premature wear of brake components or even brake failure. Thus, finding the optimal brake mean pressure is critical in ensuring that a vehicle operates safely under various driving conditions.In addition to safety concerns, brake mean pressure is also a key factor in the performance of racing cars. In motorsports, where every millisecond counts, teams meticulously calculate the brake mean pressure to enhance their vehicles' stopping power without compromising control. Engineers and drivers work together to fine-tune the braking system, adjusting the pressure to achieve the best possible performance on the track.Furthermore, advancements in technology have led to the development of more sophisticated braking systems, such as anti-lock braking systems (ABS) and electronic brake-force distribution (EBD). These systems utilize sensors and computer algorithms to monitor and adjust brake mean pressure in real-time, ensuring optimal braking performance. Such innovations highlight the importance of understanding brake mean pressure not just from a mechanical perspective but also in the context of modern automotive technology.In conclusion, brake mean pressure is a fundamental concept in the field of automotive engineering that warrants thorough understanding. It encompasses the average pressure exerted during braking, which is critical for both safety and performance. Whether in everyday vehicles or high-performance racing cars, maintaining the right brake mean pressure is essential for ensuring that drivers can rely on their brakes when they need them most. As technology continues to evolve, so too will our understanding and application of brake mean pressure, making it an ever-relevant topic in the automotive industry.

在工程和机械的世界中，理解各种术语对于有效沟通和解决问题至关重要。其中一个在制动系统讨论中经常出现的术语是制动平均压力。这个术语指的是在制动系统运行期间施加的平均压力。这是一个重要的参数，帮助工程师评估车辆制动系统的性能和效率。制动平均压力的重要性不容小觑，因为它直接影响到车辆制动能力的安全性和可靠性。为了更深入地理解这一概念，让我们首先拆解一下制动平均压力的含义。当驾驶员踩下刹车时，液压油被强制通过制动管线，产生压力，激活刹车片与转子之间的接触。在这一过程中，在特定时间内产生的平均压力就是我们所称的制动平均压力。这一测量对工程师在设计制动系统时至关重要，因为它影响着车辆的停车速度和有效性。此外，制动平均压力在制动系统的整体设计中也起着重要作用。例如，如果制动平均压力过低，刹车可能无法有效接合，导致停车距离变长，增加事故风险。相反，如果压力过高，可能导致刹车部件的过早磨损甚至刹车失灵。因此，找到最佳的制动平均压力对确保车辆在各种驾驶条件下安全运行至关重要。除了安全问题，制动平均压力还是赛车性能的关键因素。在汽车运动中，每毫秒都至关重要，车队会仔细计算制动平均压力以增强车辆的制动能力，而不影响控制。工程师和驾驶员共同努力，微调制动系统，调整压力，以在赛道上获得最佳性能。此外，技术的进步导致了更复杂的制动系统的发展，例如防抱死制动系统（ABS）和电子制动力分配（EBD）。这些系统利用传感器和计算机算法实时监控和调整制动平均压力，确保最佳的制动性能。这些创新突显了理解制动平均压力的重要性，不仅从机械角度来看，也在现代汽车技术的背景下。总之，制动平均压力是汽车工程领域的一个基本概念，值得深入理解。它涵盖了刹车过程中施加的平均压力，这对安全性和性能至关重要。无论是在日常车辆还是高性能赛车中，保持适当的制动平均压力对于确保驾驶员在最需要的时候能够依赖刹车至关重要。随着技术的不断发展，我们对制动平均压力的理解和应用也将不断演变，使其在汽车行业中始终保持相关性。