brake power

简明释义

制动功率

英英释义

例句

1.The car's brake power is crucial for safety during high-speed driving.

汽车的制动能力在高速驾驶时对安全至关重要。

2.We need to test the brake power of this vehicle before the race.

在比赛之前，我们需要测试这辆车的制动能力。

3.Poor brake power can lead to accidents on slippery roads.

较差的制动能力可能导致在滑溜的道路上发生事故。

4.A vehicle with strong brake power can stop quickly in emergencies.

一辆具有强大制动能力的车辆可以在紧急情况下迅速停车。

5.The mechanic adjusted the brake power to ensure better performance.

机械师调整了制动能力以确保更好的性能。

作文

The term brake power refers to the actual power output of an engine that is available for performing work. It is a crucial measurement in the automotive and engineering fields, as it indicates how much power an engine can deliver to the wheels of a vehicle or to any machinery. Understanding brake power is essential for anyone involved in vehicle performance, design, or maintenance. In this essay, we will explore the significance of brake power, how it is measured, and its implications for both consumers and manufacturers.To begin with, brake power is typically measured in horsepower (HP) or kilowatts (kW). The measurement is taken at the engine's output shaft, which means it reflects the engine's performance without any losses that occur in the drivetrain or other components. This is important because it provides a clear picture of how much power is available for use, unlike other measurements that might include losses due to friction, heat, and other factors.One of the primary reasons why brake power is so significant is that it directly affects a vehicle's performance. For instance, a car with higher brake power will generally have better acceleration and be able to reach higher speeds compared to a car with lower brake power. This is particularly important for sports cars and performance vehicles where speed and agility are paramount. Consumers looking to purchase a new vehicle often consider the brake power rating as a key factor in their decision-making process.Moreover, understanding brake power can help manufacturers design better engines. By analyzing how different variables affect brake power, engineers can make informed decisions about engine size, fuel type, and other design elements. For example, advancements in technology have allowed manufacturers to create smaller engines that produce more brake power through turbocharging and other innovations. This not only enhances performance but also improves fuel efficiency, which is increasingly important in today’s environmentally conscious market.In addition to performance considerations, brake power also plays a role in safety. Vehicles with adequate brake power can handle various driving conditions more effectively, such as steep inclines or sudden stops. This is particularly critical for larger vehicles like trucks and SUVs, which require more power to maintain control and stability under load.Furthermore, brake power is not only relevant in automobiles but also in various industries that rely on heavy machinery. In construction, for example, excavators and bulldozers must have sufficient brake power to perform tasks efficiently. The ability to move heavy loads and operate effectively in challenging environments depends heavily on the brake power of the equipment being used.In conclusion, brake power is a vital concept in understanding engine performance and its implications for consumers and manufacturers alike. It determines how well a vehicle can perform, influences design choices, and impacts safety across various applications. As technology continues to evolve, the importance of brake power will remain a central focus in the automotive industry and beyond. For those interested in vehicles or machinery, gaining a solid grasp of brake power is essential for making informed decisions and understanding the capabilities of the machines they work with.

刹车功率这个术语指的是发动机可用于执行工作的实际功率输出。这是汽车和工程领域中一个至关重要的测量，因为它表明发动机能够提供给车辆车轮或任何机械设备的功率。理解刹车功率对于任何参与车辆性能、设计或维护的人来说都是至关重要的。在这篇文章中，我们将探讨刹车功率的重要性、如何测量以及对消费者和制造商的影响。首先，刹车功率通常以马力（HP）或千瓦（kW）为单位进行测量。该测量是在发动机输出轴上进行的，这意味着它反映了发动机的性能，而不考虑在传动系统或其他组件中发生的损失。这一点非常重要，因为它提供了可用功率的清晰图像，与可能包括由于摩擦、热量和其他因素造成的损失的其他测量不同。刹车功率如此重要的主要原因之一是，它直接影响车辆的性能。例如，一辆具有更高刹车功率的汽车通常会比具有较低刹车功率的汽车加速更快，能够达到更高的速度。这对于运动型汽车和性能车辆尤其重要，因为速度和敏捷性至关重要。寻找购买新车的消费者通常将刹车功率评级作为决策过程中的关键因素。此外，理解刹车功率可以帮助制造商设计更好的发动机。通过分析不同变量如何影响刹车功率，工程师可以对发动机尺寸、燃料类型和其他设计元素做出明智的决策。例如，技术的进步使制造商能够创造出更小的发动机，通过涡轮增压和其他创新产生更多的刹车功率。这不仅提高了性能，还改善了燃油效率，这在当今环保意识日益增强的市场中变得越来越重要。除了性能考虑之外，刹车功率在安全性方面也发挥着作用。具有足够刹车功率的车辆可以更有效地处理各种驾驶条件，例如陡坡或突然停车。这对于大型车辆如卡车和SUV尤为关键，因为这些车辆在负载下需要更多的功率来保持控制和稳定性。此外，刹车功率不仅与汽车相关，还与依赖重型机械的各个行业相关。例如，在建筑行业，挖掘机和推土机必须具有足够的刹车功率才能高效执行任务。移动重载和有效在挑战性环境中操作的能力在很大程度上取决于所使用设备的刹车功率。总之，刹车功率是理解发动机性能及其对消费者和制造商影响的重要概念。它决定了一辆车的性能如何，影响设计选择，并对各类应用的安全性产生影响。随着技术的不断发展，刹车功率的重要性将继续成为汽车行业及其他行业的中心焦点。对于那些对车辆或机械感兴趣的人来说，深入了解刹车功率对于做出明智的决策和理解他们所使用机器的能力至关重要。