brake power

简明释义

制动功率制动力

英英释义

例句

1.A decrease in brake power can lead to longer stopping distances.

如果刹车功率下降，可能会导致制动距离变长。

2.The car's brake power is essential for ensuring safety during high-speed driving.

汽车的刹车功率在高速驾驶时确保安全至关重要。

3.High-performance vehicles often have enhanced brake power to handle better on race tracks.

高性能车辆通常具有增强的刹车功率，以便在赛道上更好地操控。

4.The engineer adjusted the system to improve the brake power for heavy loads.

工程师调整了系统，以提高重载情况下的刹车功率。

5.We need to test the brake power of the new model before it hits the market.

在新车型上市前，我们需要测试其刹车功率。

作文

In the world of engineering and automotive design, understanding the concept of brake power is crucial for both safety and performance. Brake power refers to the measure of an engine's output before any losses such as friction or heat are accounted for. This term is particularly relevant in the context of vehicles, where the efficiency of the braking system can significantly impact overall functionality. When a vehicle accelerates, it relies on its engine's power to move forward. However, when it comes time to stop, the brake power becomes essential in determining how effectively and quickly a vehicle can halt its motion.The efficiency of brake power is influenced by various factors including the weight of the vehicle, the condition of the brakes, and the type of brake system employed. For instance, vehicles designed for racing often have high-performance brake systems that can dissipate heat more efficiently, allowing for greater brake power. On the other hand, everyday vehicles might prioritize comfort and smoothness over raw stopping power, leading to different specifications in their brake power capabilities.Moreover, the relationship between brake power and engine power is vital for understanding vehicle dynamics. A car with a powerful engine but inadequate brake power can be dangerous, as it may accelerate quickly but struggle to stop effectively. Therefore, automotive engineers must find a balance between these two aspects to ensure safety and performance.In addition to performance considerations, environmental factors also play a role in how brake power is utilized. For example, driving downhill presents unique challenges where the brake power must be sufficient to counteract gravity. In such situations, excessive reliance on brakes can lead to overheating and potential brake failure, emphasizing the need for adequate brake power in all conditions.Furthermore, advancements in technology have led to innovations in braking systems, enhancing brake power across various types of vehicles. Anti-lock braking systems (ABS) and electronic stability control (ESC) are examples of technologies that improve the effectiveness of brake power, allowing drivers to maintain control during emergency stops or slippery conditions.In conclusion, brake power is a fundamental concept in automotive engineering that affects both the safety and performance of vehicles. By comprehensively understanding brake power, manufacturers can create vehicles that not only accelerate efficiently but also stop reliably. This balance is essential for providing a safe driving experience and highlights the importance of continuous research and development in the field of automotive technology.

在工程和汽车设计的世界中，理解“制动功率”的概念对于安全和性能至关重要。“制动功率”是指发动机输出的测量值，在考虑任何损失（如摩擦或热量）之前。这个术语在车辆的背景下尤为相关，因为制动系统的效率可以显著影响整体功能。当一辆车加速时，它依赖于发动机的动力向前移动。然而，当需要停车时，“制动功率”变得至关重要，以确定一辆车能多快、多有效地停止其运动。“制动功率”的效率受到多种因素的影响，包括车辆的重量、刹车的状况以及所采用的刹车系统类型。例如，为赛车设计的车辆通常配备高性能制动系统，可以更有效地散热，从而提高“制动功率”。另一方面，日常车辆可能优先考虑舒适性和平稳性，而不是原始的制动能力，因此在它们的“制动功率”能力上会有不同的规格。此外，“制动功率”与发动机功率之间的关系对于理解车辆动态至关重要。一辆发动机强大但“制动功率”不足的汽车可能是危险的，因为它可能加速迅速，但难以有效停止。因此，汽车工程师必须在这两个方面之间找到平衡，以确保安全和性能。除了性能考虑外，环境因素也在“制动功率”的利用中发挥作用。例如，下坡驾驶带来了独特的挑战，其中“制动功率”必须足以抵消重力。在这种情况下，过度依赖刹车可能导致过热和潜在的刹车故障，这强调了在所有条件下都需要足够的“制动功率”。此外，技术的进步导致了制动系统的创新，提高了各种类型车辆的“制动功率”。防抱死制动系统（ABS）和电子稳定控制（ESC）就是改善“制动功率”的技术示例，使驾驶者在紧急刹车或滑溜条件下保持控制。总之，“制动功率”是汽车工程中的一个基本概念，影响着车辆的安全和性能。通过全面理解“制动功率”，制造商可以创造出不仅能够高效加速而且能够可靠停止的车辆。这种平衡对于提供安全的驾驶体验至关重要，并突显了在汽车技术领域持续研究和发展的重要性。