brake torque

简明释义

制动力矩

英英释义

例句

1.Adjusting the brake torque 制动扭矩 can improve traction on slippery surfaces.

调整 brake torque 制动扭矩 可以改善在滑溜表面的牵引力。

2.High-performance sports cars often have upgraded systems to manage brake torque 制动扭矩 effectively.

高性能跑车通常配备升级系统，以有效管理 brake torque 制动扭矩。

3.During testing, we measured the brake torque 制动扭矩 to evaluate the braking distance of the vehicle.

在测试过程中，我们测量了 brake torque 制动扭矩 以评估车辆的制动距离。

4.When designing a new vehicle, engineers must calculate the optimal brake torque 制动扭矩 to ensure safety and efficiency.

在设计新车辆时，工程师必须计算最佳的 brake torque 制动扭矩 以确保安全和效率。

5.The car's performance can be significantly affected by the amount of brake torque 制动扭矩 applied during a sudden stop.

在急停时施加的 brake torque 制动扭矩 会显著影响汽车的性能。

作文

In the world of automotive engineering, understanding the concept of brake torque is crucial for designing efficient braking systems. Brake torque refers to the rotational force generated by the brake system when a vehicle's brakes are applied. This force is essential for slowing down or stopping the vehicle safely. The effectiveness of brake torque can significantly impact a vehicle's performance, safety, and overall driving experience. To comprehend how brake torque works, it is important to consider the components involved in a vehicle's braking system. When the driver presses the brake pedal, hydraulic pressure is created, which activates the brake pads. These pads then clamp down on the brake rotor, generating friction that slows the wheel's rotation. The amount of brake torque produced depends on several factors, including the size of the brake components, the material of the brake pads, and the design of the braking system itself. For example, larger brake rotors can provide greater brake torque because they have a larger surface area for the brake pads to grip. Additionally, high-performance brake pads made from advanced materials can enhance the brake torque by providing better friction characteristics. Therefore, engineers must carefully select and design these components to optimize the brake torque for specific vehicles and driving conditions.Moreover, brake torque is not only about the ability to stop a vehicle but also about maintaining control during the braking process. A well-designed braking system will ensure that the brake torque is applied smoothly and consistently, preventing skidding or loss of traction. This is particularly important in emergency situations where quick and effective braking can make the difference between a safe stop and a collision.The relationship between brake torque and vehicle dynamics is another critical aspect to consider. As a vehicle decelerates, weight transfer occurs, shifting more load to the front wheels. This change in weight distribution can affect the brake torque experienced by each wheel, leading to potential imbalances in braking performance. To mitigate this, modern vehicles often utilize anti-lock braking systems (ABS) that help maintain optimal brake torque at each wheel, enhancing stability and control during braking.In conclusion, brake torque plays a vital role in the safety and performance of vehicles. Understanding its mechanics allows engineers to design better braking systems that provide reliable stopping power under various conditions. As technology advances, the pursuit of higher brake torque capabilities continues, pushing the boundaries of automotive engineering and improving the overall driving experience. With proper knowledge and application of brake torque, we can ensure safer roads and more efficient vehicles for the future.

在汽车工程的世界中，理解制动扭矩的概念对设计高效的制动系统至关重要。制动扭矩是指当车辆的制动器被施加时，制动系统产生的旋转力。这种力量对于安全地减速或停止车辆是必不可少的。制动扭矩的有效性可以显著影响车辆的性能、安全性和整体驾驶体验。要理解制动扭矩的工作原理，重要的是要考虑车辆制动系统中涉及的组件。当驾驶员踩下制动踏板时，会产生液压压力，激活制动片。这些制动片随后夹住制动转子，产生摩擦，减缓车轮的旋转。产生的制动扭矩量取决于多个因素，包括制动组件的大小、制动片的材料以及制动系统本身的设计。例如，较大的制动转子可以提供更大的制动扭矩，因为它们具有更大的表面积供制动片抓握。此外，由先进材料制成的高性能制动片可以通过提供更好的摩擦特性来增强制动扭矩。因此，工程师必须仔细选择和设计这些组件，以优化特定车辆和驾驶条件下的制动扭矩。此外，制动扭矩不仅仅关乎停止车辆的能力，还关乎在制动过程中保持控制。一个设计良好的制动系统将确保制动扭矩平稳且一致地施加，防止打滑或失去牵引力。这在紧急情况下尤为重要，因为快速有效的制动可以决定安全停车和碰撞之间的差异。制动扭矩与车辆动态之间的关系是另一个关键方面。当车辆减速时，重量转移会发生，使更多负载转移到前轮。这种重量分布的变化会影响每个车轮的制动扭矩，导致制动性能的潜在不平衡。为了减轻这种情况，现代车辆通常采用防抱死制动系统（ABS），该系统有助于在每个车轮上保持最佳的制动扭矩，增强制动过程中的稳定性和控制性。总之，制动扭矩在车辆的安全性和性能中发挥着至关重要的作用。理解其机制使工程师能够设计出更好的制动系统，在各种条件下提供可靠的制动能力。随着技术的进步，对更高制动扭矩能力的追求仍在继续，推动汽车工程的边界，改善整体驾驶体验。通过对制动扭矩的正确理解和应用，我们可以确保未来的道路更安全，车辆更高效。