brake load

简明释义

制动负载

英英释义

例句

1.A higher brake load can lead to faster wear of brake components.

更高的制动负载可能会导致制动部件更快磨损。

2.The technician measured the brake load on each wheel to diagnose the issue.

技术员测量了每个轮子的制动负载以诊断问题。

3.During testing, the brake load was found to exceed the manufacturer's specifications.

在测试中，发现制动负载超过了制造商的规格。

4.The engineer calculated the brake load to ensure the vehicle could stop safely.

工程师计算了制动负载以确保车辆能够安全停车。

5.Adjusting the brake load can improve the performance of the braking system.

调整制动负载可以提高制动系统的性能。

作文

In the field of engineering, particularly in mechanical and civil disciplines, understanding various concepts that affect the performance and safety of structures and machines is crucial. One such concept is brake load, which refers to the load or force that is applied to a braking system when it is engaged. This term is especially significant in the context of vehicles, where the brakes are responsible for reducing speed or coming to a complete stop. The brake load can vary depending on several factors, including the weight of the vehicle, the gradient of the road, and the condition of the braking system itself.When a vehicle is in motion, the brakes must exert sufficient force to counteract the momentum of the vehicle. This force is quantified as brake load, and it plays a critical role in determining how quickly a vehicle can stop. For instance, a heavier vehicle will naturally require a greater brake load to stop effectively compared to a lighter vehicle. Similarly, if a vehicle is descending a steep hill, the gravitational force acting on it increases the brake load required to slow down or halt the vehicle.Moreover, the efficiency of the braking system also influences the brake load. A well-maintained braking system with high-quality components will be able to generate a higher braking force with less effort, thereby reducing the overall brake load on the system. Conversely, worn-out brake pads or insufficient brake fluid can lead to decreased braking efficiency, necessitating a higher brake load to achieve the same stopping power. This is why regular maintenance of braking systems is vital for ensuring safety on the roads.The concept of brake load extends beyond just automotive applications; it is also relevant in various industrial settings. For example, in crane operations, the brake load must be carefully calculated to ensure that the crane can safely lift and lower heavy loads without risking failure. Engineers must take into account not only the weight of the load but also dynamic factors such as wind resistance and the speed at which the load is moved. Understanding the brake load in these scenarios helps prevent accidents and equipment damage.In summary, the term brake load encompasses a fundamental aspect of both vehicle dynamics and machinery operations. It is essential for engineers and operators to have a clear understanding of this concept to ensure safety and efficiency. By considering factors such as vehicle weight, gradient, and braking system condition, one can better manage the brake load to optimize performance and prevent potential hazards. As technology continues to advance, the study of brake load will remain a key focus in engineering disciplines, highlighting its importance across various applications.

在工程领域，特别是在机械和土木学科中，理解影响结构和机器性能及安全的各种概念至关重要。其中一个概念是brake load，它指的是当制动系统被激活时施加于制动系统的负载或力。这个术语在车辆的背景下尤为重要，因为刹车负责减速或完全停止。brake load可能会因多个因素而变化，包括车辆的重量、道路的坡度以及制动系统本身的状况。当一辆车在运动时，刹车必须施加足够的力量来抵消车辆的动量。这个力量被量化为brake load，它在决定一辆车可以多快停止方面起着关键作用。例如，一辆较重的车辆自然需要更大的brake load才能有效停车，而相比之下，较轻的车辆则需要较小的负载。同样，如果一辆车正在下坡，作用于它的重力增加了所需的brake load，以减慢速度或使其停下来。此外，制动系统的效率也影响brake load。维护良好的制动系统与高质量的组件能够在施加较少的努力的情况下产生更高的制动力，从而减少系统上的总体brake load。相反，磨损的刹车片或不足的刹车油可能导致制动效率降低，因此需要更高的brake load才能达到相同的制动效果。这就是为什么定期维护制动系统对于确保道路安全至关重要。brake load的概念不仅限于汽车应用；它在各种工业环境中也很相关。例如，在起重机操作中，必须仔细计算brake load，以确保起重机能够安全地提升和降低重物，而不会面临故障的风险。工程师必须考虑的不仅是负载的重量，还有动态因素，如风阻和负载移动的速度。理解这些场景中的brake load有助于防止事故和设备损坏。总之，术语brake load涵盖了车辆动力学和机械操作的一个基本方面。工程师和操作人员必须清楚理解这一概念，以确保安全和效率。通过考虑车辆重量、坡度和制动系统状况等因素，可以更好地管理brake load，以优化性能并防止潜在的危险。随着技术的不断进步，brake load的研究将继续成为工程学科的一个重点，突显其在各种应用中的重要性。