damping weight

简明释义

阻尼重量

英英释义

例句

1.The engineer calculated the necessary damping weight to reduce vibrations in the bridge.

工程师计算了减少桥梁振动所需的阻尼重量。

2.The damping weight helped to minimize the oscillations during the earthquake simulation.

在地震模拟中，阻尼重量帮助最小化了振荡。

3.In order to stabilize the structure, we added a damping weight at the base.

为了稳定结构，我们在底部添加了一个阻尼重量。

4.The damping weight is essential for the proper functioning of the suspension system.

对于悬挂系统的正常运行，阻尼重量是必不可少的。

5.By adjusting the damping weight, the team was able to improve the performance of the vehicle.

通过调整阻尼重量，团队能够改善车辆的性能。

作文

In the realm of engineering and physics, the concept of damping plays a crucial role in the design and functionality of various systems. One essential component often discussed in this context is the damping weight, which refers to a mass used to reduce vibrations and oscillations in mechanical systems. Understanding how damping weight operates can provide insights into its importance in everyday applications, from automobiles to buildings. To illustrate, let us consider a scenario involving a suspension system in a vehicle. When a car travels over a bumpy road, it experiences jolts that can lead to discomfort for passengers and potential damage to the vehicle's structure. Here, the damping weight works by absorbing some of the energy from these jolts, allowing the suspension to smooth out the ride. The presence of a well-calibrated damping weight ensures that the vehicle remains stable, enhancing both safety and comfort. Furthermore, the principles of damping weight are equally applicable in architectural engineering. Buildings are designed to withstand various forces, including wind and seismic activity. Engineers often incorporate damping weights in the design of tall structures to mitigate the effects of these forces. For example, a high-rise building equipped with a tuned mass damper—a type of damping weight—can effectively reduce swaying during strong winds or earthquakes. This not only protects the integrity of the structure but also ensures the safety of its occupants. The effectiveness of damping weight can be influenced by several factors, including its mass, position, and the materials used in its construction. Engineers must carefully calculate these variables to achieve optimal results. In many cases, the goal is to find a balance between sufficient damping and the overall weight of the system. An excessively heavy damping weight might counteract the benefits of damping by adding undue stress to the structure, while an insufficiently sized weight may fail to provide adequate vibration reduction. Moreover, the application of damping weight extends beyond traditional engineering fields. It can also be found in consumer products, such as washing machines and audio equipment. For instance, washing machines utilize damping weights to minimize vibrations during the spin cycle, ensuring quieter operation and reducing wear on the machine. Similarly, high-fidelity speakers may incorporate damping weights to enhance sound quality by stabilizing the speaker components. In conclusion, damping weight is a vital concept that spans multiple disciplines, playing a significant role in enhancing the performance and safety of various systems. Whether in vehicles, buildings, or everyday appliances, the effective use of damping weight demonstrates the intricate balance between design and functionality. As technology advances, the understanding and application of damping weight will continue to evolve, leading to improved solutions for vibration control in an ever-changing world.

在工程和物理学领域，阻尼的概念在各种系统的设计和功能中发挥着至关重要的作用。一个常被讨论的基本组件是damping weight，它指的是用于减少机械系统中振动和摆动的质量。理解damping weight的运作方式可以深入了解其在日常应用中的重要性，从汽车到建筑物。 为了说明这一点，让我们考虑一个涉及车辆悬挂系统的场景。当一辆车在颠簸的道路上行驶时，它会经历冲击，这可能导致乘客的不适和车辆结构的潜在损坏。在这里，damping weight通过吸收这些冲击的一部分能量，允许悬挂系统平滑行驶。良好校准的damping weight的存在确保了车辆保持稳定，增强了安全性和舒适性。 此外，damping weight的原理在建筑工程中同样适用。建筑物被设计为承受各种力量，包括风力和地震活动。工程师通常在高层建筑的设计中加入damping weights以减轻这些力量的影响。例如，配备调谐质量阻尼器（即一种damping weight）的高层建筑可以有效减少在强风或地震期间的摇晃。这不仅保护了结构的完整性，还确保了居住者的安全。 damping weight的有效性可能受到多个因素的影响，包括其质量、位置以及所用材料。工程师必须仔细计算这些变量以达到最佳效果。在许多情况下，目标是找到足够阻尼和系统整体重量之间的平衡。过重的damping weight可能通过给结构施加不必要的压力来抵消阻尼的好处，而不足的重量可能无法提供足够的振动减少。 此外，damping weight的应用超越了传统的工程领域。它还可以在消费产品中找到，例如洗衣机和音频设备。例如，洗衣机利用damping weights在脱水周期中最小化振动，确保安静的操作并减少机器的磨损。同样，高保真扬声器可能包含damping weights以通过稳定扬声器组件来增强音质。 总之，damping weight是一个跨越多个学科的重要概念，在提升各种系统的性能和安全性方面发挥着重要作用。无论是在车辆、建筑物还是日常电器中，有效使用damping weight展示了设计与功能之间的微妙平衡。随着技术的进步，对damping weight的理解和应用将继续发展，为在不断变化的世界中提供改善振动控制的解决方案。