dampeners

简明释义

英[ˈdæmpənəz]美[ˈdæmpənərz]

[测] 湿润器

英英释义

单词用法

同义词

反义词

例句

1.These sensors have already detected some abnormal vibrations in the cables holding the bridge, which led engineers to install additional weights as dampeners.

目前传感器已经在牵拉大桥的钢索上查出到几处异常的震动，因此工程师在这些地方进行了加重缓冲。

2.These sensors have already detected some abnormal vibrations in the cables holding the bridge, which led engineers to install additional weights as dampeners.

目前传感器已经在牵拉大桥的钢索上查出到几处异常的震动，因此工程师在这些地方进行了加重缓冲。

3.Mr Pink argues that carrots and sticks are not only outdated, but can also be counterproductive-motivation killers and creativity dampeners.

平克认为，萝卜加大棒政策不仅已经过时，还可能会产生不良后果- - -因为他们既挫败人们的动力又扼杀人们的创造力。

4.The engineers installed dampeners to reduce the vibrations in the machinery.

工程师安装了阻尼器以减少机器的振动。

5.Using dampeners can help improve the sound quality in a recording studio.

使用阻尼器可以帮助改善录音室的音质。

6.The new building design includes dampeners to withstand earthquakes.

新的建筑设计包括阻尼器以抵御地震。

7.He added dampeners to his guitar to soften the sound.

他在吉他上添加了阻尼器以柔化音色。

8.The sports car has dampeners that enhance its performance on the racetrack.

这辆跑车配备了阻尼器，提升了其在赛道上的性能。

作文

In the world of engineering and design, every element plays a crucial role in ensuring optimal performance and safety. One of the often overlooked components is the use of dampeners, which are devices designed to reduce or eliminate oscillations and vibrations in structures. These dampeners can be found in various applications, from bridges to buildings and even in machinery. Understanding the importance of dampeners is essential for anyone involved in construction or mechanical design. To begin with, let’s explore what dampeners actually do. When forces act on a structure, they can cause it to vibrate. This vibration can lead to fatigue and eventual failure if not properly managed. Dampeners work by absorbing and dissipating the energy generated from these vibrations. For instance, in a tall building, wind can create oscillations that may be uncomfortable for occupants and could even compromise the structural integrity over time. By incorporating dampeners into the design, engineers can significantly reduce these movements, leading to a safer and more comfortable environment. There are several types of dampeners, each suited for different applications. One common type is the tuned mass damper, which consists of a large mass that is strategically placed within a structure. This mass moves in opposition to the vibrations, effectively counteracting them. A famous example of this is the Taipei 101 building in Taiwan, which features a massive tuned mass damper that helps stabilize the skyscraper against strong winds and earthquakes. Another type of dampeners is the viscous damper, which uses a fluid to absorb energy. These are often utilized in bridges and other large structures where movement needs to be controlled. By employing dampeners, engineers can ensure that the structure remains stable and safe under various conditions. The significance of dampeners extends beyond just structural integrity; they also contribute to the comfort of individuals using the space. For example, in concert halls or theaters, dampeners can help manage sound vibrations, enhancing the acoustic experience for audiences. Similarly, in vehicles, dampeners play a crucial role in providing a smooth ride by reducing the impact of bumps and vibrations on passengers. Moreover, the application of dampeners is not limited to large-scale engineering projects. They can also be found in everyday items such as washing machines, where they help minimize noise and vibration during operation. This illustrates how dampeners are an integral part of both complex and simple systems alike. In conclusion, dampeners are essential components in the fields of engineering and design, serving to protect structures, enhance comfort, and improve overall functionality. Their ability to mitigate vibrations and oscillations cannot be understated, as they play a pivotal role in ensuring safety and stability. As technology advances and our understanding of materials and forces improves, the development of more effective dampeners will continue to evolve, paving the way for even safer and more innovative designs in the future. Thus, recognizing the importance of dampeners is crucial for anyone looking to make a mark in the engineering domain.

在工程和设计的世界中，每个元素在确保最佳性能和安全性方面都扮演着至关重要的角色。其中一个常被忽视的组件是使用dampeners，它们是旨在减少或消除结构中的振动和振荡的设备。这些dampeners可以在各种应用中找到，从桥梁到建筑物，甚至在机械中。理解dampeners的重要性对任何参与建筑或机械设计的人来说都是至关重要的。 首先，让我们探讨一下dampeners的实际作用。当力量作用于结构时，它们可能导致结构振动。如果不加以管理，这种振动可能会导致疲劳和最终的故障。Dampeners通过吸收和耗散这些振动产生的能量来工作。例如，在一栋高楼中，风可能会造成振荡，这可能会让占用者感到不适，甚至可能随着时间的推移危及结构的完整性。通过在设计中加入dampeners，工程师可以显著减少这些运动，从而创造一个更安全、更舒适的环境。 有几种类型的dampeners，每种都适合不同的应用。一种常见的类型是调谐质量阻尼器，它由一个大型质量块组成，战略性地放置在结构内部。这个质量块与振动相反移动，有效抵消了振动。一个著名的例子是位于台湾的台北101大楼，它配备了一个巨大的调谐质量阻尼器，帮助稳定这座摩天大楼，以应对强风和地震。 另一种类型的dampeners是粘性阻尼器，它利用流体来吸收能量。这些通常用于桥梁和其他大型结构中，控制运动。通过使用dampeners，工程师可以确保结构在各种条件下保持稳定和安全。 dampeners的重要性不仅限于结构完整性；它们还为使用空间的人们的舒适度做出贡献。例如，在音乐厅或剧院中，dampeners可以帮助管理声音振动，增强观众的音响体验。同样，在车辆中，dampeners在通过减少颠簸和振动对乘客的影响，提供平稳的驾驶体验方面发挥着至关重要的作用。 此外，dampeners的应用并不限于大型工程项目。它们也可以在日常用品中找到，例如洗衣机，在洗衣机的操作过程中帮助最小化噪音和振动。这说明了dampeners在复杂和简单系统中都是不可或缺的一部分。 总之，dampeners是工程和设计领域的基本组成部分，旨在保护结构、增强舒适性和改善整体功能。它们减轻振动和振荡的能力不容小觑，因为它们在确保安全和稳定性方面发挥着关键作用。随着技术的进步和我们对材料和力量的理解的提高，更有效的dampeners的开发将继续发展，为未来更安全和更具创新性的设计铺平道路。因此，认识到dampeners的重要性对于任何希望在工程领域有所作为的人来说都是至关重要的。