vibration isolation

简明释义

振动控制

英英释义

例句

1.In sensitive laboratory equipment, vibration isolation is crucial for accurate measurements.

在敏感的实验室设备中，振动隔离对准确测量至关重要。

2.The new design features advanced vibration isolation systems to enhance comfort in vehicles.

新设计采用先进的振动隔离系统，以提高车辆的舒适性。

3.Manufacturers often use vibration isolation pads to protect machinery from excessive vibrations.

制造商通常使用振动隔离垫来保护机器免受过度振动的影响。

4.The concert hall was designed with vibration isolation techniques to improve acoustics.

音乐厅采用了振动隔离技术以改善声学效果。

5.The engineering team implemented vibration isolation to reduce noise in the building.

工程团队实施了振动隔离以减少建筑物内的噪音。

作文

In today's rapidly advancing technological world, the concept of vibration isolation plays a crucial role in ensuring the longevity and functionality of various machines and structures. Vibration isolation refers to the process of minimizing the transmission of vibrations from one object to another. This is particularly important in industries such as construction, manufacturing, and transportation, where heavy machinery and equipment are frequently used. Without proper vibration isolation, these vibrations can lead to structural damage, decreased efficiency, and even pose safety risks to workers. The principle behind vibration isolation lies in the use of materials and techniques that absorb or dampen the energy produced by vibrations. For instance, rubber mounts, springs, and specialized pads are commonly employed to achieve effective vibration isolation. These materials work by providing a barrier that absorbs the kinetic energy generated by vibrations, preventing it from being transmitted to other parts of a structure or machine. One of the most significant applications of vibration isolation can be found in the field of construction. Tall buildings, for example, are often designed with vibration isolation systems to protect them from the effects of wind and seismic activity. By incorporating base isolators or tuned mass dampers, engineers can significantly reduce the impact of these external forces, ensuring that the building remains stable and safe for its occupants. Moreover, in the manufacturing sector, vibration isolation is essential for maintaining the precision and accuracy of machinery. CNC machines, for instance, require a stable environment to operate effectively. If vibrations from nearby equipment or foot traffic are not adequately isolated, they can lead to errors in machining processes, resulting in defective products. Implementing vibration isolation solutions in these settings helps to enhance productivity and reduce waste. Transportation is another area where vibration isolation is vital. Vehicles, whether they are cars, trains, or airplanes, experience vibrations from the road, tracks, or air. Engineers design suspension systems that incorporate vibration isolation features to improve ride comfort and vehicle performance. By absorbing shocks and vibrations, these systems provide a smoother experience for passengers and reduce wear and tear on the vehicle itself. Furthermore, vibration isolation is not limited to large-scale applications. It is also relevant in everyday life. For instance, home appliances such as washing machines and refrigerators often include vibration isolation components to minimize noise and prevent damage to floors and surrounding structures. In conclusion, the importance of vibration isolation cannot be overstated. It is a fundamental aspect of engineering and design that ensures the safety, efficiency, and longevity of various systems and structures. As technology continues to evolve, the methods and materials used for vibration isolation will undoubtedly advance, leading to even more effective solutions for managing vibrations in our increasingly dynamic world. Understanding and implementing vibration isolation techniques is essential for anyone involved in engineering, construction, or manufacturing, as it directly impacts the quality and reliability of their work.

在当今快速发展的技术世界中，振动隔离的概念在确保各种机器和结构的耐用性和功能性方面发挥着至关重要的作用。振动隔离是指最小化振动从一个物体传递到另一个物体的过程。这在建筑、制造和运输等行业尤为重要，因为这些行业经常使用重型机械和设备。如果没有适当的振动隔离，这些振动可能导致结构损坏、效率降低，甚至对工人构成安全风险。振动隔离背后的原理在于使用能够吸收或减弱振动产生的能量的材料和技术。例如，橡胶支架、弹簧和专用垫子通常用于实现有效的振动隔离。这些材料通过提供一个屏障来吸收振动产生的动能，从而防止其传递到结构或机器的其他部分。振动隔离最重要的应用之一可以在建筑领域找到。例如，高层建筑通常设计有振动隔离系统，以保护它们免受风和地震活动的影响。通过结合基础隔离器或调谐质量阻尼器，工程师可以显著减少这些外部力量的影响，确保建筑物对其居住者保持稳定和安全。此外，在制造业中，振动隔离对于保持机械的精度和准确性至关重要。例如，数控机床需要一个稳定的环境才能有效运行。如果附近设备或人流产生的振动没有得到充分隔离，就会导致加工过程中的错误，导致产品缺陷。在这些环境中实施振动隔离解决方案有助于提高生产力并减少浪费。交通运输是另一个振动隔离至关重要的领域。车辆，无论是汽车、火车还是飞机，都经历来自道路、轨道或空气的振动。工程师设计包含振动隔离特征的悬挂系统，以改善乘坐舒适性和车辆性能。通过吸收冲击和振动，这些系统为乘客提供更平稳的体验，并减少对车辆本身的磨损。此外，振动隔离不仅限于大规模应用。它在日常生活中也很相关。例如，家用电器如洗衣机和冰箱通常包括振动隔离组件，以最小化噪音并防止对地板和周围结构的损害。总之，振动隔离的重要性不容忽视。它是工程和设计的基本方面，确保各种系统和结构的安全性、效率和耐用性。随着技术的不断发展，用于振动隔离的方法和材料无疑会不断进步，导致更有效的解决方案来管理我们日益动态世界中的振动。理解和实施振动隔离技术对于任何参与工程、建筑或制造的人来说都是必不可少的，因为它直接影响到他们工作的质量和可靠性。