stability of vibration

简明释义

振动稳定性

英英释义

例句

1.The engineers conducted tests to ensure the stability of vibration in the new bridge design.

工程师进行了测试，以确保新桥设计的振动稳定性。

2.The stability of vibration in the aircraft was verified during the flight tests.

在飞行测试中验证了飞机的振动稳定性。

3.Monitoring the stability of vibration is crucial for machinery to prevent breakdowns.

监测设备的振动稳定性对于防止故障至关重要。

4.A sudden change in the stability of vibration could indicate a potential failure in the system.

在振动稳定性上的突然变化可能表明系统潜在的故障。

5.To improve the stability of vibration, we added dampers to the building structure.

为了提高建筑结构的振动稳定性，我们添加了阻尼器。

作文

The concept of stability of vibration is crucial in various fields, including engineering, physics, and even music. When we talk about the stability of vibration, we are referring to the ability of a system to maintain its vibrational characteristics over time without experiencing excessive oscillations or deviations from its intended state. This stability is essential for ensuring that structures, machinery, and even musical instruments perform reliably and efficiently.In engineering, the stability of vibration is particularly important in the design of buildings and bridges. Engineers must consider how external forces, such as wind or earthquakes, can affect the vibrational characteristics of a structure. If a building is not designed with proper damping systems or materials, it may experience resonance, leading to catastrophic failures. Therefore, understanding the stability of vibration helps engineers create safer and more resilient structures.Similarly, in mechanical systems, the stability of vibration plays a vital role in the performance and longevity of machines. For example, rotating machinery like turbines or motors can produce vibrations that, if not controlled, can lead to wear and tear, reducing their operational lifespan. Engineers often employ vibration analysis techniques to monitor and enhance the stability of vibration in these systems, ensuring they operate smoothly and efficiently.In the realm of music, the stability of vibration is equally significant. Musical instruments rely on precise vibrational frequencies to produce sound. For instance, a guitar string must maintain its tension and vibrational pattern to create the correct pitch. If the string experiences instability in its vibration, the resulting sound will be out of tune. Musicians and instrument makers pay close attention to the materials and construction techniques used to ensure the stability of vibration in their instruments, allowing for beautiful and harmonious music.Moreover, the stability of vibration is also studied in the context of environmental science. For example, researchers examine how vibrations from human activities, such as construction or transportation, can impact the natural world. Understanding the stability of vibration in these contexts can help mitigate adverse effects on wildlife and ecosystems, promoting a more sustainable interaction between humans and nature.In conclusion, the stability of vibration is a multifaceted concept that permeates various disciplines. From engineering to music and environmental science, the ability to control and maintain stable vibrations is critical for safety, performance, and sustainability. As we continue to advance in technology and our understanding of these principles, the importance of the stability of vibration will only grow, influencing how we design, create, and interact with the world around us.

“振动的稳定性”这一概念在工程、物理甚至音乐等多个领域都至关重要。当我们谈论“振动的稳定性”时，我们指的是一个系统在不经历过度振荡或偏离其预期状态的情况下，保持其振动特性的能力。这种稳定性对于确保结构、机械甚至乐器的可靠和高效性能至关重要。在工程学中，“振动的稳定性”在建筑和桥梁的设计中尤为重要。工程师必须考虑外部力量（如风或地震）如何影响结构的振动特性。如果建筑没有采用适当的阻尼系统或材料，它可能会经历共振，从而导致灾难性故障。因此，理解“振动的稳定性”有助于工程师创造更安全、更具韧性的结构。同样，在机械系统中，“振动的稳定性”对机器的性能和使用寿命也起着至关重要的作用。例如，像涡轮机或电动机这样的旋转机械可能会产生振动，如果不加以控制，可能会导致磨损，缩短其操作寿命。工程师通常采用振动分析技术来监测和增强这些系统中的“振动的稳定性”，确保它们平稳高效地运行。在音乐领域，“振动的稳定性”同样重要。乐器依赖精确的振动频率来产生声音。例如，吉他弦必须保持其张力和振动模式，以产生正确的音高。如果弦的振动不稳定，所产生的声音将会走音。音乐家和乐器制造者非常关注所用材料和构造技术，以确保他们的乐器的“振动的稳定性”，从而演奏出美妙和谐的音乐。此外，“振动的稳定性”在环境科学的研究中也得到了关注。例如，研究人员考察人类活动（如建筑或交通）产生的振动如何影响自然界。理解“振动的稳定性”在这些背景下可以帮助减轻对野生动物和生态系统的不利影响，促进人类与自然之间更可持续的互动。总之，“振动的稳定性”是一个多方面的概念，渗透到各个学科。从工程到音乐，再到环境科学，控制和维持稳定振动的能力对于安全、性能和可持续性至关重要。随着我们在技术和对这些原则的理解上不断进步，“振动的稳定性”的重要性只会增加，影响我们如何设计、创造和与周围世界互动。