transient vibration

简明释义

过渡振动

英英释义

例句

1.Transient vibrations can cause structural fatigue over time, so regular monitoring is essential.

瞬态振动可能会导致结构疲劳，因此定期监测至关重要。

2.The technician adjusted the damping system to minimize transient vibration during operation.

技术员调整了阻尼系统，以最小化操作期间的瞬态振动。

3.Excessive transient vibration in vehicles can lead to passenger discomfort and mechanical issues.

车辆中的过度瞬态振动可能导致乘客不适和机械问题。

4.In seismic studies, the analysis of transient vibration helps predict building responses to earthquakes.

在地震研究中，瞬态振动的分析有助于预测建筑物对地震的反应。

5.The engineer measured the transient vibration during the machine startup to ensure it was operating within safe limits.

工程师在机器启动时测量了瞬态振动以确保其在安全范围内运行。

作文

In the field of engineering and physics, understanding vibrations is crucial for the design and maintenance of structures and machines. One specific type of vibration that often requires special attention is transient vibration. A transient vibration refers to a temporary and short-lived oscillation that occurs in a system when it is subjected to a sudden disturbance or change in conditions. This can happen due to various factors such as sudden impacts, rapid changes in load, or abrupt changes in environmental conditions.Transient vibrations are particularly important in the context of mechanical systems, where they can lead to significant wear and tear if not properly managed. For instance, when a car hits a pothole, the sudden impact generates a transient vibration that travels through the vehicle's suspension system. If these vibrations are excessive, they can cause damage to the suspension components, leading to costly repairs and compromised safety.Moreover, transient vibrations can also affect the performance of sensitive equipment. In electronics, for example, sudden vibrations can disrupt the functioning of delicate components, potentially leading to failures. Engineers must design systems that can withstand these transient events, ensuring that the equipment remains operational even in challenging conditions.One of the key challenges in dealing with transient vibrations is predicting their occurrence and magnitude. Engineers often use advanced modeling techniques and simulations to analyze how a structure or machine will respond to sudden disturbances. By understanding the dynamics of transient vibrations, they can implement design strategies that minimize their impact. This might include adding dampers, reinforcing structures, or using materials that can absorb vibrations more effectively.In addition to engineering applications, transient vibrations are also relevant in fields such as civil engineering and earthquake engineering. When designing buildings in seismic zones, engineers must consider how transient vibrations from earthquakes can affect the stability of structures. Buildings must be designed to withstand these sudden forces, which requires a deep understanding of how vibrations propagate through different materials.In conclusion, transient vibration is a critical concept in various fields of engineering and physics. It represents a temporary oscillation that can have significant implications for the functionality and durability of systems. By studying and mitigating the effects of transient vibrations, engineers can enhance the safety, reliability, and longevity of structures and machines. As technology continues to advance, the importance of understanding and managing transient vibrations will only grow, making it an essential area of focus for future research and development.

在工程和物理学领域，理解振动对于结构和机器的设计与维护至关重要。一种需要特别关注的振动类型是瞬态振动。瞬态振动是指系统在受到突然扰动或条件变化时发生的短暂且短暂的振荡。这可能由于各种因素引起，如突然的冲击、负载的快速变化或环境条件的突然变化。瞬态振动在机械系统中尤其重要，因为如果管理不当，它们可能导致显著的磨损。例如，当一辆车驶入一个坑洼时，突然的冲击会产生一种瞬态振动，这种振动会通过车辆的悬挂系统传播。如果这些振动过大，可能会对悬挂部件造成损坏，从而导致昂贵的维修费用和安全隐患。此外，瞬态振动也会影响敏感设备的性能。在电子设备中，例如，突然的振动可能会干扰精密组件的功能，可能导致故障。工程师必须设计能够承受这些瞬态事件的系统，以确保设备在困难条件下仍能正常运行。处理瞬态振动的关键挑战之一是预测其发生和幅度。工程师通常使用先进的建模技术和模拟来分析结构或机器如何响应突然的扰动。通过理解瞬态振动的动态特性，他们可以实施设计策略，以最小化其影响。这可能包括添加阻尼器、加固结构或使用能够更有效地吸收振动的材料。除了工程应用，瞬态振动在土木工程和地震工程等领域也具有相关性。在设计地震区的建筑时，工程师必须考虑地震引起的瞬态振动如何影响结构的稳定性。建筑物必须设计为能够承受这些突然的力量，这需要深入理解振动如何通过不同材料传播。总之，瞬态振动是各个工程和物理学领域中的一个关键概念。它代表了一种短暂的振荡，可能对系统的功能和耐用性产生重大影响。通过研究和减轻瞬态振动的影响，工程师可以提高结构和机器的安全性、可靠性和耐久性。随着技术的不断进步，理解和管理瞬态振动的重要性将只会增加，使其成为未来研究和发展的重要关注领域。