vibratory load
简明释义
振动负载
英英释义
例句
1.The vibratory load 振动载荷 from the trains can lead to structural fatigue over time.
来自火车的振动载荷可能会导致结构疲劳。
2.Engineers must measure the vibratory load 振动载荷 to ensure the stability of the bridge.
工程师必须测量振动载荷以确保桥梁的稳定性。
3.Heavy machinery can create significant vibratory load 振动载荷 that affects nearby structures.
重型机械可能会产生显著的振动载荷,影响附近的建筑物。
4.During the seismic test, the vibratory load 振动载荷 was monitored closely.
在地震测试期间,振动载荷被密切监测。
5.The construction team had to account for the vibratory load 振动载荷 when designing the foundation.
施工团队在设计基础时必须考虑到振动载荷。
作文
Understanding the concept of vibratory load is essential in various fields of engineering and construction. A vibratory load refers to the dynamic forces that are exerted on structures or components when they are subjected to vibrations. These vibrations can arise from numerous sources, including machinery operation, seismic activities, or even wind. Engineers must consider these loads during the design phase to ensure the safety and longevity of structures.When a structure experiences a vibratory load, it can lead to several effects, such as resonance, fatigue, and failure. Resonance occurs when the frequency of the applied vibrations matches the natural frequency of the structure, potentially causing excessive oscillations. This phenomenon can be particularly dangerous, as it may lead to catastrophic failures in buildings, bridges, and other critical infrastructure.Moreover, vibratory loads can cause material fatigue over time. Repeated exposure to vibratory forces can weaken materials, making them more susceptible to cracking or breaking. Engineers often use materials with higher fatigue resistance in designs where vibratory loads are anticipated, thereby enhancing the durability and reliability of the structure.In the context of construction, understanding how to manage vibratory loads is crucial for ensuring the stability of heavy equipment and machinery. For example, pile driving operations generate significant vibratory loads that can affect nearby structures. To mitigate these effects, engineers may employ vibration monitoring systems and implement specific construction techniques to minimize the impact of vibrations on adjacent properties.Additionally, the study of vibratory loads is vital in the aerospace industry, where aircraft experience various vibrational forces during flight. Engineers analyze these loads to optimize the design of aircraft components, ensuring they can withstand the stresses of operation while maintaining safety and performance.In conclusion, the concept of vibratory load is integral to many engineering disciplines. Understanding its implications allows engineers to design safer and more resilient structures, ultimately protecting lives and investments. As technology advances, the tools and methods used to analyze and manage vibratory loads will continue to evolve, leading to even greater innovations in engineering practices. The importance of incorporating considerations for vibratory loads in design cannot be overstated, as it plays a critical role in the overall integrity and functionality of engineered systems.
理解振动载荷的概念在各个工程和建筑领域中至关重要。振动载荷指的是当结构或组件受到振动时施加的动态力。这些振动可以来自许多来源,包括机械操作、地震活动,甚至是风。工程师在设计阶段必须考虑这些载荷,以确保结构的安全性和耐久性。当结构经历振动载荷时,可能会导致多个影响,例如共振、疲劳和失效。当施加的振动频率与结构的固有频率相匹配时,就会发生共振,可能导致过度的振荡。这种现象尤其危险,因为它可能导致建筑物、桥梁和其他关键基础设施的灾难性失败。此外,振动载荷会随着时间的推移导致材料疲劳。反复暴露于振动力下会削弱材料,使其更容易出现裂纹或断裂。工程师在设计中通常使用具有更高疲劳抗力的材料,以增强预期会遭受振动载荷的结构的耐用性和可靠性。在建筑的背景下,理解如何管理振动载荷对于确保重型设备和机械的稳定性至关重要。例如,打桩作业会产生大量的振动载荷,可能会影响附近的结构。为了减轻这些影响,工程师可能会采用振动监测系统,并实施特定的施工技术,以最小化振动对邻近财产的影响。此外,振动载荷的研究在航空航天工业中也至关重要,飞机在飞行过程中会经历各种振动力。工程师分析这些载荷以优化飞机组件的设计,确保它们能够承受操作过程中的应力,同时保持安全性和性能。总之,振动载荷的概念在许多工程学科中都是不可或缺的。理解其影响使工程师能够设计出更安全、更具有韧性的结构,从而保护生命和投资。随着技术的发展,用于分析和管理振动载荷的工具和方法将继续演变,推动工程实践的进一步创新。将振动载荷的考虑纳入设计的重要性不容低估,因为它在工程系统的整体完整性和功能中发挥着关键作用。
