after vibration

简明释义

1. 后振动; 2. 余振动; 3. 余震动;

英英释义

例句

1.The machine requires recalibration after vibration to ensure accuracy.

机器在震动后需要重新校准以确保准确性。

2.Please check the alignment of the parts after vibration occurs.

请在发生震动后检查零件的对齐情况。

3.The structure showed signs of wear after vibration testing.

结构在进行震动后测试后显示出磨损迹象。

4.We noticed a decrease in performance after vibration tests were conducted.

我们注意到在进行震动后测试后性能下降。

5.The data logger recorded significant changes after vibration was applied.

数据记录仪在施加震动后记录了显著变化。

作文

In the world of science and engineering, understanding the effects of vibrations is crucial. Vibrations can occur in various systems, from bridges to buildings, and even in machinery. One particular aspect that engineers must consider is what happens after vibration (振动之后). This phase is essential for assessing the durability and stability of structures. When a structure experiences vibrations, it is subjected to dynamic forces that can lead to fatigue over time. For instance, when a vehicle passes over a bridge, it creates a series of vibrations that travel through the structure. Engineers must analyze the response of the bridge after vibration (振动之后) to ensure that it can withstand these forces without suffering damage. This analysis involves studying how the material properties change and how the structure settles back into equilibrium.Moreover, after vibration (振动之后), there are often residual stresses that remain in the material. These stresses can affect the overall performance of the structure. Understanding how materials behave after vibration (振动之后) is vital for predicting their lifespan and safety. For example, if a building experiences an earthquake, the vibrations may cause shifts in its foundation. Engineers must evaluate the structural integrity after vibration (振动之后) to determine if any repairs or reinforcements are necessary.In addition to structural engineering, the concept of after vibration (振动之后) is also significant in the field of electronics. Many electronic devices, such as smartphones and computers, contain components that are sensitive to vibrations. For instance, hard drives can be adversely affected by vibrations, leading to data loss. Therefore, manufacturers conduct tests to see how these devices perform after vibration (振动之后) to ensure reliability and functionality. This testing helps in designing products that can withstand everyday use without compromising performance.Furthermore, after vibration (振动之后) assessments are also critical in the automotive industry. Cars experience numerous vibrations while driving on different terrains. Engineers study how vehicles respond after vibration (振动之后) to enhance comfort and safety for passengers. By analyzing the vehicle’s suspension system and its components, they can improve designs to minimize the impact of vibrations on the driver and passengers.In conclusion, the term after vibration (振动之后) encapsulates a crucial phase in both engineering and technology. Whether it is in the context of structural analysis, electronic device reliability, or automotive design, understanding what occurs after vibration (振动之后) is essential for ensuring safety, durability, and performance. As our world continues to advance, the importance of studying the aftermath of vibrations will only grow, leading to better designs and innovations across various fields.

在科学和工程的世界中，理解振动的影响至关重要。振动可以发生在各种系统中，从桥梁到建筑物，甚至是机械设备。工程师必须考虑的一个特定方面是发生在振动之后（after vibration）的情况。这个阶段对于评估结构的耐久性和稳定性至关重要。当结构经历振动时，它会受到动态力的作用，这可能导致随着时间的推移而疲劳。例如，当车辆经过桥梁时，会产生一系列传播通过结构的振动。工程师必须分析桥梁在振动之后（after vibration）的反应，以确保它能够承受这些力量而不会受损。这种分析涉及研究材料特性如何变化，以及结构如何恢复到平衡状态。此外，在振动之后（after vibration），材料中通常会残留应力。这些应力可能会影响结构的整体性能。理解材料在振动之后（after vibration）的行为对于预测其使用寿命和安全性至关重要。例如，如果一座建筑经历了地震，振动可能会导致基础的位移。工程师必须评估在振动之后（after vibration）的结构完整性，以确定是否需要进行任何修复或加固。除了结构工程，振动之后（after vibration）的概念在电子领域也非常重要。许多电子设备，如智能手机和计算机，包含对振动敏感的组件。例如，硬盘驱动器可能会受到振动的不良影响，导致数据丢失。因此，制造商进行测试，以查看这些设备在振动之后（after vibration）的表现，以确保其可靠性和功能性。这种测试有助于设计能够承受日常使用而不影响性能的产品。此外，在汽车工业中，振动之后（after vibration）评估也是至关重要的。汽车在不同地形上行驶时会经历无数的振动。工程师研究车辆在振动之后（after vibration）的反应，以提高乘客的舒适度和安全性。通过分析车辆的悬挂系统及其组件，他们可以改善设计，以最小化振动对驾驶员和乘客的影响。总之，术语振动之后（after vibration）概括了工程和技术中一个至关重要的阶段。无论是在结构分析、电子设备可靠性还是汽车设计的背景下，理解发生在振动之后（after vibration）的情况对于确保安全、耐用性和性能至关重要。随着我们世界的不断发展，研究振动后果的重要性只会增加，从而推动各个领域更好的设计和创新。