lateral vibration

简明释义

横振动

英英释义

例句

1.Excessive lateral vibration can lead to structural damage over time.

过度的横向振动可能会导致结构随时间而损坏。

2.The technician used a sensor to detect lateral vibration in the machinery.

技术员使用传感器检测机器中的横向振动。

3.The lateral vibration of the aircraft wings was monitored during the flight tests.

在飞行测试中，监测了飞机机翼的横向振动。

4.In automotive engineering, reducing lateral vibration is crucial for passenger comfort.

在汽车工程中，减少横向振动对乘客舒适度至关重要。

5.The engineer measured the lateral vibration in the bridge to ensure its stability.

工程师测量了桥梁的横向振动以确保其稳定性。

作文

Lateral vibrations are a common phenomenon in various engineering applications, especially in the fields of mechanical and civil engineering. These vibrations occur when an object moves side to side, rather than up and down, which can lead to significant challenges in design and safety. For instance, in the case of bridges, understanding and mitigating Lateral Vibration (侧向振动) is crucial to ensure the structure can withstand external forces such as wind or seismic activity. In this essay, we will explore the importance of Lateral Vibration (侧向振动) analysis in engineering, its implications for safety, and methods used to control it.Firstly, it is essential to recognize that Lateral Vibration (侧向振动) can be both beneficial and detrimental, depending on the context. In some cases, lateral vibrations can enhance performance, such as in certain musical instruments where sound quality is affected by the vibrations produced. However, in structural engineering, excessive Lateral Vibration (侧向振动) can lead to catastrophic failures. For example, the famous Tacoma Narrows Bridge collapse in 1940 was partially attributed to lateral vibrations caused by wind, highlighting the need for thorough analysis during the design phase.Secondly, the implications of Lateral Vibration (侧向振动) extend beyond just structural integrity. They also affect the comfort and safety of occupants in buildings and vehicles. In high-rise buildings, lateral vibrations can cause discomfort to residents, leading to complaints and potential health issues over time. Similarly, in vehicles, lateral vibrations can impact the driving experience and even contribute to mechanical failures if not properly managed. Therefore, engineers must consider Lateral Vibration (侧向振动) when designing structures and vehicles to ensure they meet safety and comfort standards.To address the challenges posed by Lateral Vibration (侧向振动), various techniques and technologies have been developed. One common method is the use of dampers, which are devices designed to absorb and dissipate vibrational energy. These can be installed in buildings, bridges, and even vehicles to mitigate the effects of lateral vibrations. Another approach is the strategic design of structures to enhance their resistance to lateral movements. This includes using materials with specific properties or altering the shape of the structure to minimize the impact of lateral forces.In conclusion, understanding and managing Lateral Vibration (侧向振动) is vital in engineering. It plays a crucial role in ensuring the safety, functionality, and comfort of various structures and vehicles. As technology advances, the methods for analyzing and controlling lateral vibrations continue to evolve, allowing engineers to create safer and more efficient designs. Ultimately, recognizing the significance of Lateral Vibration (侧向振动) will lead to better engineering practices and improved safety standards across multiple industries.

侧向振动是各种工程应用中常见的现象，特别是在机械和土木工程领域。当物体左右移动而不是上下移动时，就会发生这些振动，这可能会在设计和安全方面带来重大挑战。例如，在桥梁的情况下，理解和减轻Lateral Vibration（侧向振动）对于确保结构能够承受风或地震等外力至关重要。在这篇文章中，我们将探讨Lateral Vibration（侧向振动）分析在工程中的重要性、对安全的影响以及用于控制它的方法。首先，必须认识到Lateral Vibration（侧向振动）在不同背景下可能是有益的也可能是有害的。在某些情况下，侧向振动可以增强性能，例如在某些乐器中，产生的振动会影响音质。然而，在结构工程中，过度的Lateral Vibration（侧向振动）可能导致灾难性的故障。例如，1940年著名的塔科马海峡大桥坍塌部分归因于风引起的侧向振动，突显了在设计阶段进行彻底分析的必要性。其次，Lateral Vibration（侧向振动）的影响不仅仅限于结构完整性。它们还影响建筑物和车辆中居住者的舒适性和安全性。在高层建筑中，侧向振动可能导致居民的不适，导致投诉和长期潜在健康问题。同样，在车辆中，侧向振动可能影响驾驶体验，甚至在未得到妥善管理的情况下导致机械故障。因此，工程师在设计结构和车辆时必须考虑Lateral Vibration（侧向振动），以确保它们符合安全和舒适标准。为了解决Lateral Vibration（侧向振动）带来的挑战，已经开发出各种技术和技术。其中一种常见的方法是使用阻尼器，这是一种旨在吸收和耗散振动能量的装置。这些装置可以安装在建筑物、桥梁甚至车辆中，以减轻侧向振动的影响。另一种方法是战略性地设计结构以增强其抵抗侧向运动的能力。这包括使用具有特定性质的材料或改变结构的形状以最小化侧向力的影响。总之，理解和管理Lateral Vibration（侧向振动）在工程中至关重要。它在确保各种结构和车辆的安全性、功能性和舒适性方面发挥着关键作用。随着技术的进步，分析和控制侧向振动的方法不断发展，使工程师能够创造更安全、更高效的设计。最终，认识到Lateral Vibration（侧向振动）的重要性将导致更好的工程实践和多个行业的安全标准的提高。