hull vibration

简明释义

壳体振动

英英释义

例句

1.The engineers conducted tests to measure the hull vibration 船体振动 during the ship's sea trials.

工程师们进行了测试，以测量船舶在海试期间的船体振动。

2.Monitoring hull vibration 船体振动 is crucial for maintaining the integrity of the vessel.

监测船体振动对保持船只的完整性至关重要。

3.Excessive hull vibration 船体振动 can lead to structural damage over time.

过度的船体振动可能会导致结构性损坏。

4.The captain reported unusual hull vibration 船体振动 while navigating through rough waters.

船长在通过波涛汹涌的水域时报告了异常的船体振动。

5.Technicians installed sensors to detect hull vibration 船体振动 in real-time.

技术人员安装了传感器以实时检测船体振动。

作文

The study of marine engineering encompasses various critical aspects, one of which is the phenomenon of hull vibration. This term refers to the oscillations or vibrations that occur in the hull of a ship or boat when it is in motion. Understanding hull vibration is essential for ensuring the safety, performance, and longevity of marine vessels. In this essay, we will explore the causes, effects, and mitigation strategies related to hull vibration, highlighting its significance in naval architecture and marine operations.Firstly, the causes of hull vibration can be attributed to several factors. One primary source is the interaction between the vessel and water. As a ship moves through water, it displaces it, creating waves and currents that can lead to vibrations in the hull. Additionally, machinery onboard, such as engines and propellers, can generate vibrations that travel through the structure of the vessel. These mechanical vibrations can be exacerbated by design flaws or improper installation of equipment, leading to increased levels of hull vibration.The effects of hull vibration can be quite significant. Excessive vibrations can lead to structural fatigue over time, causing wear and tear on the hull and other components of the ship. This can result in costly repairs and maintenance, not to mention potential safety hazards if the integrity of the vessel is compromised. Furthermore, hull vibration can affect the comfort of passengers and crew onboard, as excessive movement can lead to seasickness and discomfort during voyages. Therefore, addressing hull vibration is crucial not only for the vessel's performance but also for the well-being of those on board.To mitigate the issues related to hull vibration, engineers and designers employ various strategies. One common approach is the use of vibration dampening materials and techniques during the construction of the vessel. By incorporating materials that absorb vibrations, the impact of hull vibration can be significantly reduced. Additionally, regular maintenance and inspections are vital to identify any sources of excessive vibration early on. Implementing advanced monitoring systems can help detect abnormal vibration patterns, allowing for timely interventions before they escalate into more serious problems.In conclusion, hull vibration is a critical aspect of marine engineering that requires careful consideration. Its causes range from hydrodynamic interactions to mechanical sources, and its effects can have serious implications for the safety and performance of vessels. By understanding and addressing hull vibration, engineers can enhance the durability and reliability of marine vessels, ensuring safer and more comfortable journeys for all who travel upon them. As technology advances, the methods for analyzing and mitigating hull vibration continue to improve, paving the way for more efficient and resilient maritime operations.

海洋工程的研究涵盖了多个关键方面，其中一个现象就是船体振动。这个术语指的是当船只或小艇在运动时，船体发生的振荡或振动。理解船体振动对于确保海洋船舶的安全、性能和耐久性至关重要。在这篇文章中，我们将探讨与船体振动相关的原因、影响和缓解策略，强调其在船舶设计和海洋操作中的重要性。首先，船体振动的原因可以归因于几个因素。一个主要来源是船只与水之间的相互作用。当船只在水中移动时，它会排开水，产生波浪和水流，从而导致船体的振动。此外，船上机械设备（如发动机和螺旋桨）也会产生振动，这些振动会通过船体结构传播。这些机械振动可能因设计缺陷或设备安装不当而加剧，从而导致船体振动水平的增加。船体振动的影响可能相当显著。过度的振动可能导致结构疲劳，随着时间的推移，造成船体及其他组件的磨损。这可能导致昂贵的维修和保养，更不用说如果船只的完整性受到损害时可能带来的安全隐患。此外，船体振动还会影响船上乘客和船员的舒适度，因为过度的运动可能导致晕船和在航行期间的不适。因此，解决船体振动问题对船只的性能以及船上人员的福祉至关重要。为了减轻与船体振动相关的问题，工程师和设计师采用多种策略。一种常见的方法是在船舶建造过程中使用减振材料和技术。通过采用能够吸收振动的材料，可以显著减少船体振动的影响。此外，定期维护和检查对于尽早识别任何过度振动的来源至关重要。实施先进的监测系统可以帮助检测异常的振动模式，从而在问题升级为更严重的情况之前进行及时干预。总之，船体振动是海洋工程中一个至关重要的方面，需要认真考虑。其原因从水动力相互作用到机械源不等，其影响可能对船只的安全性和性能产生严重影响。通过理解和解决船体振动问题，工程师可以增强海洋船舶的耐用性和可靠性，确保所有乘坐者的安全和舒适。随着技术的进步，分析和减轻船体振动的方法不断改善，为更高效和更具韧性的海事操作铺平了道路。