ship vibration

简明释义

船舶总振动

英英释义

例句

1.Engine alignment can significantly reduce ship vibration 船舶振动 issues.

发动机对齐可以显著减少船舶振动 ship vibration 问题。

2.Monitoring ship vibration 船舶振动 is crucial for maintaining vessel integrity.

监测船舶振动 ship vibration 对于维护船只完整性至关重要。

3.Excessive ship vibration 船舶振动 can lead to structural damage over time.

过度的船舶振动 ship vibration 可能会导致结构损坏。

4.The crew reported unusual ship vibration 船舶振动 during their journey.

船员在航行过程中报告了异常的船舶振动 ship vibration。

5.The engineers conducted tests to measure the ship vibration 船舶振动 levels during the sea trials.

工程师们在海试期间进行了测试，以测量船舶振动 ship vibration 的水平。

作文

The study of ship vibration is a crucial aspect of naval architecture and marine engineering. Understanding ship vibration involves analyzing the oscillations and movements that occur in a vessel while it is in motion or at rest. These vibrations can be caused by various factors, including engine operation, wave action, and the interaction between the hull and the water. Excessive ship vibration can lead to structural fatigue, reduced comfort for passengers, and even impair the ship's performance. Therefore, it is essential to monitor and mitigate these vibrations to ensure the safety and efficiency of maritime operations.One of the primary sources of ship vibration is the propulsion system. The engines and propellers generate forces that can cause the entire vessel to vibrate. Engineers use advanced technologies such as vibration sensors and analysis software to measure these vibrations. By collecting data, they can identify the frequency and amplitude of the ship vibration, which helps in diagnosing potential issues. For instance, if a particular frequency is detected, it could indicate an imbalance in the propeller or misalignment in the shaft, both of which require immediate attention.In addition to propulsion systems, environmental factors also contribute to ship vibration. When a ship sails through rough waters, the impact of waves against the hull can create significant vibrations. This is particularly noticeable in larger vessels that are more susceptible to wave-induced motions. To counteract this, ship designers often incorporate features such as stabilizers and dampers that help reduce the effects of ship vibration caused by wave action. These innovations not only enhance the comfort of passengers but also protect sensitive equipment onboard from damage due to excessive vibrations.Moreover, the materials used in ship construction play a vital role in managing ship vibration. Different materials have varying levels of stiffness and damping properties, which affect how vibrations propagate through the structure. Engineers must carefully select materials that can withstand operational stresses while minimizing unwanted vibrations. Composite materials, for example, are increasingly being used in shipbuilding because of their lightweight and vibration-damping characteristics.Another important consideration is the design of the ship's interior. The arrangement of furniture and equipment can influence how ship vibration is perceived by passengers. Designers aim to create spaces where vibrations are minimized, enhancing the overall experience aboard the vessel. Soundproofing techniques and strategic placement of heavy objects can help in achieving a quieter and more stable environment.In conclusion, understanding and managing ship vibration is essential for the safety, comfort, and performance of maritime vessels. Through careful analysis of vibration sources and the implementation of innovative design solutions, engineers can significantly reduce the impact of vibrations on ships. As technology continues to advance, the ability to monitor and control ship vibration will improve, leading to safer and more efficient maritime operations. The ongoing research in this field not only contributes to better ship design but also enhances the overall experience for those who travel by sea.

对船舶振动的研究是海洋建筑和海洋工程的重要方面。理解船舶振动涉及分析在船只运动或静止时发生的振荡和运动。这些振动可能由各种因素引起，包括发动机操作、波浪作用以及船体与水之间的相互作用。过度的船舶振动可能导致结构疲劳、乘客舒适度降低，甚至影响船只的性能。因此，监测和减轻这些振动至关重要，以确保海事操作的安全和效率。船舶振动的主要来源之一是推进系统。发动机和螺旋桨产生的力量会导致整个船只振动。工程师使用先进的技术，如振动传感器和分析软件来测量这些振动。通过收集数据，他们可以识别船舶振动的频率和幅度，这有助于诊断潜在问题。例如，如果检测到特定频率，可能表明螺旋桨不平衡或轴对中不良，这两者都需要立即关注。除了推进系统，环境因素也会影响船舶振动。当船只航行在波涛汹涌的水域时，波浪对船体的冲击可能会产生显著的振动。这在较大的船只中尤为明显，因为它们对波浪引起的运动更敏感。为了抵消这一点，船舶设计师通常会采用稳定器和阻尼器等功能，帮助减少波浪作用引起的船舶振动的影响。这些创新不仅增强了乘客的舒适度，还保护了船上敏感设备免受过度振动的损害。此外，船舶建造中使用的材料在管理船舶振动方面也发挥着重要作用。不同的材料具有不同的刚度和阻尼特性，这会影响振动在结构中的传播。工程师必须仔细选择能够承受操作应力的材料，同时最小化不必要的振动。例如，复合材料因其轻质和阻尼特性，越来越多地应用于船舶建造中。另一个重要考虑因素是船舶内部的设计。家具和设备的布置会影响乘客对船舶振动的感知。设计师旨在创造一个振动最小化的空间，从而增强船只上的整体体验。隔音技术和重物的战略性放置可以帮助实现更安静和更稳定的环境。总之，理解和管理船舶振动对海洋船舶的安全、舒适和性能至关重要。通过仔细分析振动源和实施创新设计解决方案，工程师可以显著降低振动对船只的影响。随着技术的不断进步，监测和控制船舶振动的能力将得到改善，从而导致更安全和更高效的海事操作。该领域的持续研究不仅有助于更好的船舶设计，还增强了海上旅行者的整体体验。