non-retractable fin stabilizer

简明释义

非收放型减摇鳍装置

英英释义

例句

1.During the test flight, the pilot noted that the non-retractable fin stabilizer improved handling significantly.

在试飞中，飞行员注意到非可收回的鳍稳定器显著改善了操控性。

2.The non-retractable fin stabilizer is designed to withstand harsh weather conditions without compromising performance.

该非可收回的鳍稳定器旨在承受恶劣天气条件而不影响性能。

3.The non-retractable fin stabilizer on this boat helps maintain balance in rough waters.

这艘船上的非可收回的鳍稳定器帮助在波涛汹涌的水域中保持平衡。

4.The aircraft's design features a non-retractable fin stabilizer, which provides consistent stability during flight.

该飞机的设计采用了非可收回的鳍稳定器，在飞行过程中提供了持续的稳定性。

5.Engineers chose a non-retractable fin stabilizer for the new model to enhance aerodynamic efficiency.

工程师为新型号选择了非可收回的鳍稳定器以增强气动效率。

作文

In the world of aviation and maritime engineering, stability is a crucial factor that determines the safety and performance of aircraft and vessels. One of the innovations that have significantly contributed to enhancing stability is the use of a non-retractable fin stabilizer. This component plays a pivotal role in ensuring that both airplanes and ships maintain a steady course, especially in turbulent conditions. Understanding how a non-retractable fin stabilizer works can provide insights into its importance in modern engineering. A non-retractable fin stabilizer refers to a fixed stabilizing device that is permanently attached to the body of an aircraft or vessel. Unlike retractable stabilizers that can be extended or retracted depending on the flight or sailing conditions, a non-retractable fin stabilizer remains in place at all times. This design offers several advantages, particularly in terms of reliability and performance. One of the primary benefits of a non-retractable fin stabilizer is its ability to provide continuous stability. In aviation, for instance, during flight, various factors such as wind shear, turbulence, and changes in weight distribution can affect an aircraft's balance. A non-retractable fin stabilizer helps counteract these forces by providing a consistent aerodynamic surface that assists in maintaining level flight. This is especially important during critical phases of flight, such as takeoff and landing, where stability is paramount. Similarly, in maritime applications, a non-retractable fin stabilizer enhances the stability of ships, particularly in rough seas. As vessels encounter waves and currents, the fixed fins work to minimize rolling and pitching motions, allowing for a smoother ride. This not only improves passenger comfort but also enhances the safety of cargo and equipment on board. Moreover, the design of a non-retractable fin stabilizer is often more robust than that of retractable systems. Because it does not have moving parts that can wear out or malfunction, it requires less maintenance and is less prone to failure. This reliability is crucial in both aviation and maritime contexts, where mechanical failures can lead to catastrophic consequences. In conclusion, the non-retractable fin stabilizer is a vital component in the fields of aviation and maritime engineering. Its fixed design offers continuous stability, enhances safety, and reduces maintenance needs. As technology continues to evolve, the principles behind the non-retractable fin stabilizer will likely remain integral to the development of safer and more efficient aircraft and vessels. Understanding its function not only highlights the complexities of engineering but also underscores the importance of stability in transportation systems. Through the lens of a non-retractable fin stabilizer, we can appreciate the intricate balance of forces that contribute to safe and effective travel across air and sea.

在航空和海洋工程的世界中，稳定性是决定飞机和船只安全性与性能的关键因素之一。非可收回鳍状稳定器的使用显著提高了稳定性，这一组件在确保飞机和船只在动荡条件下保持稳定航向方面发挥着重要作用。理解非可收回鳍状稳定器的工作原理有助于深入了解其在现代工程中的重要性。非可收回鳍状稳定器是指固定的稳定装置，永久附着在飞机或船只的机身上。与可伸缩稳定器不同，后者可以根据飞行或航行条件进行伸缩，非可收回鳍状稳定器始终保持在原位。这种设计提供了多项优势，特别是在可靠性和性能方面。非可收回鳍状稳定器的主要好处之一是能够提供持续的稳定性。例如，在航空领域，在飞行过程中，风切变、湍流和重量分布的变化等各种因素都会影响飞机的平衡。非可收回鳍状稳定器通过提供一致的气动表面来帮助抵消这些力量，协助保持水平飞行。这在起飞和着陆等飞行关键阶段尤为重要，因为此时的稳定性至关重要。同样，在海洋应用中，非可收回鳍状稳定器增强了船只的稳定性，尤其是在波涛汹涌的海面上。当船只遇到波浪和水流时，固定的鳍会减少横摇和纵摇运动，从而实现更平稳的航行。这不仅提高了乘客的舒适度，还增强了船上货物和设备的安全性。此外，非可收回鳍状稳定器的设计通常比可收回系统更为坚固。由于它没有可能磨损或故障的活动部件，因此需要更少的维护，并且不易出现故障。这种可靠性在航空和海洋环境中至关重要，因为机械故障可能导致灾难性的后果。总之，非可收回鳍状稳定器是航空和海洋工程领域的重要组成部分。其固定设计提供了持续的稳定性，提高了安全性，减少了维护需求。随着技术的不断发展，非可收回鳍状稳定器背后的原理在未来的发展中仍将是确保飞机和船只更安全、更高效的重要基础。理解其功能不仅突显了工程的复杂性，也强调了稳定性在运输系统中的重要性。通过非可收回鳍状稳定器这一视角，我们可以欣赏到支撑安全有效的空中和海上旅行的各种力量之间的微妙平衡。