yaw-damper augmenter

简明释义

偏航阻尼器

英英释义

例句

1.Maintenance teams are trained to inspect the yaw-damper augmenter 偏航阻尼增益装置 regularly to prevent failures.

维修团队接受培训，定期检查yaw-damper augmenter 偏航阻尼增益装置以防止故障。

2.The pilot reported improved handling characteristics thanks to the effective yaw-damper augmenter 偏航阻尼增益装置 installed in the aircraft.

飞行员报告说，由于飞机上安装了有效的yaw-damper augmenter 偏航阻尼增益装置，操控特性得到了改善。

3.The integration of the yaw-damper augmenter 偏航阻尼增益装置 has significantly reduced pilot workload during turbulent conditions.

集成的yaw-damper augmenter 偏航阻尼增益装置显著减轻了飞行员在颠簸条件下的工作负担。

4.The aircraft's stability was enhanced by the new yaw-damper augmenter 偏航阻尼增益装置, which reduced oscillations during flight.

新安装的yaw-damper augmenter 偏航阻尼增益装置增强了飞机的稳定性，减少了飞行中的振荡。

5.During the test flight, the engineers monitored the performance of the yaw-damper augmenter 偏航阻尼增益装置 to ensure it was functioning correctly.

在测试飞行中，工程师们监控了yaw-damper augmenter 偏航阻尼增益装置的性能，以确保其正常工作。

作文

In the world of aviation, the stability and control of an aircraft are paramount. Engineers and designers continually seek ways to enhance these aspects to ensure safety and performance. One such innovation is the yaw-damper augmenter, a system designed to improve the yaw stability of an aircraft. The term 'yaw' refers to the rotation of an aircraft around its vertical axis, which is crucial for maintaining directional control during flight. When an aircraft experiences turbulence or sudden gusts of wind, it can start to yaw unexpectedly, leading to potential loss of control. This is where the yaw-damper augmenter comes into play.The yaw-damper augmenter works by detecting any unwanted yaw movements and automatically applying corrective inputs to the aircraft’s control surfaces. This system not only helps in stabilizing the aircraft but also enhances the overall flying experience for both pilots and passengers. By providing smoother handling characteristics, the yaw-damper augmenter minimizes the pilot's workload, allowing them to focus on other critical aspects of flying.Moreover, the integration of advanced technology into the yaw-damper augmenter has made it more efficient. Modern systems utilize sensors and computer algorithms to predict yaw dynamics and respond accordingly. This predictive capability is essential, especially during complex flight maneuvers or under adverse weather conditions. The result is a more responsive and stable aircraft that can handle a variety of flying situations with ease.In addition to improving safety, the yaw-damper augmenter also contributes to fuel efficiency. By maintaining optimal yaw stability, the aircraft can fly more efficiently, reducing drag and ultimately saving fuel. This aspect is increasingly important in today’s aviation industry, where environmental concerns and operational costs are at the forefront of discussions.The implementation of the yaw-damper augmenter is not limited to commercial aviation. Military aircraft and drones also benefit from this technology, as it enhances their maneuverability and stability during operations. In combat situations, having a reliable yaw control system can be the difference between success and failure.In conclusion, the yaw-damper augmenter is a vital component in modern aircraft design, significantly enhancing stability, control, and efficiency. As technology continues to advance, we can expect further improvements in this area, leading to safer and more efficient air travel for everyone. Understanding the function and importance of the yaw-damper augmenter helps us appreciate the complexities of aviation engineering and the ongoing efforts to improve flight safety and performance.

在航空领域，飞机的稳定性和控制性至关重要。工程师和设计师不断寻求增强这些方面的方法，以确保安全和性能。其中一项创新是偏航阻尼器增益器，这是一种旨在改善飞机偏航稳定性的系统。术语“偏航”指的是飞机围绕其垂直轴的旋转，这对保持飞行中的方向控制至关重要。当飞机经历湍流或突发的风力时，它可能会意外地偏航，从而导致潜在的失控。这就是偏航阻尼器增益器发挥作用的地方。偏航阻尼器增益器通过检测任何不必要的偏航运动并自动对飞机的控制面施加校正输入来工作。该系统不仅有助于稳定飞机，还增强了飞行员和乘客的整体飞行体验。通过提供更平稳的操控特性，偏航阻尼器增益器最小化了飞行员的工作负担，使他们能够专注于飞行的其他关键方面。此外，将先进技术集成到偏航阻尼器增益器中使其更加高效。现代系统利用传感器和计算机算法来预测偏航动态并相应地作出反应。这种预测能力在复杂的飞行机动或恶劣天气条件下尤其重要。结果是更具响应性和稳定性的飞机，可以轻松应对各种飞行情况。除了提高安全性，偏航阻尼器增益器还有助于燃油效率。通过保持最佳的偏航稳定性，飞机可以更高效地飞行，减少阻力并最终节省燃料。在当今航空业中，这一点愈发重要，因为环境问题和运营成本已成为讨论的前沿。偏航阻尼器增益器的应用不仅限于商业航空。军用飞机和无人机也受益于这一技术，因为它增强了它们在操作过程中的机动性和稳定性。在战斗情况下，拥有一个可靠的偏航控制系统可能是成功与失败之间的区别。总之，偏航阻尼器增益器是现代飞机设计中的一个重要组成部分，显著提升了稳定性、控制性和效率。随着技术的不断进步，我们可以期待在这一领域进一步改善，从而为每个人带来更安全、更高效的航空旅行。理解偏航阻尼器增益器的功能和重要性有助于我们欣赏航空工程的复杂性以及不断提高飞行安全和性能的努力。