feathering screw

简明释义

转叶螺旋桨

英英释义

例句

1.The mechanic explained how to properly use the feathering screw for optimal propeller performance.

机械师解释了如何正确使用羽毛螺丝以获得最佳螺旋桨性能。

2.When the engine failed, the crew quickly engaged the feathering screw to minimize drag.

当发动机失效时，机组人员迅速启动羽毛螺丝以减少阻力。

3.During the maintenance check, they found that the feathering screw was slightly loose and needed tightening.

在维护检查中，他们发现羽毛螺丝稍微松动，需要拧紧。

4.The pilot adjusted the pitch of the propeller using the feathering screw to improve fuel efficiency during flight.

飞行员通过调整羽毛螺丝的角度来提高飞行中的燃油效率。

5.Using the feathering screw, you can adjust the blade angle to reduce noise during landing.

通过使用羽毛螺丝，你可以调整叶片角度，以减少着陆时的噪音。

作文

In the world of engineering and mechanics, the term feathering screw refers to a specific type of screw that allows for adjustments in various applications. The concept of a feathering screw is particularly important in fields such as aviation and marine engineering, where precision and adaptability are crucial. Essentially, a feathering screw enables components to be fine-tuned or adjusted without the need for complete disassembly, thereby saving time and enhancing efficiency.To understand the significance of a feathering screw, we must first consider its function. Unlike standard screws that are designed for a fixed position, a feathering screw can be rotated or adjusted incrementally. This feature allows engineers to make precise modifications to the tension or alignment of parts, which is vital in applications like propeller systems in aircraft or boats. In these scenarios, the ability to fine-tune the positioning of a propeller can lead to improved performance and fuel efficiency.Moreover, the design of a feathering screw often incorporates a mechanism that ensures it remains securely in place once adjusted. This is essential because any unintended movement could lead to catastrophic failures in high-stakes environments such as aviation. Therefore, the engineering behind a feathering screw involves careful consideration of materials, thread patterns, and locking mechanisms to ensure reliability and safety.In practical terms, utilizing a feathering screw can significantly reduce maintenance time. For instance, when a pilot needs to adjust the pitch of a propeller, having a feathering screw allows for quick adjustments without requiring extensive downtime. This not only improves operational efficiency but also enhances the overall safety of the aircraft, as pilots can make necessary adjustments based on real-time feedback during flight.Furthermore, the versatility of a feathering screw extends beyond aviation. In marine applications, similar principles apply. Sailboats often use feathering screws in their rigging systems, allowing sailors to adjust sail tension quickly and efficiently. This adaptability can be the difference between a smooth sailing experience and a challenging one, especially in changing weather conditions.In conclusion, the term feathering screw embodies a critical innovation in mechanical design, providing the necessary flexibility and precision required in high-performance environments. As technology continues to evolve, the importance of such components will only increase. Engineers must continue to innovate and improve upon designs like the feathering screw to meet the ever-growing demands of modern engineering challenges. Understanding and mastering the concept of a feathering screw is essential for anyone involved in technical fields, as it represents the intersection of functionality and efficiency in design, ultimately leading to better performance across various applications.

在工程和机械的世界中，术语feathering screw指的是一种特定类型的螺钉，允许在各种应用中进行调整。feathering screw的概念在航空和海洋工程等领域尤为重要，因为这些领域对精确性和适应性至关重要。本质上，feathering screw使得组件能够在不需要完全拆卸的情况下进行微调或调整，从而节省时间并提高效率。要理解feathering screw的重要性，我们必须首先考虑其功能。与设计用于固定位置的标准螺钉不同，feathering screw可以逐步旋转或调整。这一特性使得工程师能够对部件的张力或对齐进行精确修改，这在飞机或船只的螺旋桨系统等应用中至关重要。在这些情况下，微调螺旋桨的位置可以提高性能和燃油效率。此外，feathering screw的设计通常包含确保它在调整后保持安全就位的机制。这一点至关重要，因为任何意外移动都可能导致在航空等高风险环境中发生灾难性故障。因此，feathering screw背后的工程需要仔细考虑材料、螺纹模式和锁定机制，以确保可靠性和安全性。在实际应用中，利用feathering screw可以显著减少维护时间。例如，当飞行员需要调整螺旋桨的俯仰角时，使用feathering screw可以快速进行调整，而无需长时间停机。这不仅提高了操作效率，还增强了飞机的整体安全性，因为飞行员可以根据飞行中的实时反馈进行必要的调整。此外，feathering screw的多功能性超越了航空。在海洋应用中，也适用类似的原则。帆船通常在其索具系统中使用feathering screw，使得水手能够快速有效地调整帆的张力。这种适应性可能是在变化的天气条件下，平稳航行体验与挑战之间的区别。总之，术语feathering screw体现了机械设计中的关键创新，提供了在高性能环境中所需的灵活性和精确性。随着技术的不断发展，这类组件的重要性只会增加。工程师们必须继续创新和改进像feathering screw这样的设计，以满足现代工程挑战日益增长的需求。理解和掌握feathering screw的概念对于任何参与技术领域的人来说都是至关重要的，因为它代表了设计中功能性和效率的交汇点，最终在各种应用中实现更好的性能。