foil flaps

简明释义

襟翼

英英释义

例句

1.The pilot adjusted the foil flaps to improve the aircraft's lift during takeoff.

飞行员调整了翼面襟翼以改善飞机在起飞时的升力。

2.To enhance maneuverability, the engineer designed new foil flaps for the racing drone.

为了增强机动性，工程师为赛车无人机设计了新的翼面襟翼。

3.The boat's foil flaps helped it glide smoothly over the water surface.

船只的翼面襟翼帮助它平稳地滑过水面。

4.During the wind tunnel test, the foil flaps showed a significant increase in aerodynamic efficiency.

在风洞测试中，翼面襟翼显示出显著的空气动力学效率提升。

5.He explained how the foil flaps work to optimize flight stability.

他解释了翼面襟翼如何优化飞行稳定性。

作文

In the world of aerodynamics, every element of an aircraft plays a crucial role in its performance and efficiency. Among these elements, the foil flaps (翼面襟翼) are particularly significant. These are movable surfaces attached to the wings of an aircraft, designed to enhance lift and control during various phases of flight. Understanding how foil flaps (翼面襟翼) work can provide insights into the complexities of flight mechanics and the engineering marvels that make modern aviation possible.The primary function of foil flaps (翼面襟翼) is to increase the surface area of the wing, allowing for greater lift at lower speeds. This is especially important during takeoff and landing when an aircraft operates at slower velocities. By extending the foil flaps (翼面襟翼), pilots can achieve a higher angle of attack without stalling, thus ensuring a safer and more efficient flight experience. The deployment of these flaps alters the airflow over the wings, creating a pressure difference that generates additional lift.There are various types of foil flaps (翼面襟翼), including plain flaps, split flaps, and slotted flaps, each with its unique design and operational characteristics. Plain flaps are simple hinged surfaces that extend downward, while split flaps have a gap between the wing and the flap, allowing for better airflow management. Slotted flaps, on the other hand, feature a slot that helps maintain smooth airflow over the wing, further enhancing lift and reducing drag. Each type of foil flaps (翼面襟翼) is selected based on the specific requirements of the aircraft and its intended use.The operation of foil flaps (翼面襟翼) is not only essential for lift but also for controlling the aircraft's descent rate and approach angle. During landing, pilots adjust the flaps to slow down the aircraft and reduce its stall speed, allowing for a smoother touchdown. The ability to manipulate foil flaps (翼面襟翼) effectively can significantly impact the overall safety and efficiency of flight operations.Moreover, the advancements in technology have led to the development of automated systems that can deploy foil flaps (翼面襟翼) at optimal times during flight. These systems analyze various parameters such as airspeed, altitude, and aircraft configuration to determine the best moment for flap extension or retraction. This automation not only enhances pilot workload management but also improves flight safety by ensuring that foil flaps (翼面襟翼) are used effectively throughout the flight.In conclusion, foil flaps (翼面襟翼) are a vital component of aircraft design and operation. Their ability to increase lift, enhance control, and improve overall flight performance makes them indispensable in modern aviation. As we continue to explore the boundaries of flight technology, understanding the mechanics and applications of foil flaps (翼面襟翼) will remain essential for both engineers and pilots alike. The evolution of these critical surfaces reflects the ongoing quest for safer, more efficient, and more capable aircraft, highlighting the importance of innovation in the field of aeronautics.

在空气动力学的世界中，飞机的每一个元素都在其性能和效率中扮演着至关重要的角色。在这些元素中，foil flaps（翼面襟翼）尤其重要。这些是附加在飞机机翼上的可动表面，旨在增强在飞行各个阶段的升力和控制。理解foil flaps（翼面襟翼）的工作原理可以提供对飞行力学复杂性的洞察以及使现代航空成为可能的工程奇迹。foil flaps（翼面襟翼）的主要功能是增加机翼的表面积，从而在较低速度下允许更大的升力。这在起飞和着陆期间尤其重要，因为飞机在较慢的速度下运行。通过展开foil flaps（翼面襟翼），飞行员可以在不失速的情况下实现更高的攻角，从而确保更安全、更高效的飞行体验。这些襟翼的展开改变了机翼上的气流，产生了额外的升力所需的压力差。有多种类型的foil flaps（翼面襟翼），包括普通襟翼、分体襟翼和槽形襟翼，每种都有其独特的设计和操作特性。普通襟翼是简单的铰接表面，向下延伸，而分体襟翼在机翼和襟翼之间有一个间隙，允许更好的气流管理。槽形襟翼则具有一个槽，有助于保持机翼上的平稳气流，进一步增强升力并减少阻力。根据飞机的具体要求和预期用途选择每种类型的foil flaps（翼面襟翼）。foil flaps（翼面襟翼）的操作不仅对升力至关重要，而且对控制飞机的下降率和进近角度也很重要。在着陆过程中，飞行员调整襟翼以减缓飞机的速度并降低失速速度，从而实现更平稳的着陆。有效操控foil flaps（翼面襟翼）能够显著影响飞行操作的整体安全性和效率。此外，技术的进步导致了自动化系统的发展，这些系统可以在飞行过程中最佳时机展开foil flaps（翼面襟翼）。这些系统分析各种参数，如空速、高度和飞机配置，以确定襟翼展开或收回的最佳时机。这种自动化不仅增强了飞行员的工作负担管理，还通过确保foil flaps（翼面襟翼）在整个飞行过程中有效使用，提高了飞行安全性。总之，foil flaps（翼面襟翼）是飞机设计和操作的重要组成部分。它们增加升力、增强控制和改善整体飞行性能的能力使其在现代航空中不可或缺。随着我们继续探索飞行技术的边界，理解foil flaps（翼面襟翼）的机械原理和应用对于工程师和飞行员来说将始终至关重要。这些关键表面的演变反映了对更安全、更高效和更强大飞机的持续追求，突显了航空领域创新的重要性。