landing edge

简明释义

搭接内边

英英释义

例句

1.The design of the wing includes a special feature at the landing edge to improve aerodynamics.

机翼的设计在着陆边缘处包含一个特殊功能，以改善气动性能。

2.The maintenance crew inspected the landing edge for any signs of wear or damage.

维修人员检查了着陆边缘是否有磨损或损坏的迹象。

3.The landing edge of the flap is critical for increasing lift during landing.

着陆边缘的襟翼对于在着陆时增加升力至关重要。

4.The pilot focused on the landing edge of the runway to ensure a smooth touchdown.

飞行员专注于跑道的着陆边缘以确保平稳着陆。

5.During the approach, the aircraft's landing edge was aligned with the centerline of the runway.

在接近时，飞机的着陆边缘与跑道的中心线对齐。

作文

The term landing edge refers to a critical component in the design and functionality of aircraft wings. In aviation, the landing edge is the part of the wing that is closest to the fuselage during landing and takeoff. It plays a significant role in the aerodynamics of an aircraft, influencing how it interacts with airflow during these crucial phases of flight. Understanding the landing edge is essential for both pilots and engineers, as it can affect the performance and safety of the aircraft.When an aircraft approaches for landing, the landing edge becomes a focal point in ensuring a smooth descent. The shape and configuration of the landing edge can determine how efficiently the wing generates lift at lower speeds. For instance, many modern aircraft are designed with slotted flaps that extend from the landing edge to increase lift and reduce stall speed. This aerodynamic enhancement allows the aircraft to land safely on shorter runways and in various weather conditions.Moreover, the landing edge is crucial for maintaining control during the landing phase. Pilots must be aware of how the landing edge interacts with the air, especially when making adjustments to the aircraft's pitch and speed. Any changes in the position or configuration of the landing edge can lead to significant variations in lift and drag, which could impact the aircraft's stability and safety during landing.In addition to its aerodynamic functions, the landing edge also has structural implications. Engineers must ensure that this part of the wing is robust enough to withstand the forces experienced during landing. The materials used in constructing the landing edge must be lightweight yet strong, allowing for optimal performance without compromising safety.Furthermore, the design of the landing edge is influenced by technological advancements. Innovations such as winglets and advanced flap systems have transformed how the landing edge operates. These enhancements not only improve fuel efficiency but also contribute to noise reduction during takeoff and landing, benefiting both passengers and communities near airports.In conclusion, the landing edge is more than just a physical part of an aircraft wing; it is a vital element that affects aerodynamics, control, and structural integrity. A thorough understanding of the landing edge is essential for those involved in aviation, from engineers designing new aircraft to pilots operating them safely. As aviation technology continues to evolve, the importance of optimizing the landing edge will remain a key focus for improving flight performance and safety.This understanding of the landing edge is not only applicable to large commercial aircraft but also to smaller general aviation planes and even drones. As we advance into an era of increasingly complex aerial vehicles, the principles governing the landing edge will undoubtedly play a pivotal role in shaping the future of flight.

术语landing edge指的是飞机机翼设计和功能中的一个关键组成部分。在航空领域，landing edge是指在着陆和起飞过程中最靠近机身的机翼部分。它在飞机的空气动力学中发挥着重要作用，影响着飞机在这些关键飞行阶段与气流的相互作用。理解landing edge对飞行员和工程师而言至关重要，因为它会影响飞机的性能和安全性。当飞机接近着陆时，landing edge成为确保平稳下降的重点。landing edge的形状和构造可以决定机翼在低速时产生升力的效率。例如，许多现代飞机设计有从landing edge延伸出来的槽形襟翼，以增加升力并降低失速速度。这种空气动力学增强使得飞机能够安全地在较短的跑道上着陆，并适应各种天气条件。此外，landing edge对于在着陆阶段保持控制至关重要。飞行员必须了解landing edge与空气的相互作用，尤其是在调整飞机的俯仰和速度时。landing edge的位置或构型的任何变化都可能导致升力和阻力的显著变化，从而影响飞机在着陆过程中的稳定性和安全性。除了其空气动力学功能外，landing edge还有结构上的含义。工程师必须确保机翼的这一部分足够坚固，以承受着陆过程中所经历的力量。用于构建landing edge的材料必须轻量且坚固，以实现最佳性能而不妨碍安全。此外，landing edge的设计受到技术进步的影响。诸如翼尖小翼和先进襟翼系统等创新改变了landing edge的工作方式。这些增强不仅提高了燃油效率，还有助于减少起飞和着陆时的噪音，使乘客和机场附近的社区受益。总之，landing edge不仅仅是飞机机翼的一个物理部分；它是一个重要的元素，影响着空气动力学、控制和结构完整性。深入理解landing edge对参与航空业的人士至关重要，从设计新飞机的工程师到安全操作飞机的飞行员。随着航空技术的不断发展，优化landing edge的重要性将始终是提升飞行性能和安全性的关键关注点。这种对landing edge的理解不仅适用于大型商用飞机，也同样适用于较小的一般航空飞机甚至无人机。随着我们进入一个日益复杂的空中交通工具时代，支配landing edge的原理无疑将在塑造未来飞行方面发挥关键作用。