landing edge

简明释义

纵向接头

英英释义

例句

1.The design of the aircraft's wings affects the performance at the landing edge 着陆边缘.

飞机机翼的设计会影响在landing edge 着陆边缘的性能。

2.The pilot carefully monitored the landing edge 着陆边缘 of the runway during the approach.

飞行员在接近时仔细监控跑道的landing edge 着陆边缘。

3.During the training session, the instructor emphasized the importance of aligning with the landing edge 着陆边缘.

在培训课程中，教练强调了与landing edge 着陆边缘对齐的重要性。

4.To ensure safety, the maintenance crew inspected the landing edge 着陆边缘 for any signs of wear.

为了确保安全，维护人员检查了landing edge 着陆边缘是否有磨损迹象。

5.The landing edge 着陆边缘 is crucial for a smooth touchdown.

对于平稳着陆来说，landing edge 着陆边缘至关重要。

作文

In the world of aviation, every component of an aircraft plays a crucial role in ensuring safety and efficiency. One of the most critical parts of an aircraft's wing is the landing edge, which is the part of the wing that comes into contact with the air during landing. Understanding the function and design of the landing edge can provide insights into how aircraft are engineered for optimal performance. The landing edge is designed to enhance lift and control during the landing phase, making it essential for pilots to have a precise understanding of this feature.When an aircraft approaches for landing, it must reduce its speed while maintaining stability. The landing edge plays a significant role in this process by allowing the wing to generate sufficient lift at lower speeds. This is achieved through various aerodynamic principles, including the shape and angle of the landing edge. A well-designed landing edge can help prevent stalling, which occurs when the wing loses lift due to insufficient airflow.Moreover, the landing edge is often equipped with additional features such as flaps and slats. These devices extend the surface area of the wing, further increasing lift during landing. Flaps, for instance, can be deployed to change the wing's curvature, allowing the aircraft to descend at a steeper angle without increasing speed. This capability is particularly beneficial for landing on shorter runways or in challenging weather conditions.The materials used to construct the landing edge are also vital to its performance. Manufacturers often use lightweight yet durable materials like aluminum or composite materials to ensure that the landing edge can withstand the forces experienced during landing. The structural integrity of the landing edge is paramount, as any failure could lead to catastrophic consequences.In addition to its functional aspects, the landing edge also contributes to the overall aesthetics of the aircraft. Designers take great care to ensure that the landing edge complements the sleek lines of the wing, creating a visually appealing silhouette. This balance between functionality and aesthetics is a hallmark of modern aircraft design.Understanding the landing edge is not only important for engineers and designers but also for pilots. Knowledge of how the landing edge functions can help pilots make informed decisions during the landing process, ensuring a safe and smooth touchdown. Training programs for pilots often include simulations that emphasize the importance of the landing edge in various landing scenarios.In conclusion, the landing edge is a vital component of an aircraft's wing that significantly impacts its performance during landing. From enhancing lift to providing structural integrity, the landing edge is designed with precision to ensure the safety and efficiency of flights. As technology continues to advance, the design and functionality of the landing edge will likely evolve, further improving the standards of aviation safety and performance. Understanding the intricacies of the landing edge allows us to appreciate the engineering marvels that enable us to soar through the skies with confidence.

在航空领域，飞机的每个部件都在确保安全和效率方面发挥着至关重要的作用。飞机机翼中最关键的部分之一是着陆边缘，它是机翼在着陆时与空气接触的部分。理解着陆边缘的功能和设计可以提供关于飞机如何优化性能的见解。着陆边缘的设计旨在增强着陆阶段的升力和控制，使飞行员能够精确理解这一特征变得至关重要。当飞机接近着陆时，它必须在保持稳定的同时降低速度。着陆边缘在这个过程中发挥着重要作用，因为它允许机翼在较低速度下产生足够的升力。这是通过各种空气动力学原理实现的，包括着陆边缘的形状和角度。一个设计良好的着陆边缘可以帮助防止失速，即机翼因气流不足而失去升力。此外，着陆边缘通常配备有附加功能，如襟翼和缝翼。这些装置扩大了机翼的表面积，进一步增加了着陆时的升力。例如，襟翼可以展开以改变机翼的曲率，使飞机能够以更陡的角度下降而不增加速度。这种能力对于在较短的跑道或恶劣天气条件下着陆特别有益。用于构造着陆边缘的材料对其性能也至关重要。制造商通常使用轻便但耐用的材料，如铝或复合材料，以确保着陆边缘能够承受着陆时所经历的力量。着陆边缘的结构完整性至关重要，因为任何故障都可能导致灾难性后果。除了功能方面，着陆边缘还为飞机的整体美感做出了贡献。设计师非常注重确保着陆边缘与机翼的流线型线条相辅相成，创造出视觉上令人愉悦的轮廓。这种功能与美学之间的平衡是现代飞机设计的标志。理解着陆边缘不仅对工程师和设计师重要，对飞行员来说也同样重要。了解着陆边缘的功能可以帮助飞行员在着陆过程中做出明智的决策，确保安全和平稳的着陆。飞行员的培训项目通常包括强调在各种着陆场景中着陆边缘重要性的模拟。总之，着陆边缘是飞机机翼的重要组成部分，对其着陆性能有显著影响。从增强升力到提供结构完整性，着陆边缘经过精确设计，以确保航班的安全和效率。随着技术的不断进步，着陆边缘的设计和功能可能会不断演变，进一步提高航空安全和性能的标准。理解着陆边缘的复杂性使我们能够欣赏使我们能够自信地翱翔于天空的工程奇迹。