landing edge

简明释义

搭接边

英英释义

例句

1.During the approach, the landing edge 着陆边缘 of the wing must be maintained at the correct angle.

在接近过程中，机翼的landing edge 着陆边缘 必须保持在正确的角度。

2.The maintenance team inspected the landing edge 着陆边缘 of the wing for any signs of wear.

维修团队检查了机翼的landing edge 着陆边缘 是否有磨损迹象。

3.The pilot ensured the aircraft was aligned with the runway's landing edge 着陆边缘 before touchdown.

飞行员确保飞机与跑道的landing edge 着陆边缘 对齐，然后才降落。

4.Pilots are trained to recognize the importance of the landing edge 着陆边缘 during landing procedures.

飞行员接受培训，以认识到在着陆程序中landing edge 着陆边缘 的重要性。

5.The landing edge 着陆边缘 plays a crucial role in the aircraft's aerodynamic performance.

飞机的landing edge 着陆边缘 在其气动性能中起着至关重要的作用。

作文

In the world of aviation, every component of an aircraft plays a crucial role in ensuring safety and efficiency. One such important feature is the landing edge, which refers to the part of the wing that is closest to the ground during landing. Understanding the significance of the landing edge is essential for both pilots and engineers alike. This part of the wing is designed to optimize airflow and enhance lift when the aircraft is descending towards the runway. The landing edge is not just a structural element; it is intricately designed to improve the aerodynamic performance of the aircraft. During landing, the angle of attack increases, and the landing edge helps manage the airflow over the wings. This ensures that the aircraft maintains stability and control, reducing the risk of stalling. Engineers often incorporate various features into the landing edge, such as flaps and slats, which can be deployed to increase the surface area of the wing. This deployment allows the aircraft to generate more lift at lower speeds, which is particularly important during the critical phases of landing.Moreover, the design of the landing edge varies depending on the type of aircraft and its intended use. For example, commercial airliners typically have larger and more complex landing edges compared to smaller private planes. This is because larger aircraft need to manage greater forces and require more lift to safely land. The materials used in constructing the landing edge are also vital; they must withstand high levels of stress and potential wear from repeated landings.In addition to its physical attributes, the landing edge also plays a role in the training of pilots. Understanding how to effectively utilize the capabilities of the landing edge can significantly impact landing performance. Pilots are trained to recognize the optimal approach speed and angle, ensuring that they make full use of the aerodynamic benefits provided by the landing edge. Misjudging these factors can lead to dangerous situations, such as hard landings or even accidents.Furthermore, advancements in technology continue to influence the design and functionality of the landing edge. Innovations such as advanced materials, computational fluid dynamics simulations, and real-time data analytics are being utilized to refine the performance of the landing edge. These technologies allow engineers to create wings that respond better to changing flight conditions, enhancing overall safety and efficiency.In conclusion, the landing edge is a fundamental aspect of aircraft design and operation. Its role in aerodynamics, safety, and pilot training cannot be overstated. As aviation technology continues to evolve, the importance of optimizing the landing edge will remain a key focus for engineers and pilots alike. Understanding this component thoroughly can lead to improved performance and safer landings, ultimately contributing to the overall advancement of the aviation industry.

在航空界，飞机的每一个部件都在确保安全和效率方面发挥着至关重要的作用。其中一个重要的特征是着陆边缘，它指的是在着陆过程中与地面最接近的机翼部分。理解着陆边缘的重要性对于飞行员和工程师来说都是至关重要的。机翼的这一部分旨在优化气流并增强在飞机降落到跑道时的升力。着陆边缘不仅仅是一个结构元素；它经过精心设计，以改善飞机的空气动力学性能。在着陆过程中，攻角增加，而着陆边缘有助于管理机翼上的气流。这确保了飞机保持稳定和控制，减少失速的风险。工程师们通常会在着陆边缘中加入各种功能，如襟翼和缝翼，这些可以在低速时展开以增加机翼的表面积。这样的展开允许飞机在较低速度下产生更多升力，这在着陆的关键阶段尤其重要。此外，着陆边缘的设计因飞机类型和用途而异。例如，商用客机的着陆边缘通常比小型私人飞机更大且更复杂。这是因为大型飞机需要管理更大的力量，并需要更多的升力以安全着陆。构建着陆边缘所用的材料也至关重要；它们必须承受高水平的应力和重复着陆可能造成的磨损。除了其物理属性外，着陆边缘在飞行员培训中也发挥着作用。了解如何有效利用着陆边缘的能力可以显著影响着陆性能。飞行员接受培训，以识别最佳的进场速度和角度，确保他们充分利用着陆边缘提供的空气动力学优势。误判这些因素可能导致危险情况，如硬着陆甚至事故。此外，技术的进步继续影响着陆边缘的设计和功能。先进材料、计算流体动力学模拟和实时数据分析等创新正在用于优化着陆边缘的性能。这些技术使工程师能够创建对变化飞行条件反应更好的机翼，从而提高整体安全性和效率。总之，着陆边缘是飞机设计和操作的基本方面。它在空气动力学、安全性和飞行员培训中的作用不容小觑。随着航空技术的不断发展，优化着陆边缘的重要性将始终是工程师和飞行员关注的重点。彻底了解这一组件可以带来更好的性能和更安全的着陆，最终促进航空业的整体进步。