air breaking

简明释义

1. 鼓风; 2. 压气; 3. 空气喷净; 4. 压气爆破;

英英释义

例句

1.The instructor emphasized the importance of air breaking in preventing overshooting the landing zone.

教练强调了减速降落在防止超越着陆区方面的重要性。

2.During the descent, the air breaking technique was used to ensure a smooth approach to the runway.

在下降过程中，使用了减速降落技术，以确保平稳接近跑道。

3.The engineer explained how air breaking helps in controlling the aircraft's descent rate.

工程师解释了减速降落如何帮助控制飞机的下降速度。

4.The pilot announced that we would begin the process of air breaking to reduce our speed before landing.

飞行员宣布我们将开始减速降落的过程，以便在着陆前降低速度。

5.By utilizing air breaking, the fighter jet managed to slow down quickly during the maneuver.

通过利用减速降落，战斗机在机动过程中成功快速减速。

作文

In the world of aviation, the term air breaking refers to a technique used primarily during the landing phase of flight. It involves the strategic manipulation of airflow around an aircraft to enhance its deceleration and control as it approaches the runway. Understanding air breaking is crucial for pilots and engineers alike, as it can significantly impact the safety and efficiency of air travel.During the landing process, an aircraft must reduce its speed dramatically to touch down safely. This is where air breaking comes into play. By altering the configuration of the aircraft's wings and control surfaces, pilots can create additional drag, which helps to slow the airplane more effectively. For example, deploying flaps and slats increases the wing's surface area, allowing for greater lift at lower speeds while simultaneously increasing drag.Moreover, air breaking is not only limited to mechanical adjustments. Pilots also utilize the aircraft’s natural aerodynamic properties to maximize drag. By pitching the nose up slightly during descent, pilots can create a higher angle of attack, which further enhances drag and slows the aircraft down. This technique requires precise timing and skill, as too much lift can lead to a stall, while too little can result in a hard landing.The importance of air breaking extends beyond just the landing phase. It also plays a vital role in the overall design and engineering of aircraft. Engineers must consider how the shape and materials of an aircraft will influence its aerodynamic performance. Innovations in wing design, such as winglets and vortex generators, are often implemented to improve the effectiveness of air breaking. These features help manage airflow around the wings, reducing drag and improving fuel efficiency during all phases of flight.In addition to technical aspects, air breaking has implications for pilot training and operational procedures. Flight schools emphasize the importance of mastering this technique, as it is integral to safe and efficient landings. Simulators are often used to provide aspiring pilots with hands-on experience in managing air breaking under various conditions, including adverse weather and emergency scenarios.Furthermore, understanding air breaking contributes to the ongoing conversation about sustainability in aviation. As the industry seeks to reduce its carbon footprint, optimizing landing techniques can lead to lower fuel consumption and emissions. By employing effective air breaking strategies, airlines can enhance their operational efficiency while minimizing environmental impact.In conclusion, air breaking is a fundamental concept in aviation that encompasses both the physical actions taken by pilots and the engineering principles behind aircraft design. Its significance cannot be overstated, as it directly influences the safety, efficiency, and sustainability of air travel. As technology advances and new methodologies emerge, the understanding and application of air breaking will continue to evolve, ensuring that aviation remains a safe and environmentally conscious mode of transportation.

在航空领域，术语air breaking指的是一种主要在飞行着陆阶段使用的技术。它涉及到对飞机周围气流的战略性操控，以增强其减速和控制能力，使其能够安全降落在跑道上。理解air breaking对飞行员和工程师来说都至关重要，因为这会显著影响航空旅行的安全性和效率。在着陆过程中，飞机必须急剧减速以安全着陆。这时，air breaking就派上用场了。通过改变飞机机翼和控制面板的配置，飞行员可以产生额外的阻力，从而更有效地减慢飞机的速度。例如，部署襟翼和缝翼可以增加机翼的表面积，使飞机在较低速度下也能获得更大的升力，同时增加阻力。此外，air breaking不仅限于机械调整。飞行员还利用飞机的自然空气动力学特性来最大化阻力。通过在下降过程中稍微抬起机头，飞行员可以创造更高的攻角，这进一步增强了阻力并减慢了飞机的速度。这种技术需要精确的时机和技巧，因为过多的升力可能导致失速，而过少则可能导致硬着陆。air breaking的重要性不仅仅局限于着陆阶段。它在飞机的整体设计和工程中也发挥着至关重要的作用。工程师们必须考虑飞机的形状和材料如何影响其空气动力学性能。机翼设计中的创新，例如翼尖小翼和涡流发生器，常常被实施以提高air breaking的有效性。这些特征有助于管理机翼周围的气流，减少阻力，提高所有飞行阶段的燃油效率。除了技术方面，理解air breaking对飞行员培训和操作程序也有影响。飞行学校强调掌握这一技术的重要性，因为它对安全和高效的着陆至关重要。模拟器通常用于为有抱负的飞行员提供在各种条件下管理air breaking的实践经验，包括恶劣天气和紧急情况。此外，理解air breaking有助于关于航空可持续性的持续讨论。随着行业寻求减少碳足迹，优化着陆技术可以降低燃料消耗和排放。通过采用有效的air breaking策略，航空公司可以提高运营效率，同时最小化对环境的影响。总之，air breaking是航空中的一个基本概念，涵盖了飞行员所采取的物理动作和飞机设计背后的工程原理。它的重要性不容小觑，因为它直接影响着航空旅行的安全性、效率和可持续性。随着技术的进步和新方法的出现，对air breaking的理解和应用将继续发展，确保航空旅行仍然是一种安全且环保的交通方式。