stalling incidence

简明释义

失速角

英英释义

例句

1.During the workshop, we discussed the factors contributing to stalling incidence in commercial jets.

在研讨会上，我们讨论了导致商用喷气机中失速发生率的因素。

2.To improve safety, engineers are analyzing the stalling incidence in various aircraft models.

为了提高安全性，工程师们正在分析各种飞机型号中的失速发生率。

3.The increase in stalling incidence among small aircraft has raised concerns among aviation authorities.

小型飞机中失速发生率的增加引起了航空当局的关注。

4.The pilot reported a high stalling incidence during the training session, which prompted further investigation.

飞行员在训练过程中报告了高失速发生率，这引发了进一步的调查。

5.The flight simulator includes scenarios to help pilots understand stalling incidence and how to recover from it.

飞行模拟器包括帮助飞行员理解失速发生率及其恢复方法的场景。

作文

In the realm of aviation, safety is paramount. One of the critical aspects that pilots and engineers must consider is the phenomenon known as stalling incidence, which refers to the specific angle of attack at which an aircraft begins to lose lift and stall. Understanding this concept is essential for ensuring safe flight operations and preventing accidents. The stalling incidence is not a fixed value; it varies depending on several factors, including the design of the aircraft, its weight, and environmental conditions such as wind and temperature.When an aircraft reaches its stalling incidence, it experiences a sudden decrease in lift, which can lead to a loss of control if not managed properly. This is particularly crucial during takeoff and landing phases when the aircraft is operating at lower speeds and higher angles of attack. Pilots are trained to recognize the signs of an impending stall and to respond appropriately by reducing the angle of attack or increasing power to regain lift. The implications of stalling incidence extend beyond just the mechanics of flight. It also plays a significant role in aircraft design and certification. Engineers must conduct extensive testing to determine the stalling incidence of a new aircraft model, ensuring that it meets safety standards before it can be approved for commercial use. This involves simulating various flight conditions and measuring how the aircraft behaves as it approaches the stalling point. Moreover, understanding stalling incidence is vital for pilot training programs. Flight schools emphasize the importance of recognizing and responding to stalls, as these situations can be critical in real-world flying scenarios. By educating pilots about the factors that influence stalling incidence, such as weight distribution and aerodynamic changes, they can develop better judgment and skills to handle challenging situations. In addition to traditional flight training, advancements in technology have introduced simulators that allow pilots to experience stalls in a controlled environment. These simulations provide invaluable hands-on experience without the risks associated with actual flight. Pilots can practice recovering from stalls, understanding the dynamics involved, and learning how to avoid situations that could lead to stalling incidents. In conclusion, the concept of stalling incidence is integral to aviation safety and performance. It encompasses various aspects of flight dynamics, aircraft design, and pilot training. As the aviation industry continues to evolve, ongoing research and education regarding stalling incidence will remain crucial in minimizing risks and enhancing the overall safety of air travel. By fostering a comprehensive understanding of this phenomenon, we can ensure that both pilots and engineers are well-equipped to handle the challenges of modern aviation.

在航空领域，安全至关重要。飞行员和工程师必须考虑的一个关键方面是被称为失速发生率的现象，它指的是飞机开始失去升力和失速的特定攻角。理解这一概念对于确保安全飞行操作和防止事故至关重要。失速发生率不是一个固定值；它会根据多个因素而变化，包括飞机的设计、重量以及风和温度等环境条件。当飞机达到其失速发生率时，升力会突然减少，这可能导致失去控制，如果处理不当。这在起飞和着陆阶段尤为关键，因为飞机在较低速度和较高攻角下操作。飞行员接受培训以识别即将失速的迹象，并通过降低攻角或增加动力来适当地响应，以重新获得升力。失速发生率的影响不仅限于飞行力学。它在飞机设计和认证中也发挥着重要作用。工程师必须进行广泛的测试，以确定新飞机型号的失速发生率，确保其在商业使用前符合安全标准。这涉及模拟各种飞行条件并测量飞机在接近失速点时的表现。此外，理解失速发生率对飞行员培训项目至关重要。飞行学校强调识别和应对失速的重要性，因为这些情况在实际飞行场景中可能至关重要。通过教育飞行员有关影响失速发生率的因素，例如重量分布和空气动力学变化，他们可以发展出更好的判断能力和处理挑战性情况的技能。除了传统的飞行训练，技术的进步引入了模拟器，使飞行员能够在受控环境中体验失速。这些模拟提供了无风险的宝贵实践经验。飞行员可以练习从失速中恢复，理解涉及的动态，并学习如何避免可能导致失速事件的情况。总之，失速发生率的概念对于航空安全和性能至关重要。它涵盖了飞行动力学、飞机设计和飞行员培训的各个方面。随着航空业的不断发展，关于失速发生率的持续研究和教育将继续在最小化风险和增强航空旅行整体安全性方面发挥关键作用。通过促进对这一现象的全面理解，我们可以确保飞行员和工程师都能很好地应对现代航空的挑战。