angle of attack detector

简明释义

冲角传感器(舵

英英释义

例句

1.Modern aircraft are equipped with an angle of attack detector 攻角探测器 to enhance safety.

现代飞机配备了攻角探测器以增强安全性。

2.The angle of attack detector 攻角探测器 provides real-time data to the flight control system.

该攻角探测器为飞行控制系统提供实时数据。

3.The pilot relied on the angle of attack detector 攻角探测器 to avoid stalling during the flight.

飞行员依靠攻角探测器来避免在飞行中失速。

4.Maintenance checks often involve testing the angle of attack detector 攻角探测器 for accuracy.

维护检查通常涉及测试攻角探测器的准确性。

5.During the simulation, the angle of attack detector 攻角探测器 indicated a potential stall condition.

在模拟过程中，攻角探测器指示出潜在的失速状态。

作文

In the world of aviation, safety is paramount. One of the critical aspects of ensuring aircraft safety is understanding the aerodynamics involved in flight. A key component that helps pilots maintain control and stability during flight is the angle of attack detector. The angle of attack detector is a device that measures the angle between the wing's chord line and the oncoming airflow. This measurement is crucial because it directly affects the lift generated by the wings and, consequently, the overall performance of the aircraft.The importance of the angle of attack detector cannot be overstated. When an aircraft ascends or descends, the angle of attack changes. If the angle becomes too steep, the aircraft risks stalling, which can lead to a loss of control. Therefore, having a reliable angle of attack detector allows pilots to make informed decisions about their flight path, ensuring they do not exceed safe limits.Modern aircraft are equipped with advanced avionics that include sophisticated angle of attack detectors. These devices provide real-time data to the pilots, allowing them to monitor the angle of attack continuously. This information is vital, especially during critical phases of flight such as takeoff and landing when the aircraft is most vulnerable to stalling. For instance, if the angle of attack detector indicates that the angle is approaching the critical limit, pilots can adjust their control inputs to reduce the angle and maintain safe flight conditions.Moreover, the integration of angle of attack detectors into flight training simulators has proven beneficial for pilot training. By simulating various flight scenarios, including those that lead to stall conditions, trainee pilots can learn how to respond effectively to warnings from the angle of attack detector. This hands-on experience is invaluable, as it prepares them for real-life situations where quick decision-making is essential.In addition to enhancing pilot awareness and training, the angle of attack detector plays a significant role in aircraft design and engineering. Engineers use data from these detectors to refine wing shapes and improve overall aerodynamic efficiency. By understanding how different angles of attack affect lift and drag, they can create designs that optimize performance while minimizing the risk of stalling. This continuous improvement cycle contributes to the development of safer and more efficient aircraft.Furthermore, the angle of attack detector is not limited to commercial aviation. It is also used in military aircraft, drones, and even in some automotive applications where aerodynamics is a concern. For example, in racing cars, understanding the angle of attack can help engineers design vehicles that maintain optimal downforce at high speeds.In conclusion, the angle of attack detector is a vital instrument in the field of aviation. Its ability to provide critical information about the angle of attack enhances pilot safety, aids in training, and contributes to the advancement of aircraft design. As technology continues to evolve, the role of the angle of attack detector will likely expand, further solidifying its importance in ensuring safe and efficient flight operations. The ongoing commitment to safety in aviation will always rely on such innovative technologies that keep pilots informed and prepared for any challenges they may face in the skies.

在航空领域，安全至关重要。确保飞机安全的关键方面之一是理解飞行中涉及的空气动力学。帮助飞行员在飞行过程中保持控制和稳定性的一个关键组件是攻角探测器。攻角探测器是一种测量机翼弦线与来流之间夹角的设备。这个测量至关重要，因为它直接影响机翼产生的升力，从而影响飞机的整体性能。攻角探测器的重要性不容小觑。当飞机上升或下降时，攻角会发生变化。如果攻角过于陡峭，飞机就有失速的风险，这可能导致失去控制。因此，拥有可靠的攻角探测器可以让飞行员对飞行路径做出明智的决策，确保他们不超过安全限制。现代飞机配备了先进的航空电子设备，其中包括复杂的攻角探测器。这些设备为飞行员提供实时数据，使他们能够持续监控攻角。这个信息至关重要，尤其是在起飞和着陆等关键飞行阶段，此时飞机最容易失速。例如，如果攻角探测器指示攻角接近临界限制，飞行员可以调整控制输入以减小攻角，保持安全的飞行状态。此外，将攻角探测器整合到飞行训练模拟器中，对飞行员培训也大有裨益。通过模拟各种飞行场景，包括那些导致失速条件的场景，实习飞行员可以学习如何有效应对攻角探测器发出的警告。这种实践经验是无价的，因为它为他们准备了真实情况，在这些情况下快速决策至关重要。除了增强飞行员意识和培训外，攻角探测器在飞机设计和工程中也发挥着重要作用。工程师利用这些探测器的数据来优化机翼形状，提高整体气动效率。通过了解不同攻角如何影响升力和阻力，他们可以创造出优化性能、同时减少失速风险的设计。这种持续改进的循环有助于开发更安全、更高效的飞机。此外，攻角探测器不仅限于商业航空。它还用于军用飞机、无人机，甚至某些汽车应用中，在这些应用中，空气动力学也是一个关注点。例如，在赛车中，了解攻角可以帮助工程师设计在高速下保持最佳下压力的车辆。总之，攻角探测器是航空领域中的重要仪器。它提供的关于攻角的关键信息增强了飞行员的安全性，帮助培训，并促进了飞机设计的进步。随着技术的不断发展，攻角探测器的角色可能会进一步扩大，进一步巩固其在确保安全高效飞行操作中的重要性。航空安全的持续承诺将始终依赖于这种创新技术，让飞行员保持信息灵通，为他们在空中可能面临的任何挑战做好准备。