steering nozzle

简明释义

可转导管

英英释义

例句

1.During the test flight, engineers monitored the steering nozzle for any signs of malfunction.

在测试飞行过程中，工程师监控了舵喷嘴是否有故障迹象。

2.In modern jet engines, the steering nozzle plays a crucial role in directing thrust for better control.

在现代喷气发动机中，舵喷嘴在引导推力以获得更好的控制方面起着关键作用。

3.The new model features an advanced steering nozzle that allows for smoother navigation.

新型号配备了先进的舵喷嘴，允许更平稳的导航。

4.The pilot adjusted the steering nozzle to improve the aircraft's maneuverability during the tight turn.

飞行员调整了舵喷嘴以改善飞机在急转弯时的机动性。

5.The steering nozzle was designed to enhance the performance of the underwater drone.

舵喷嘴的设计旨在增强水下无人机的性能。

作文

In the world of engineering and aerodynamics, the term steering nozzle refers to a critical component that plays a significant role in the control and maneuverability of various vehicles, especially aircraft and rockets. The steering nozzle is designed to direct the flow of exhaust gases in a specific direction, allowing pilots and operators to change the trajectory of their vehicles with precision. This mechanism is not only essential for maintaining stability during flight but also for executing complex maneuvers that are vital in both commercial and military aviation. The functionality of the steering nozzle can be compared to that of a rudder in a ship. Just as a rudder directs the flow of water to steer the vessel, the steering nozzle directs the thrust produced by the engines to control the movement of the aircraft or spacecraft. By adjusting the angle of the steering nozzle, pilots can achieve roll, pitch, and yaw movements, which are fundamental for navigating through the skies. One of the most fascinating applications of the steering nozzle is found in modern fighter jets. These aircraft often utilize thrust vectoring technology, which allows for enhanced agility and performance in combat situations. The steering nozzle in these jets can pivot in multiple directions, enabling the pilot to perform sharp turns and rapid ascents or descents. This capability gives fighter jets a significant advantage over traditional aircraft, making them more effective in dogfights and evasive maneuvers. In addition to military applications, the steering nozzle is also crucial in the aerospace industry for space exploration. Rockets utilize steering nozzles to adjust their flight path during launch and re-entry phases. For instance, when a rocket is ascending through the atmosphere, the steering nozzle helps maintain a stable trajectory, ensuring that it reaches its intended orbit. Similarly, during re-entry, the steering nozzle assists in controlling the descent angle and speed, which is vital for a safe landing. Moreover, the design and engineering of steering nozzles have evolved significantly over the years. Engineers constantly strive to improve their efficiency and responsiveness, leading to advancements in materials and technologies used in their construction. For example, modern steering nozzles may incorporate lightweight composite materials that withstand extreme temperatures and pressures while providing optimal performance. In conclusion, the steering nozzle is an indispensable component in the fields of aviation and aerospace, enabling precise control and maneuverability of vehicles. Its ability to direct exhaust flow allows for a range of movements that are essential for both military and civilian aircraft. As technology continues to advance, we can expect further innovations in steering nozzle design, leading to even greater capabilities in flight control and performance. Understanding the importance of the steering nozzle not only highlights its role in engineering but also emphasizes the intricate relationship between design and functionality in the pursuit of safer and more efficient air travel.

在工程和空气动力学的世界中，术语steering nozzle指的是一个关键组件，在各种车辆的控制和机动性中发挥着重要作用，特别是飞机和火箭。steering nozzle旨在以特定方向引导废气流，从而允许飞行员和操作员精确改变其车辆的轨迹。这个机制不仅对维持飞行稳定至关重要，还对执行复杂机动至关重要，这在商业和军事航空中都是必不可少的。steering nozzle的功能可以与船舶中的舵进行比较。就像舵引导水流以操纵船只一样，steering nozzle引导发动机产生的推力来控制飞机或航天器的运动。通过调整steering nozzle的角度，飞行员可以实现滚转、俯仰和偏航运动，这些都是在空中导航的基本要素。steering nozzle最令人着迷的应用之一是在现代战斗机中。这些飞机通常利用推力矢量技术，使其在战斗情况下具备增强的敏捷性和性能。战斗机中的steering nozzle可以向多个方向旋转，使飞行员能够进行急转弯和快速上升或下降。这种能力使战斗机在空战和规避机动中相较于传统飞机具有显著优势。除了军事应用外，steering nozzle在航天工业中对太空探索也至关重要。火箭利用steering nozzle在发射和再入阶段调整飞行路径。例如，当火箭穿过大气层上升时，steering nozzle有助于保持稳定的轨迹，确保其达到预定轨道。同样，在再入过程中，steering nozzle有助于控制下降角度和速度，这对安全着陆至关重要。此外，steering nozzle的设计和工程多年来已经显著发展。工程师们不断努力提高其效率和响应性，导致用于其构造的材料和技术的进步。例如，现代的steering nozzles可能采用轻质复合材料，这些材料能够承受极端温度和压力，同时提供最佳性能。总之，steering nozzle是航空和航天领域中不可或缺的组件，使得车辆能够精确控制和机动。它引导废气流的能力使得一系列运动成为可能，这对于军事和民用飞机都是必不可少的。随着技术的不断进步，我们可以期待steering nozzle设计方面的进一步创新，从而在飞行控制和性能方面实现更大的能力。理解steering nozzle的重要性不仅突出了其在工程中的作用，还强调了在追求更安全、更高效的航空旅行中设计与功能之间的复杂关系。