steering nozzle

简明释义

操纵喷管

英英释义

例句

1.The steering nozzle plays a crucial role in the control of underwater vehicles.

操纵喷嘴在水下航行器的控制中起着至关重要的作用。

2.In the design of the new jet engine, engineers focused on optimizing the steering nozzle for better thrust vectoring.

在新型喷气发动机的设计中，工程师们专注于优化操纵喷嘴以获得更好的推力矢量控制。

3.The steering nozzle allows for precise directional control in high-speed racing boats.

操纵喷嘴使高速赛车艇能够实现精确的方向控制。

4.The pilot adjusted the angle of the steering nozzle to improve maneuverability during the flight.

飞行员调整了操纵喷嘴的角度，以提高飞行中的机动性。

5.During testing, the steering nozzle was found to be malfunctioning, affecting the drone's stability.

在测试过程中，发现操纵喷嘴出现故障，影响了无人机的稳定性。

作文

In the realm of modern engineering and aerospace technology, the term steering nozzle refers to a critical component that plays a pivotal role in controlling the direction of thrust produced by an engine. The steering nozzle is designed to direct the exhaust flow from a jet engine or rocket, allowing for precise maneuverability during flight. This functionality is particularly important in military and commercial aviation, where the ability to change direction quickly and efficiently can be the difference between success and failure in a mission. The design of a steering nozzle typically involves sophisticated mechanisms that can adjust the angle of the exhaust flow. By tilting or rotating the nozzle, engineers can create differential thrust that enables the aircraft or spacecraft to turn, climb, or descend with agility. This capability is especially crucial during complex maneuvers, such as aerial dogfighting or atmospheric re-entry, where rapid changes in orientation are necessary. Moreover, the steering nozzle is not limited to just military applications. In commercial aviation, these nozzles contribute to improved fuel efficiency and reduced emissions. By optimizing the direction of exhaust gases, aircraft can fly more smoothly and maintain better control during various phases of flight. This efficiency is increasingly important as the aviation industry seeks to minimize its environmental impact while maximizing performance. The evolution of steering nozzles has been remarkable over the years. Early designs were often simplistic and limited in their functionality, but advancements in materials science and computer-aided design have led to the development of more complex and efficient systems. Modern steering nozzles can be integrated with advanced flight control systems that utilize real-time data to make instantaneous adjustments. This level of precision enhances safety and performance, allowing pilots and automated systems to respond swiftly to changing conditions. In addition to their technical functions, steering nozzles also represent a fascinating intersection of engineering and physics. The principles of fluid dynamics come into play as engineers study how different shapes and designs can affect the flow of exhaust gases. Understanding these principles is essential for creating nozzles that maximize thrust while minimizing drag, thereby improving overall efficiency. As we look to the future, the importance of steering nozzles will only continue to grow. With the advent of new technologies such as electric propulsion and unmanned aerial vehicles (UAVs), the design and application of these components will evolve further. Engineers will need to innovate continuously, finding new ways to enhance maneuverability and efficiency in an ever-changing landscape of aerospace technology. In conclusion, the steering nozzle is a vital element in the field of aerospace engineering, enabling precise control over thrust direction and enhancing the performance of both military and commercial aircraft. Its ongoing development reflects broader trends in technology and environmental sustainability, making it a key area of focus for engineers and scientists alike. As we advance into the future of aviation, the role of the steering nozzle will undoubtedly remain significant, driving innovations that will shape the next generation of flight.

在现代工程和航空航天技术领域，术语steering nozzle指的是一个关键组件，在控制发动机产生的推力方向中发挥着重要作用。steering nozzle旨在引导喷气发动机或火箭的排气流，从而允许在飞行过程中进行精确的机动。这一功能在军事和商业航空中尤为重要，因为快速有效地改变方向可能是任务成功与失败之间的区别。steering nozzle的设计通常涉及复杂的机制，可以调节排气流的角度。通过倾斜或旋转喷嘴，工程师可以产生差异推力，使飞机或航天器能够灵活地转向、爬升或下降。这种能力在复杂的机动中尤其重要，如空中格斗或大气再入，在这些情况下，需要迅速改变方向。此外，steering nozzle不仅限于军事应用。在商业航空中，这些喷嘴有助于提高燃油效率和减少排放。通过优化排气气体的方向，飞机可以更平稳地飞行，并在飞行的各个阶段保持更好的控制。这种效率在航空业寻求最大限度地减少环境影响同时最大化性能时变得越来越重要。steering nozzle的演变在过去几年中是显著的。早期设计往往简单且功能有限，但材料科学和计算机辅助设计的进步导致了更复杂和高效系统的发展。现代的steering nozzles可以与先进的飞行控制系统集成，这些系统利用实时数据进行瞬时调整。这种精确度提高了安全性和性能，使飞行员和自动系统能够迅速应对变化的条件。除了其技术功能外，steering nozzles还代表了工程与物理学的迷人交汇点。当工程师研究不同形状和设计如何影响排气气体的流动时，流体动力学的原理发挥了作用。理解这些原理对于创建最大化推力同时最小化阻力的喷嘴至关重要，从而改善整体效率。展望未来，steering nozzles的重要性只会继续增长。随着电推进和无人驾驶飞行器（UAV）等新技术的出现，这些组件的设计和应用将进一步发展。工程师需要不断创新，寻找新的方法来增强机动性和效率，以应对航空航天技术不断变化的环境。总之，steering nozzle是航空航天工程领域的重要元素，使推力方向的精确控制成为可能，并增强了军事和商业飞机的性能。它的持续发展反映了技术和环境可持续性方面的更广泛趋势，使其成为工程师和科学家关注的关键领域。随着我们迈向航空的未来，steering nozzle的角色无疑将继续显著，推动塑造下一代飞行的创新。