reactive jet-steering gear

简明释义

喷水推进兼操纵装置

英英释义

例句

1.The reactive jet-steering gear allows the aircraft to perform complex aerial maneuvers with ease.

该反应式喷气舵使得飞机能够轻松完成复杂的空中机动。

2.Engineers are currently optimizing the reactive jet-steering gear to improve fuel efficiency.

工程师们正在优化反应式喷气舵以提高燃油效率。

3.In combat situations, the reactive jet-steering gear provides pilots with superior agility.

在战斗情况下，反应式喷气舵为飞行员提供了卓越的灵活性。

4.The new fighter jet is equipped with advanced reactive jet-steering gear for enhanced maneuverability.

这款新型战斗机配备了先进的反应式喷气舵，以增强机动性。

5.During the flight test, the pilot praised the reactive jet-steering gear for its quick response to control inputs.

在飞行测试中，飞行员称赞反应式喷气舵对控制输入的快速响应。

作文

In the realm of modern engineering, particularly in aerospace and marine applications, the concept of maneuverability is paramount. One of the most innovative developments in this field is the use of reactive jet-steering gear (反应式喷气舵机). This technology has revolutionized how vehicles navigate through various environments, providing unparalleled control and precision. The reactive jet-steering gear operates on the principle of directing high-velocity jets of fluid or gas to achieve swift changes in direction. Unlike traditional steering mechanisms that rely on physical components like rudders or ailerons, the reactive jet-steering gear utilizes the reactive force generated by the expelled jets to steer the vehicle. This allows for a more dynamic response to pilot inputs, enabling rapid maneuvers that are essential in both military and civilian contexts.The advantages of implementing reactive jet-steering gear are numerous. For instance, in naval vessels, this technology enhances agility and reduces turning radius, allowing ships to navigate tight spaces with ease. Similarly, in aircraft, the reactive jet-steering gear provides improved stability and control during complex flight patterns, which is particularly beneficial during combat situations or emergency landings. Furthermore, the absence of moving parts in the reactive jet-steering gear system minimizes maintenance requirements, leading to increased operational efficiency and reduced costs over time.The design and integration of reactive jet-steering gear into existing systems require a deep understanding of fluid dynamics and control theory. Engineers must carefully calculate the optimal angles and velocities of the jets to ensure that the desired maneuvers can be executed effectively. Additionally, advancements in computer simulations and modeling have made it easier to predict how the reactive jet-steering gear will perform under various conditions, thereby enhancing the reliability of these systems.Moreover, the adaptability of reactive jet-steering gear makes it suitable for a wide range of applications beyond aerospace and marine engineering. For example, it can be utilized in robotics, where precise movements are crucial for tasks such as assembly or exploration. In this context, the reactive jet-steering gear enables robots to navigate complex terrains or perform intricate tasks with high accuracy, further showcasing its versatility.As technology continues to evolve, the future of reactive jet-steering gear looks promising. Ongoing research aims to enhance the efficiency and effectiveness of these systems, potentially leading to breakthroughs in autonomous vehicles and advanced drones. With the increasing demand for high-performance maneuverability in various industries, the reactive jet-steering gear stands at the forefront of innovation, paving the way for safer and more efficient transportation solutions.In conclusion, the implementation of reactive jet-steering gear represents a significant advancement in the field of navigation technology. Its unique approach to steering through reactive forces offers numerous benefits, including enhanced maneuverability, reduced maintenance, and broad applicability across different sectors. As engineers continue to refine and develop this technology, we can expect to see even more remarkable applications of reactive jet-steering gear in the years to come.

在现代工程领域，特别是在航空航天和海洋应用中，机动性概念至关重要。在这一领域中，最具创新性的进展之一就是使用反应式喷气舵机。这项技术彻底改变了车辆在各种环境中的导航方式，提供了无与伦比的控制和精度。反应式喷气舵机基于将高速流体或气体喷射方向进行引导的原理，以实现迅速的方向变化。与依赖物理组件如舵和副翼的传统转向机制不同，反应式喷气舵机利用喷射产生的反作用力来操控车辆。这使得对飞行员输入的动态响应更为灵活，能够进行快速机动，这在军事和民用场合中都是必不可少的。实施反应式喷气舵机的优势是多方面的。例如，在海军舰艇中，这项技术增强了敏捷性并减少了转弯半径，使船只能够轻松地在狭窄空间中导航。同样，在飞机中，反应式喷气舵机在复杂飞行模式下提供了更好的稳定性和控制能力，这在战斗情况下或紧急着陆时尤为重要。此外，反应式喷气舵机系统中缺乏运动部件也降低了维护需求，从而提高了操作效率并降低了长期成本。将反应式喷气舵机设计和集成到现有系统中需要对流体动力学和控制理论有深入的理解。工程师必须仔细计算喷射的最佳角度和速度，以确保能够有效执行所需的机动。此外，计算机模拟和建模的进步使得预测反应式喷气舵机在各种条件下的性能变得更加容易，从而提高了这些系统的可靠性。此外，反应式喷气舵机的适应性使其适用于航空航天和海洋工程以外的广泛应用。例如，它可以用于机器人技术，在这种情况下，精确的运动对于装配或探索等任务至关重要。在这种背景下，反应式喷气舵机能够使机器人在复杂地形中导航或执行复杂任务，进一步展示了其多功能性。随着技术的不断发展，反应式喷气舵机的未来看起来充满希望。正在进行的研究旨在提高这些系统的效率和有效性，可能会导致在自主车辆和先进无人机领域的突破。随着各行业对高性能机动性的需求不断增加，反应式喷气舵机站在创新的前沿，为更安全、更高效的交通解决方案铺平道路。总之，实施反应式喷气舵机代表了导航技术领域的重要进步。它通过反作用力的独特转向方法提供了众多好处，包括增强的机动性、降低的维护需求以及在不同领域的广泛适用性。随着工程师们继续完善和开发这项技术，我们可以期待在未来几年看到反应式喷气舵机的更多显著应用。