thruster pipe

简明释义

推力器管

英英释义

例句

1.The thruster pipe is crucial for maneuvering the satellite in orbit.

对于在轨道中操控卫星，推进管至关重要。

2.After the collision, the thruster pipe was damaged and required immediate repair.

碰撞后，推进管受损，需要立即修理。

3.We need to replace the thruster pipe to ensure optimal performance of the spacecraft.

我们需要更换推进管以确保航天器的最佳性能。

4.The engineer inspected the thruster pipe for any signs of wear and tear before the launch.

工程师在发射前检查了推进管是否有任何磨损迹象。

5.During the test, the thruster pipe showed a significant increase in pressure.

在测试过程中，推进管显示出压力显著增加。

作文

In modern engineering and aerospace applications, the term thruster pipe refers to a specialized conduit designed to channel propellant or exhaust gases from thrusters, which are essential for maneuvering spacecraft and various types of vehicles. The thruster pipe plays a crucial role in ensuring that these gases are expelled efficiently, allowing for precise control over the vehicle's trajectory and orientation. Without a properly designed thruster pipe, the effectiveness of the thrusters could be severely compromised, leading to potential failures in navigation and stability.The design of a thruster pipe must take into consideration several factors, including the type of propellant being used, the expected temperatures and pressures, and the specific mission requirements. For instance, in space missions, where temperatures can fluctuate dramatically, the materials used for the thruster pipe must be able to withstand extreme conditions without degrading. This often involves using advanced alloys or composites that provide both strength and thermal resistance.Moreover, the geometry of the thruster pipe is equally important. Engineers must carefully calculate the diameter and length of the pipe to optimize the flow of gases. A well-designed thruster pipe minimizes turbulence and ensures that the exhaust is directed in a manner that maximizes thrust. This is particularly critical during maneuvers that require rapid changes in direction, such as docking with another spacecraft or landing on a planetary surface.In addition to its physical properties, the thruster pipe must also be integrated seamlessly with the overall propulsion system of the vehicle. This means that it should be compatible with other components, such as valves and injectors, to ensure smooth operation. Any malfunction in the thruster pipe can lead to catastrophic consequences, making thorough testing and quality assurance essential during the manufacturing process.The use of thruster pipes extends beyond space exploration; they are also found in underwater vehicles and drones. In these applications, the principles remain the same: the thruster pipe directs the flow of water or air to provide thrust, enabling the vehicle to navigate effectively through its environment. For example, in submarines, the design of the thruster pipe must account for the pressure exerted by water at various depths, which can significantly impact performance.As technology advances, the design and materials used for thruster pipes continue to evolve. Innovations such as additive manufacturing and advanced computational fluid dynamics are paving the way for more efficient and effective designs. These advancements not only enhance the performance of existing vehicles but also open up new possibilities for future explorations.In conclusion, the thruster pipe is a vital component in the propulsion systems of various vehicles, from spacecraft to submarines. Its design and functionality directly impact the performance and safety of these vehicles. By understanding the complexities involved in creating an effective thruster pipe, engineers can ensure that vehicles operate reliably in their respective environments, whether in the vacuum of space or the depths of the ocean.

在现代工程和航空航天应用中，术语thruster pipe指的是一种专门的管道，用于引导推进器的推进剂或废气，这对于操纵航天器和各种类型的车辆至关重要。thruster pipe在确保这些气体高效排放方面发挥着关键作用，使得对车辆的轨迹和方向进行精确控制成为可能。如果没有设计良好的thruster pipe，推进器的有效性可能会受到严重影响，导致导航和稳定性潜在的故障。thruster pipe的设计必须考虑几个因素，包括使用的推进剂类型、预期的温度和压力以及特定的任务要求。例如，在太空任务中，由于温度可能会剧烈波动，thruster pipe所用的材料必须能够承受极端条件而不降解。这通常涉及使用先进的合金或复合材料，以提供强度和耐热性。此外，thruster pipe的几何形状同样重要。工程师必须仔细计算管道的直径和长度，以优化气体的流动。设计良好的thruster pipe可以最小化湍流，确保废气以最大化推力的方式被引导。这在需要快速改变方向的机动中尤其关键，例如与其他航天器对接或在行星表面着陆。除了物理特性外，thruster pipe还必须与车辆的整体推进系统无缝集成。这意味着它应与其他组件（如阀门和喷射器）兼容，以确保平稳运行。thruster pipe的任何故障都可能导致灾难性后果，因此在制造过程中进行彻底的测试和质量保证是必不可少的。thruster pipe的使用不仅限于太空探索；它们也出现在水下车辆和无人机中。在这些应用中，原理保持不变：thruster pipe引导水或空气的流动以提供推力，使得车辆能够有效地在其环境中导航。例如，在潜艇中，thruster pipe的设计必须考虑到不同深度下水的压力，这可能会显著影响性能。随着技术的进步，thruster pipe的设计和材料也在不断演变。增材制造和先进的计算流体动力学等创新正在为更高效和更有效的设计铺平道路。这些进步不仅增强了现有车辆的性能，还为未来的探索开辟了新的可能性。总之，thruster pipe是各种车辆推进系统中的重要组成部分，从航天器到潜艇。它的设计和功能直接影响这些车辆的性能和安全性。通过理解创建有效的thruster pipe所涉及的复杂性，工程师可以确保车辆在其各自环境中可靠运行，无论是在太空的真空中还是在海洋的深处。