maximum thrust

简明释义

最大推力

英英释义

例句

1.The engineers tested the engine to ensure it could deliver maximum thrust 最大推力 under extreme conditions.

工程师们测试了发动机，以确保它能够在极端条件下提供最大推力 maximum thrust。

2.In order to break free from Earth's gravity, the spacecraft needs to achieve maximum thrust 最大推力.

为了摆脱地球的引力，航天器需要达到最大推力 maximum thrust。

3.The rocket engine is designed to produce maximum thrust 最大推力 during liftoff.

火箭发动机在发射时设计为产生最大推力 maximum thrust。

4.During the simulation, the pilot had to manage the maximum thrust 最大推力 to prevent engine failure.

在模拟过程中，飞行员必须管理最大推力 maximum thrust以防止发动机故障。

5.The fighter jet's afterburners provide an additional maximum thrust 最大推力 for supersonic speeds.

战斗机的加力燃烧室为超音速提供额外的最大推力 maximum thrust。

作文

In the world of aerospace engineering, the term maximum thrust refers to the highest amount of force that an engine can produce. This concept is critical when designing aircraft and spacecraft because it directly influences their performance and capabilities. For instance, during takeoff, an airplane needs to generate a significant amount of thrust to lift off the ground and climb into the sky. The maximum thrust generated by jet engines determines how quickly an aircraft can ascend and how much weight it can carry. Understanding maximum thrust is not only important for engineers but also for pilots and aviation enthusiasts. Pilots must be aware of the thrust capabilities of their aircraft to ensure safe operations under various conditions. For example, on a hot day, the air is less dense, which can affect engine performance. Consequently, knowing the maximum thrust helps pilots make informed decisions regarding takeoff distances and load capacities.Moreover, in the realm of space exploration, the concept of maximum thrust takes on even greater significance. Rockets rely on powerful engines that produce enormous thrust to escape Earth's gravitational pull. The maximum thrust generated by rocket engines is crucial for missions to other planets or for placing satellites into orbit. Each rocket is designed with a specific thrust-to-weight ratio, which indicates its ability to accelerate and maneuver in space. A higher maximum thrust allows for faster travel and more ambitious missions.The engineering behind achieving maximum thrust involves complex calculations and innovative technologies. Engineers must consider various factors, including fuel type, engine design, and aerodynamic efficiency. For instance, modern turbofan engines have been designed to optimize fuel consumption while still providing the necessary thrust. This balance is essential for commercial airlines, where operational costs are a significant concern.In addition to practical applications, the pursuit of maximum thrust also drives research and development in the aerospace industry. Scientists are continually exploring new materials and technologies that can withstand the extreme conditions of high-thrust environments. Innovations such as advanced composite materials and improved cooling systems help engines achieve higher thrust levels without compromising safety or performance.Furthermore, the quest for maximum thrust extends beyond traditional aviation and space travel. It also plays a role in the development of electric propulsion systems, which are becoming increasingly popular in both aviation and space exploration. These systems aim to provide efficient thrust while minimizing environmental impact. As technology advances, the definition of maximum thrust may evolve, but its importance will remain unchanged.In conclusion, the term maximum thrust encapsulates a fundamental principle in aerospace engineering and aviation. It represents the pinnacle of engine performance and is crucial for the success of flight operations, whether in the skies above or in the vastness of space. Understanding and harnessing maximum thrust not only enhances our current capabilities but also paves the way for future innovations in transportation and exploration.

在航空航天工程的世界中，术语最大推力指的是发动机能够产生的最高力量。这个概念在设计飞机和航天器时至关重要，因为它直接影响到它们的性能和能力。例如，在起飞过程中，飞机需要产生相当大的推力来离开地面并爬升到空中。喷气发动机产生的最大推力决定了飞机的上升速度以及可以承载的重量。理解最大推力不仅对工程师重要，对飞行员和航空爱好者也同样重要。飞行员必须了解他们飞机的推力能力，以确保在各种条件下的安全操作。例如，在炎热的天气里，空气密度较低，这可能会影响发动机性能。因此，了解最大推力有助于飞行员在起飞距离和载重能力方面做出明智的决策。此外，在太空探索领域，最大推力的概念显得尤为重要。火箭依靠强大的发动机产生巨大的推力以逃离地球的引力。火箭发动机产生的最大推力对于前往其他行星或将卫星送入轨道的任务至关重要。每枚火箭都设计有特定的推重比，这表明其加速和在太空中机动的能力。更高的最大推力允许更快的旅行和更雄心勃勃的任务。实现最大推力的工程涉及复杂的计算和创新的技术。工程师必须考虑多种因素，包括燃料类型、发动机设计和空气动力学效率。例如，现代涡扇发动机的设计旨在优化燃油消耗，同时仍提供必要的推力。这种平衡对于商业航空公司至关重要，因为运营成本是一个重要问题。除了实际应用之外，追求最大推力也推动了航空航天行业的研究与发展。科学家们不断探索能够承受高推力环境极端条件的新材料和新技术。先进复合材料和改进冷却系统等创新帮助发动机在不妨碍安全或性能的情况下实现更高的推力水平。此外，追求最大推力的努力还超越了传统航空和太空旅行，涵盖了电推进系统的发展，这些系统在航空和太空探索中越来越受欢迎。这些系统旨在提供高效的推力，同时最小化对环境的影响。随着技术的进步，最大推力的定义可能会演变，但其重要性将保持不变。总之，术语最大推力概括了航空航天工程和航空中的一个基本原则。它代表了发动机性能的巅峰，并对飞行操作的成功至关重要，无论是在空中还是在广袤的太空中。理解和利用最大推力不仅增强了我们当前的能力，也为未来的交通和探索创新铺平了道路。