maneuvering performance

简明释义

操纵性能

英英释义

例句

1.The maneuvering performance of the ship was tested in various sea conditions to ensure safety.

该船的机动性能在各种海况下进行了测试，以确保安全。

2.In a recent test, the car's maneuvering performance was evaluated on a winding mountain road.

在最近的一次测试中，汽车的操控性能在蜿蜒的山路上进行了评估。

3.The pilot was impressed by the aircraft's maneuvering performance, which allowed for sharp turns and quick altitude changes.

飞行员对飞机的机动性能印象深刻，这使得飞机能够快速转弯和迅速改变高度。

4.Engineers focused on improving the maneuvering performance of the new model to enhance its agility.

工程师们专注于提高新型号的操控性能以增强其灵活性。

5.The maneuvering performance of the drone is crucial for navigating through tight spaces.

无人机的机动性能对于在狭小空间中导航至关重要。

作文

In the world of aviation and maritime operations, the term maneuvering performance is crucial for understanding how effectively a vehicle can change its position or direction. This concept encompasses various aspects of control, stability, and responsiveness, which are essential for safe and efficient navigation. Whether it is an aircraft executing sharp turns in the sky or a ship navigating through narrow channels, maneuvering performance plays a significant role in ensuring that these operations are conducted smoothly and safely.To delve deeper into this subject, we must first define what maneuvering performance entails. It refers to the ability of a vehicle to perform specific movements, including acceleration, deceleration, turning, and stopping, under varying conditions. For aircraft, this might involve assessing how quickly and effectively a plane can bank during a turn or how it responds to pilot inputs during turbulence. In maritime contexts, it includes evaluating a vessel's ability to steer and maintain course in the presence of wind, currents, and other environmental factors.One of the key components of maneuvering performance is the design and engineering of the vehicle itself. For instance, an aircraft with a high thrust-to-weight ratio will generally exhibit better maneuvering performance than one with a lower ratio, as it can accelerate more rapidly and climb more efficiently. Similarly, ships designed with streamlined hulls are likely to achieve superior maneuvering performance compared to bulkier vessels, allowing them to navigate tight spaces with ease.Moreover, the operational environment greatly influences maneuvering performance. Factors such as weather conditions, sea state, and air traffic can all impact how well a vehicle can maneuver. For example, a fighter jet may have excellent maneuvering performance in clear skies but struggle in adverse weather conditions where visibility is compromised. Likewise, a cargo ship may find its maneuvering performance hindered by rough seas, requiring careful planning and skilled navigation to avoid accidents.Training and experience also play a pivotal role in maximizing maneuvering performance. Pilots and captains must undergo rigorous training to understand their vehicles' capabilities and limitations. This knowledge allows them to make informed decisions during critical moments, enhancing overall safety and efficiency. For instance, a skilled pilot can exploit the maneuvering performance of their aircraft to evade potential collisions or to execute complex aerial maneuvers during air shows.In conclusion, maneuvering performance is a multifaceted concept that is vital for the safe and effective operation of both aircraft and maritime vessels. It encompasses the vehicle's design, the environmental conditions, and the skills of the operators. By understanding and improving maneuvering performance, we can enhance safety, efficiency, and overall effectiveness in transportation across various domains. As technology continues to advance, we can expect further improvements in maneuvering performance, leading to safer and more efficient travel for all.

在航空和海事操作的世界中，术语机动性能对于理解交通工具如何有效改变其位置或方向至关重要。这个概念涵盖了控制、稳定性和响应性的各个方面，这些都是安全高效导航所必需的。无论是飞机在空中执行急转弯，还是船只在狭窄水道中航行，机动性能在确保这些操作顺利和安全进行方面都发挥着重要作用。为了深入探讨这一主题，我们首先必须定义机动性能的含义。它指的是交通工具在不同条件下执行特定动作的能力，包括加速、减速、转向和停车。对于飞机而言，这可能涉及评估一架飞机在转弯时快速有效地倾斜的能力，或者在颠簸期间对飞行员输入的反应。在海事环境中，它包括评估船只在风、潮流和其他环境因素的影响下的操控能力。机动性能的一个关键组成部分是交通工具本身的设计和工程。例如，具有高推重比的飞机通常会表现出比推重比低的飞机更好的机动性能，因为它可以更快速地加速和更有效地爬升。同样，设计有流线型船体的船只相比于笨重的船只，能够实现更优越的机动性能，使其能够轻松地在狭小空间内航行。此外，操作环境也极大地影响机动性能。天气条件、海况和空中交通等因素都可能影响交通工具的操控能力。例如，一架战斗机在晴朗的天空中可能具有出色的机动性能，但在恶劣天气条件下能见度受限时可能会遇到困难。同样，货船在波涛汹涌的海面上可能会发现其机动性能受到阻碍，需要仔细规划和熟练导航以避免事故。培训和经验在最大化机动性能方面也发挥着关键作用。飞行员和船长必须经过严格的培训，以了解其交通工具的能力和局限性。这种知识使他们能够在关键时刻做出明智的决策，从而提高整体安全性和效率。例如，熟练的飞行员可以利用其飞机的机动性能来避开潜在的碰撞或在空中表演中执行复杂的飞行动作。总之，机动性能是一个多方面的概念，对于飞机和海事船只的安全和有效操作至关重要。它涵盖了交通工具的设计、环境条件以及操作人员的技能。通过理解和改善机动性能，我们可以提高各个领域运输的安全性、效率和整体效果。随着技术的不断进步，我们可以期待机动性能的进一步提升，从而为所有人带来更安全、更高效的旅行。