trailing portion of rudder

简明释义

舵后部

英英释义

例句

1.To enhance the ship's responsiveness, engineers redesigned the trailing portion of rudder.

为了增强船只的响应能力，工程师重新设计了舵的尾部部分。

2.The trailing portion of rudder must be regularly maintained to ensure safe navigation.

舵的尾部部分必须定期维护，以确保安全航行。

3.During the inspection, we noticed some wear on the trailing portion of rudder, which could affect performance.

在检查过程中，我们注意到舵的尾部部分有一些磨损，这可能会影响性能。

4.The pilot adjusted the angle of the trailing portion of rudder to improve maneuverability during the turn.

飞行员调整了舵的尾部部分的角度，以改善转弯时的机动性。

5.The trailing portion of rudder plays a crucial role in maintaining stability while cruising.

舵的尾部部分在巡航时保持稳定性方面起着至关重要的作用。

作文

The design and function of a ship's rudder are essential components of maritime engineering. Among the various parts of a rudder, the trailing portion of rudder plays a crucial role in steering and maneuverability. The trailing portion of rudder refers to the back edge of the rudder that interacts with the water flow as the vessel moves. This part is designed to create lift and provide directional control, allowing the ship to turn efficiently. Without a properly designed trailing portion of rudder, a ship would struggle to change its course, leading to potential navigational hazards.In naval architecture, the shape and size of the trailing portion of rudder can significantly affect the performance of a vessel. Engineers must consider factors such as water pressure, flow patterns, and the overall hydrodynamics of the ship when designing this component. A well-designed trailing portion of rudder can enhance a ship's ability to respond quickly to steering commands, which is especially important in tight navigation situations, such as entering ports or avoiding obstacles.Moreover, the materials used for constructing the trailing portion of rudder are equally important. Modern rudders are often made from durable materials like stainless steel or composite materials that resist corrosion and wear. This longevity ensures that the trailing portion of rudder maintains its performance over time, reducing maintenance costs and increasing the safety of the vessel.In addition to its functional aspects, the trailing portion of rudder also has implications for a ship's efficiency. When the trailing portion of rudder is designed to minimize drag, it allows the vessel to move through the water more smoothly, thereby improving fuel efficiency. This consideration is increasingly important in today’s environmentally conscious world, where reducing emissions and conserving energy are priorities for shipping companies.The impact of the trailing portion of rudder extends beyond individual vessels; it influences the broader field of marine engineering and naval operations. Research into optimizing the trailing portion of rudder has led to advancements in computer modeling and simulation techniques, enabling engineers to test different designs virtually before physical implementation. These innovations have resulted in more efficient and safer vessels, contributing to the evolution of maritime technology.In conclusion, the trailing portion of rudder is a vital element of a ship's design that affects its maneuverability, efficiency, and safety. Understanding its significance helps appreciate the complexities of maritime engineering and the continuous efforts to improve vessel performance. The study of the trailing portion of rudder, along with other components, remains an important area of research and development in the quest for better and more sustainable maritime transportation solutions.

船舶舵的设计和功能是海洋工程的重要组成部分。在舵的各个部件中，舵的尾部在操控和机动性方面发挥着至关重要的作用。舵的尾部指的是舵的后缘，它与水流相互作用，随着船只的移动而改变方向。这个部分的设计旨在产生升力并提供方向控制，使船只能够高效转向。如果没有适当设计的舵的尾部，船只将难以改变航向，可能导致导航危险。在海军建筑中，舵的尾部的形状和大小会显著影响船只的性能。工程师在设计这一部件时必须考虑水压、流动模式以及船舶整体的水动力学。设计良好的舵的尾部可以增强船只对操控命令的快速响应能力，这在紧凑的导航情况下尤为重要，例如进入港口或避开障碍物。此外，用于构建舵的尾部的材料同样重要。现代舵通常采用耐腐蚀和耐磨损的耐用材料，如不锈钢或复合材料。这种耐久性确保了舵的尾部在长时间内保持其性能，从而降低维护成本，提高船只的安全性。除了功能方面，舵的尾部对船只的效率也有影响。当舵的尾部设计成最小化阻力时，它使船只能够更顺畅地穿过水面，从而提高燃油效率。在当今环保意识日益增强的世界中，减少排放和节约能源已经成为航运公司的优先事项。舵的尾部的影响超越了单一船只，它影响着更广泛的海洋工程和海军作战领域。对优化舵的尾部的研究促使了计算机建模和仿真技术的发展，使工程师能够在实际实施之前虚拟测试不同的设计。这些创新导致了更高效和更安全的船只，推动了海洋技术的演变。总之，舵的尾部是船舶设计中的一个关键元素，影响着其机动性、效率和安全性。理解其重要性有助于我们欣赏海洋工程的复杂性以及不断改善船只性能的努力。对舵的尾部及其他部件的研究仍然是一个重要的研究和开发领域，旨在寻求更好、更可持续的海洋运输解决方案。