after-piece of rudder

简明释义

舵叶尾材

英英释义

例句

1.The design of the after-piece of rudder was modified to enhance steering efficiency.

为了提高操控效率，舵尾部件的设计进行了修改。

2.During the inspection, we found that the after-piece of rudder was corroded and needed immediate attention.

在检查中，我们发现舵尾部件已腐蚀，需要立即处理。

3.The ship's maneuverability improved significantly after replacing the after-piece of rudder with a more advanced model.

更换了一个更先进的舵尾部件后，船只的机动性显著提高。

4.The captain explained that the stability of the vessel relies heavily on the condition of the after-piece of rudder.

船长解释说，船只的稳定性在很大程度上依赖于舵尾部件的状况。

5.After conducting tests, the engineers concluded that the old after-piece of rudder was affecting performance.

经过测试，工程师们得出结论，旧的舵尾部件影响了性能。

作文

In the world of maritime engineering, the rudder plays a crucial role in steering and maneuvering a vessel. Among the various components of a rudder, the after-piece of rudder (舵的后段) is particularly significant. This section is located at the rear end of the rudder and serves as a vital part of the overall steering mechanism. Understanding the function and importance of the after-piece of rudder is essential for anyone involved in ship design or navigation. The after-piece of rudder contributes to the effectiveness of the rudder by enhancing its hydrodynamic properties. Essentially, it helps in directing the flow of water around the rudder, allowing for better control over the vessel's direction. When a ship turns, the after-piece of rudder works in tandem with the rest of the rudder to create a force that pushes the stern of the ship in the desired direction. This interaction is crucial for maintaining stability and maneuverability, especially in challenging sea conditions.Moreover, the design of the after-piece of rudder can significantly impact the performance of a ship. Engineers must carefully consider factors such as shape, size, and material when designing this component. A well-designed after-piece of rudder can reduce drag and improve the overall efficiency of the vessel, leading to better fuel economy and faster speeds. On the other hand, a poorly designed after-piece can lead to increased resistance in the water, making it harder for the ship to navigate effectively.In addition to its technical aspects, the after-piece of rudder also has implications for safety. A malfunction or damage to this part of the rudder can result in severe navigational issues, potentially putting the entire crew and vessel at risk. Therefore, regular maintenance and inspection of the after-piece of rudder are essential practices in maritime operations. Ensuring that this component is in good working condition can prevent accidents and enhance the safety of maritime travel.Furthermore, advancements in technology have led to innovative designs and materials for the after-piece of rudder. Modern ships often utilize composite materials that are lighter and more durable than traditional metal options. These innovations not only improve the performance of the after-piece of rudder but also contribute to the overall sustainability of maritime operations. As the industry moves towards greener technologies, understanding the role of each component, including the after-piece of rudder, becomes increasingly important.In conclusion, the after-piece of rudder (舵的后段) is a fundamental element in the design and operation of marine vessels. Its significance extends beyond mere functionality; it encompasses aspects of safety, efficiency, and innovation. For those involved in the maritime field, a comprehensive understanding of the after-piece of rudder is essential for ensuring that vessels are capable of navigating the world's waters safely and effectively. As we continue to explore advancements in maritime technology, the importance of each component, especially the after-piece of rudder, will remain a key focus for engineers and navigators alike.

在海洋工程的世界中，舵在引导和操控船只方面发挥着至关重要的作用。在舵的各种组成部分中，舵的后段尤其重要。它位于舵的后端，是整体操控机制的重要组成部分。理解舵的后段的功能和重要性对于任何参与船舶设计或导航的人来说都是必不可少的。舵的后段通过增强舵的水动特性来提高其有效性。基本上，它有助于引导水流绕过舵，从而实现对船只方向的更好控制。当船只转向时，舵的后段与舵的其他部分协同工作，产生一种力量，将船尾推向所需方向。这种相互作用对于在困难的海况下保持稳定性和操控性至关重要。此外，舵的后段的设计可以显著影响船舶的性能。工程师在设计这个组件时必须仔细考虑形状、大小和材料等因素。设计良好的舵的后段可以减少阻力，提高船舶的整体效率，从而实现更好的燃油经济性和更快的速度。另一方面，设计不良的后段可能导致水中的阻力增加，使船只更难以有效航行。除了技术方面，舵的后段还涉及安全问题。这个舵的部件发生故障或损坏可能会导致严重的导航问题，可能使整个船员和船只面临风险。因此，定期维护和检查舵的后段是海事操作中的重要实践。确保该组件处于良好工作状态可以防止事故并增强海事旅行的安全性。此外，技术的进步导致了舵的后段的新设计和新材料。现代船舶通常采用比传统金属选项更轻、更耐用的复合材料。这些创新不仅提高了舵的后段的性能，还促进了海事操作的整体可持续性。随着行业向更环保的技术迈进，理解每个组件的角色，包括舵的后段，变得越来越重要。总之，舵的后段是海洋船舶设计和操作中的基本元素。它的重要性超出了单纯的功能；它涵盖了安全性、效率和创新等方面。对于那些参与海事领域的人来说，全面理解舵的后段对于确保船舶能够安全有效地航行在世界水域是至关重要的。随着我们继续探索海洋技术的进步，每个组件的重要性，尤其是舵的后段，将始终是工程师和导航员关注的重点。