rudder body

简明释义

舵叶

英英释义

例句

1.He pointed out that any corrosion on the rudder body could lead to serious issues.

他指出，任何在舵体上的腐蚀都可能导致严重问题。

2.The technician inspected the rudder body to ensure it was free of cracks.

技术员检查了舵体以确保没有裂缝。

3.The design of the rudder body plays a crucial role in the ship's maneuverability.

设计舵体对船只的机动性起着至关重要的作用。

4.During the maintenance, we replaced the damaged rudder body with a new one.

在维护期间，我们用新的舵体替换了损坏的部分。

5.To improve performance, the engineers modified the shape of the rudder body.

为了提高性能，工程师们修改了舵体的形状。

作文

The design and function of a ship are crucial for its performance in water. One of the most important components of a ship's steering system is the rudder body, which plays a vital role in controlling the direction of the vessel. Understanding the rudder body is essential for anyone interested in naval architecture or maritime operations. A rudder body is essentially a flat piece of material that is placed at the back of a ship, submerged in the water. When the ship moves forward, water flows over the rudder body, creating a force that allows the ship to turn left or right. This mechanism is similar to how a plane's ailerons work, providing stability and control. The size and shape of the rudder body can significantly affect the maneuverability of the ship. Larger rudders provide more control but can also create more drag, which may slow the vessel down. In addition to its physical characteristics, the rudder body must be designed with specific materials that can withstand harsh marine environments. Corrosion resistance is a key factor, as the rudder body is constantly exposed to saltwater. Engineers often use materials like stainless steel or specialized alloys to ensure durability. Moreover, the attachment of the rudder body to the hull of the ship must be secure, as any failure in this connection could lead to catastrophic steering loss. The effectiveness of the rudder body can also be influenced by other design elements of the ship. For instance, the position of the rudder body in relation to the propeller can create turbulence that affects its performance. Proper hydrodynamic design is crucial to minimize such issues, ensuring that the rudder body operates efficiently. Furthermore, advancements in technology have led to innovations in rudder body design. Modern ships may feature active rudder systems that adjust their angle automatically based on real-time data from onboard sensors. This level of precision enhances the ship's ability to navigate through challenging waters, improving safety and operational efficiency. Training for crew members includes understanding how to operate and maintain the rudder body. Knowledge about its functionality helps in troubleshooting potential issues during voyages. In emergency situations, quick decision-making regarding the rudder body can mean the difference between a safe return home and a disastrous outcome. In conclusion, the rudder body is a fundamental component of a ship's steering system. Its design, materials, and integration with other systems all contribute to the overall performance and safety of maritime vessels. For those involved in naval engineering or maritime operations, a thorough understanding of the rudder body is indispensable. As technology continues to evolve, so too will the designs and functionalities of these critical components, ensuring that ships remain safe and efficient in navigating the world's waters.

船舶的设计和功能对其在水中的性能至关重要。船舶操纵系统中最重要的组成部分之一是舵体，它在控制船只方向方面发挥着重要作用。理解舵体对于任何对海洋建筑或海事操作感兴趣的人来说都是必不可少的。舵体本质上是一个平坦的材料块，放置在船的后部，浸没在水中。当船向前移动时，水流过舵体，产生一种力量，使船可以向左或向右转动。这一机制类似于飞机副翼的工作，提供稳定性和控制力。舵体的大小和形状会显著影响船只的机动性。较大的舵提供更多的控制，但也可能产生更多的阻力，从而减慢船只的速度。除了物理特性之外，舵体的设计必须使用能够承受恶劣海洋环境的特定材料。抗腐蚀性是一个关键因素，因为舵体不断暴露在盐水中。工程师通常使用不锈钢或专用合金等材料来确保耐用性。此外，舵体与船体的连接必须牢固，因为该连接的任何故障都可能导致灾难性的操控丧失。舵体的有效性也可能受到船只其他设计元素的影响。例如，舵体相对于螺旋桨的位置可能会产生影响其性能的湍流。适当的水动力设计对于最小化此类问题至关重要，以确保舵体高效运行。此外，技术的进步促使了舵体设计的创新。现代船舶可能配备主动舵系统，根据来自船上传感器的实时数据自动调整角度。这种精确度提高了船舶在复杂水域中的导航能力，提高了安全性和操作效率。船员的培训包括了解如何操作和维护舵体。对其功能的了解有助于在航行期间排除潜在问题。在紧急情况下，关于舵体的快速决策可能意味着安全回家的区别和灾难性结果之间的差异。总之，舵体是船舶操纵系统的基本组成部分。其设计、材料和与其他系统的整合共同促进了海洋船只的整体性能和安全性。对于那些参与海军工程或海事操作的人来说，深入理解舵体是不可或缺的。随着技术的不断发展，这些关键组件的设计和功能也将不断演变，确保船舶在全球水域的安全和高效航行。