rudder stock moment

简明释义

舵杆扭矩

英英释义

例句

1.The captain adjusted the rudder based on the rudder stock moment readings.

船长根据舵轴力矩的读数调整了舵。

2.Understanding the rudder stock moment is crucial for optimizing the steering system.

理解舵轴力矩对于优化舵系统至关重要。

3.Our team is studying the impact of rudder stock moment on fuel efficiency during navigation.

我们的团队正在研究舵轴力矩对航行中燃油效率的影响。

4.The engineer calculated the rudder stock moment to ensure the ship can maneuver effectively.

工程师计算了舵轴力矩以确保船只能够有效操控。

5.During the simulation, we observed how the rudder stock moment affects the vessel's turning radius.

在模拟过程中，我们观察到舵轴力矩如何影响船只的转弯半径。

作文

In the world of maritime navigation, understanding the various components that contribute to a vessel's maneuverability is crucial. One such component is the rudder, which plays a vital role in steering the ship. The effectiveness of a rudder is influenced by several factors, including its design, size, and the water flow around it. Among these factors, the term rudder stock moment refers to the torque or rotational force applied to the rudder stock, which is the part of the rudder that connects to the steering mechanism. This moment is essential for determining how effectively the rudder can change the direction of the vessel. The rudder stock moment is particularly significant when considering the dynamics of maneuvering a ship. When a captain decides to turn the vessel, the rudder needs to pivot around its stock. The force exerted on the rudder stock creates a moment that must overcome the inertia of the ship and any external forces acting upon it, such as wind and current. A larger rudder stock moment indicates that more force is available to initiate a turn, allowing for quicker and sharper maneuvers. Moreover, the design of the rudder and its stock can greatly affect the rudder stock moment. For instance, a rudder with a greater surface area will typically generate more lift and, consequently, a higher moment when the ship is in motion. This is why naval architects pay close attention to the rudder's dimensions and shape during the design phase of a vessel. They aim to optimize the rudder stock moment to ensure that the ship can be maneuvered efficiently under various conditions.In practice, understanding the rudder stock moment helps mariners make informed decisions while navigating. For example, during adverse weather conditions or when navigating through narrow channels, a quick response to steering inputs is critical. If the rudder stock moment is insufficient, the ship may not respond adequately to the captain's commands, leading to potential hazards. Therefore, ensuring that the rudder system is well-maintained and that the rudder stock moment is within optimal parameters is essential for safe navigation.Additionally, the rudder stock moment has implications beyond just steering. It also affects other systems on the vessel, such as the propulsion system. If the rudder requires too much force to operate, it can lead to increased wear and tear on the steering gear and other components. This can result in costly repairs and downtime, emphasizing the importance of understanding and managing the rudder stock moment effectively.In conclusion, the concept of rudder stock moment is fundamental to maritime navigation and vessel design. It represents the torque applied to the rudder stock, influencing a ship's ability to maneuver effectively. By comprehensively understanding this term, naval architects and mariners can work together to enhance the safety and efficiency of maritime operations. As ships continue to evolve, the principles surrounding the rudder stock moment will remain a cornerstone of effective vessel management and navigation practices.

在海洋导航的世界中，理解影响船只机动性的各种组成部分至关重要。其中一个组成部分是舵，舵在引导船只方面发挥着重要作用。舵的有效性受到多个因素的影响，包括其设计、大小以及周围的水流。在这些因素中，术语舵轴力矩指的是施加在舵轴上的扭矩或旋转力，舵轴是连接舵和操纵机制的部分。这个力矩对于确定舵如何有效改变船只方向至关重要。舵轴力矩在考虑船只操纵的动态时特别重要。当船长决定转向时，舵需要围绕其轴心旋转。施加在舵轴上的力产生了一个力矩，必须克服船只的惯性以及任何外部作用力，如风和水流。更大的舵轴力矩表明有更多的力量可用于启动转弯，从而允许更快和更急剧的机动。此外，舵及其轴的设计会极大地影响舵轴力矩。例如，具有更大表面积的舵通常会在运动时产生更多的升力，因此在运动时会产生更高的力矩。这就是为什么海军建筑师在船舶设计阶段非常关注舵的尺寸和形状。他们旨在优化舵轴力矩，以确保船只在各种条件下都能高效机动。在实践中，理解舵轴力矩帮助海员在航行时做出明智的决策。例如，在恶劣天气条件下或在狭窄水道中航行时，对舵的快速响应至关重要。如果舵轴力矩不足，船只可能无法充分响应船长的命令，从而导致潜在的危险。因此，确保舵系统保持良好状态，并且舵轴力矩在最佳参数范围内，对于安全航行至关重要。此外，舵轴力矩还对船上的其他系统产生影响，例如推进系统。如果舵操作所需的力量过大，可能会导致舵机和其他组件的磨损增加。这可能会导致昂贵的维修和停机时间，强调了有效理解和管理舵轴力矩的重要性。总之，舵轴力矩的概念是海洋导航和船舶设计的基础。它代表施加在舵轴上的扭矩，影响船只的机动能力。通过全面理解这一术语，海军建筑师和海员可以共同努力，提高海事操作的安全性和效率。随着船舶的不断发展，围绕舵轴力矩的原则将继续成为有效船舶管理和导航实践的基石。