rudder moment

简明释义

转舵力矩

英英释义

例句

1.The engineer calculated the optimal rudder moment 舵力矩 needed for the new vessel design.

工程师计算了新船设计所需的最佳舵力矩。

2.A larger rudder can produce a greater rudder moment 舵力矩, enhancing the ship's turning capabilities.

更大的舵可以产生更大的舵力矩，增强船只的转向能力。

3.During the simulation, we noticed how the rudder moment 舵力矩 affected the aircraft's stability.

在模拟过程中，我们注意到舵力矩是如何影响飞机稳定性的。

4.Increasing the speed of the boat resulted in a higher rudder moment 舵力矩, improving maneuverability.

提高船只的速度导致更高的舵力矩，改善了机动性。

5.The pilot adjusted the controls to increase the rudder moment 舵力矩, allowing for sharper turns.

飞行员调整控制以增加舵力矩，使得转弯更加灵活。

作文

In the world of naval architecture and marine engineering, the concept of rudder moment plays a crucial role in understanding how ships maneuver in water. The rudder moment refers to the torque generated by the rudder when it is turned to change the direction of the vessel. This torque is essential for effective steering, particularly in challenging conditions such as strong currents or high winds. Understanding this principle allows engineers and sailors alike to design better vessels and improve navigational techniques.When a ship is in motion, the water flows over the rudder, creating a force that pushes it in the opposite direction of the rudder's angle. This interaction produces the rudder moment, which is a function of several factors, including the speed of the vessel, the size and shape of the rudder, and the angle at which it is turned. For instance, a larger rudder can produce a greater rudder moment, allowing for sharper turns and better control. Conversely, if the rudder is too small or not positioned correctly, the rudder moment may be insufficient, leading to sluggish handling and difficulty in navigating tight spaces.The importance of the rudder moment becomes even more apparent in various maritime scenarios. For example, during docking maneuvers, precise control is necessary to avoid collisions and ensure safe berthing. Here, the rudder moment must be carefully managed to allow for smooth and accurate movements. Similarly, in emergency situations where quick evasive action is required, the effectiveness of the rudder moment can determine whether a vessel successfully avoids danger or not.Moreover, the rudder moment is not only significant for traditional ships but also for modern vessels equipped with advanced technologies. With the advent of dynamic positioning systems and automated steering mechanisms, understanding the rudder moment remains vital. Engineers must consider how these systems interact with the physical forces acting on the rudder to ensure optimal performance.In addition to practical applications, the study of the rudder moment also has theoretical implications. It is an essential component of fluid dynamics, as it illustrates how objects interact with moving fluids. By analyzing the rudder moment, researchers can develop mathematical models to predict how changes in design or operational parameters will affect a vessel's performance. This knowledge contributes to advancements in ship design, making vessels safer and more efficient.In conclusion, the concept of rudder moment is fundamental to the field of marine navigation and engineering. It encompasses the forces and torques that enable ships to steer effectively and respond to environmental challenges. By mastering the intricacies of the rudder moment, both engineers and sailors can enhance their understanding of vessel dynamics, leading to improved safety and performance on the water. As we continue to innovate in marine technology, the significance of the rudder moment will undoubtedly remain a critical area of focus for future developments in maritime operations.

在海洋建筑和海洋工程的世界中，舵矩的概念在理解船只如何在水中操纵方面起着至关重要的作用。舵矩指的是舵在转动以改变船只方向时产生的扭矩。这种扭矩对于有效的操控至关重要，特别是在强流或大风等挑战性条件下。理解这一原理使工程师和水手能够设计更好的船只并改善导航技术。当船只在运动时，水流过舵，产生一个力，将其推向舵角的相反方向。这种相互作用产生了舵矩，它是多个因素的函数，包括船只的速度、舵的大小和形状，以及舵的转动角度。例如，较大的舵可以产生更大的舵矩，允许更急剧的转弯和更好的控制。相反，如果舵太小或位置不正确，舵矩可能不足，导致操控迟缓，难以在狭窄空间内导航。舵矩的重要性在各种海事场景中变得更加明显。例如，在靠泊操作期间，需要精确控制以避免碰撞并确保安全停靠。在这里，舵矩必须得到仔细管理，以便实现平稳和准确的移动。同样，在需要快速避险的紧急情况下，舵矩的有效性可以决定一艘船是否成功避免危险。此外，舵矩不仅对传统船只重要，对于配备先进技术的现代船只也是如此。随着动态定位系统和自动驾驶机制的出现，理解舵矩仍然至关重要。工程师必须考虑这些系统与作用于舵的物理力如何相互作用，以确保最佳性能。除了实际应用外，舵矩的研究也具有理论意义。它是流体动力学的一个重要组成部分，因为它说明了物体如何与流动的流体相互作用。通过分析舵矩，研究人员可以开发数学模型来预测设计或操作参数的变化将如何影响船只的性能。这一知识有助于船舶设计的进步，使船只更安全、更高效。总之，舵矩的概念是海洋导航和工程领域的基础。它涵盖了使船只能够有效操纵和应对环境挑战的力量和扭矩。通过掌握舵矩的复杂性，工程师和水手都可以增强对船舶动力学的理解，从而提高水上安全性和性能。随着我们在海洋技术方面的不断创新，舵矩的重要性无疑将继续成为未来海事操作发展的关键关注领域。