rudder plate

简明释义

舵板舵叶

英英释义

例句

1.After the accident, the rudder plate showed significant damage that needed immediate attention.

事故后，舵板显示出明显的损坏，需要立即处理。

2.The engineer inspected the rudder plate for any signs of corrosion.

工程师检查了舵板是否有腐蚀迹象。

3.The rudder plate is crucial for maintaining the vessel's direction in rough waters.

舵板对于在恶劣水域中保持船只方向至关重要。

4.During the repair, we had to replace the damaged rudder plate to ensure proper steering.

在修理过程中，我们必须更换损坏的舵板以确保正确的操控。

5.The boat's performance improved significantly after adjusting the angle of the rudder plate.

在调整了舵板的角度后，船只的性能显著提高。

作文

The design and functionality of a boat or ship are heavily reliant on various components that ensure its effective navigation. One such critical component is the rudder plate, which plays a vital role in steering and maneuverability. Understanding the importance of the rudder plate not only enhances our knowledge of maritime engineering but also illustrates the intricate balance between design and performance in aquatic vehicles.A rudder plate is essentially a flat surface attached to the stern of a vessel, designed to control its direction by redirecting the flow of water. When a captain wishes to turn the ship, they manipulate the rudder plate by turning the steering wheel, which causes the plate to pivot. This action changes the water flow around the hull and creates lateral forces that push the ship in the desired direction. Without a properly functioning rudder plate, a vessel would be nearly impossible to steer, leading to potential navigational hazards.The materials used to construct a rudder plate can vary based on the size and type of the vessel. For smaller boats, lightweight materials such as aluminum or fiberglass may be sufficient. However, larger ships often require more robust materials like stainless steel or specialized composites to withstand the harsh marine environment. The durability of the rudder plate is crucial, as it must endure constant exposure to water, corrosion, and the physical forces generated during navigation.In addition to its material composition, the shape and size of the rudder plate significantly affect a ship's performance. A larger rudder plate can provide greater steering control, especially at lower speeds, while a smaller plate may enhance speed but could compromise maneuverability. Naval architects spend considerable time analyzing these factors to design vessels that meet specific operational requirements. The relationship between the rudder plate and the rest of the ship's hull is another essential aspect of this design process. A well-integrated rudder plate will minimize drag and maximize efficiency, allowing for smoother navigation and fuel savings.Moreover, advancements in technology have led to innovative designs and materials for rudder plates. Some modern vessels utilize active control systems that adjust the angle of the rudder plate automatically based on real-time data from sensors. This technology allows for quicker and more precise maneuvers, enhancing safety and operational efficiency.In conclusion, the rudder plate is a fundamental component of any maritime vessel, serving as the primary means of steering and control. Its design, material, and integration with the ship's overall structure are crucial for effective navigation. As technology continues to evolve, the rudder plate will undoubtedly see further improvements, ensuring safer and more efficient travel across our oceans. Understanding the rudder plate not only provides insight into maritime engineering but also highlights the importance of innovation in enhancing the capabilities of seafaring vessels.

船只或舰艇的设计和功能在很大程度上依赖于各种组件，这些组件确保其有效导航。其中一个关键组件是舵板，它在操控和机动性方面发挥着重要作用。理解舵板的重要性不仅增强了我们对海洋工程的认识，还说明了水上交通工具中设计与性能之间的复杂平衡。舵板本质上是附加在船尾的平面，旨在通过重新引导水流来控制方向。当船长希望转向时，他们通过转动方向盘来操纵舵板，这使得舵板发生偏转。这一动作改变了船体周围的水流，并产生横向力，推动船只朝着所需的方向前进。如果没有正常运作的舵板，船只几乎无法操控，从而导致潜在的航行危险。制造舵板所用的材料可以根据船只的大小和类型而有所不同。对于较小的船只，轻质材料如铝或玻璃纤维可能就足够了。然而，较大的船只通常需要更坚固的材料，如不锈钢或专门的复合材料，以承受恶劣的海洋环境。舵板的耐用性至关重要，因为它必须经受住持续的水流、腐蚀和在航行过程中产生的物理力量。除了材料组成外，舵板的形状和大小对船只的性能也有显著影响。较大的舵板可以提供更大的操控能力，特别是在低速时，而较小的舵板可能会提高速度，但可能会妨碍机动性。海军建筑师花费大量时间分析这些因素，以设计符合特定操作要求的船只。舵板与船体其余部分之间的关系是这一设计过程的另一个重要方面。良好集成的舵板将最小化阻力并最大化效率，从而实现更顺畅的导航和节省燃料。此外，技术的进步已导致舵板的创新设计和材料。一些现代船只利用主动控制系统，根据传感器的实时数据自动调整舵板的角度。这项技术允许更快速和更精确的操控，提高了安全性和操作效率。总之，舵板是任何海洋船只的基本组件，作为主要的操控和控制手段。它的设计、材料和与船只整体结构的整合对有效导航至关重要。随着技术的不断发展，舵板无疑会看到进一步的改进，从而确保我们海洋旅行的安全和高效。理解舵板不仅提供了对海洋工程的深入了解，还突显了创新在提升海上交通工具能力方面的重要性。