rudder bearding

简明释义

舵前缘

英英释义

例句

1.The boat's performance was affected by the rudder bearding 舵刮痕 caused by rough seas.

由于恶劣海况，船只的性能受到舵刮痕的影响。

2.We need to inspect the rudder bearding 舵刮痕 before taking the vessel out for a long journey.

在带船出远航之前，我们需要检查一下舵刮痕。

3.To improve maneuverability, we must address the rudder bearding 舵刮痕 issue immediately.

为了提高机动性，我们必须立即解决舵刮痕的问题。

4.The technician explained that rudder bearding 舵刮痕 can lead to increased drag and reduced speed.

技术员解释说，舵刮痕会导致阻力增加和速度降低。

5.After the storm, the captain noticed significant rudder bearding 舵刮痕 on the hull.

风暴过后，船长注意到船体上有明显的舵刮痕。

作文

In the world of maritime navigation, various terms and phrases are used to describe specific components and features of a ship. One such term is rudder bearding, which refers to the design and construction of the rudder, particularly how it is shaped and fitted to the hull of the vessel. Understanding rudder bearding is essential for shipbuilders, engineers, and navigators alike, as it plays a crucial role in the performance and maneuverability of a ship.The rudder is a vital part of any vessel, responsible for steering and controlling its direction. The term rudder bearding specifically highlights the area where the rudder meets the hull. This junction can significantly affect the hydrodynamics of the ship, influencing how water flows around the stern and how effectively the rudder can redirect the vessel. A well-designed rudder bearding can enhance the overall efficiency of the ship, allowing for smoother navigation and improved fuel economy.Historically, the design of rudders has evolved significantly. Early vessels often featured simple, flat rudders that were attached directly to the hull. However, as ships became larger and more complex, the need for better steering mechanisms led to innovations in rudder design. Rudder bearding has become an important consideration in modern shipbuilding, as engineers strive to create rudders that provide optimal performance while minimizing drag and resistance.One of the key aspects of rudder bearding is the angle at which the rudder is mounted. The angle can affect how quickly and sharply a ship can turn. A steeper angle may allow for sharper turns but can also increase drag, slowing the vessel down. Conversely, a shallower angle may reduce drag but could result in less responsive steering. Thus, finding the right balance in rudder bearding is crucial for achieving the desired performance characteristics of a ship.Additionally, the materials used in constructing the rudder and its beard are also significant. Modern ships often utilize advanced materials that are both lightweight and durable, allowing for greater flexibility in design. For instance, composite materials can be used to create a rudder bearding that is both strong and efficient, reducing the overall weight of the vessel and enhancing its speed and agility.Moreover, the maintenance of the rudder bearding is equally important. Over time, wear and tear can affect the integrity of the rudder and its connection to the hull. Regular inspections and maintenance can help ensure that the rudder remains in optimal condition, preventing issues that could arise from a poorly maintained rudder bearding. Ship operators must be vigilant about this aspect to ensure the safety and performance of their vessels.In conclusion, rudder bearding is a critical concept in maritime navigation and ship design. Its implications on the performance, efficiency, and safety of a vessel cannot be overstated. As technology continues to advance, the understanding and application of rudder bearding will likely evolve, leading to even more innovative designs and improved capabilities for ships navigating our oceans. Whether you are a shipbuilder, engineer, or navigator, grasping the intricacies of rudder bearding will undoubtedly enhance your knowledge and appreciation of maritime craftsmanship.

在海洋导航的世界中，使用各种术语和短语来描述船只的特定组件和特征。其中一个术语是舵须，指的是舵的设计和构造，特别是它的形状以及与船体的配合。理解舵须对于船舶制造商、工程师和导航员来说至关重要，因为它在船舶的性能和机动性中发挥着关键作用。舵是任何船只的重要组成部分，负责引导和控制其方向。术语舵须特别强调舵与船体相接的区域。这个交界处会显著影响船舶的水动力学，影响水流如何绕过船尾，以及舵如何有效地重新引导船只。设计良好的舵须可以提高船舶的整体效率，使导航更加顺畅，并改善燃油经济性。从历史上看，舵的设计经历了显著的演变。早期的船只通常采用简单的平面舵，直接附加到船体上。然而，随着船只变得越来越大和复杂，对更好操控机制的需求促使了舵设计的创新。舵须已成为现代造船中的一个重要考虑因素，工程师们努力创造出提供最佳性能的舵，同时最小化阻力和抵抗。舵须的一个关键方面是舵的安装角度。这个角度会影响船只转向的速度和灵活性。较陡的角度可能允许更急剧的转弯，但也可能增加阻力，从而减慢船速。相反，较浅的角度可能减少阻力，但可能导致转向不够灵敏。因此，在舵须中找到正确的平衡对于实现船舶所需的性能特征至关重要。此外，构建舵及其须的材料也非常重要。现代船只通常采用先进的材料，这些材料既轻便又耐用，从而在设计上提供更大的灵活性。例如，复合材料可用于创建既坚固又高效的舵须，减少船只的整体重量，提高其速度和敏捷性。此外，维护舵须同样重要。随着时间的推移，磨损会影响舵及其与船体的连接的完整性。定期检查和维护可以确保舵保持最佳状态，防止因维护不善的舵须而出现的问题。船舶操作员必须对此保持警惕，以确保船舶的安全和性能。总之，舵须是海洋导航和船舶设计中的一个关键概念。它对船舶性能、效率和安全性的影响不可低估。随着技术的不断进步，对舵须的理解和应用可能会发展，导致更具创新性的设计和改进的船舶能力，无论你是船舶制造商、工程师还是导航员，掌握舵须的细微差别无疑会增强你对海洋工艺的知识和欣赏。