thickness ratio of rudder

简明释义

舵的展弦比

英英释义

例句

1.Engineers must consider the thickness ratio of rudder when optimizing for fuel efficiency during navigation.

工程师在优化航行时必须考虑舵的厚度比以提高燃油效率。

2.A higher thickness ratio of rudder may provide better strength but could also lead to increased drag.

更高的舵的厚度比可能提供更好的强度，但也可能导致阻力增加。

3.The design of the ship's steering system depends heavily on the thickness ratio of rudder, which can significantly affect maneuverability.

船舶的操纵系统设计在很大程度上依赖于舵的厚度比，这会显著影响操控性。

4.Adjusting the thickness ratio of rudder can help improve the response time of the steering system.

调整舵的厚度比可以帮助改善操纵系统的响应时间。

5.During testing, we found that the thickness ratio of rudder played a critical role in the vessel's stability.

在测试过程中，我们发现舵的厚度比在船只的稳定性中起着关键作用。

作文

The design and functionality of marine vessels are heavily influenced by various factors, one of which is the thickness ratio of rudder. This term refers to the proportion of the thickness of the rudder compared to its height or chord length. Understanding this ratio is crucial for naval architects and marine engineers as it plays a significant role in the performance and maneuverability of a ship. A well-designed rudder with an optimal thickness ratio of rudder can enhance a vessel's ability to steer effectively, especially in challenging maritime conditions.In practical terms, the thickness ratio of rudder affects the hydrodynamic properties of the rudder itself. A thicker rudder may provide increased strength and durability, which is essential for larger vessels that encounter rough seas. However, if the rudder is too thick, it can create excessive drag, leading to reduced efficiency and increased fuel consumption. Conversely, a rudder that is too thin may not withstand the forces exerted on it during operation, potentially leading to structural failure. Thus, finding the right balance is vital.Naval architects often use computational fluid dynamics (CFD) simulations to analyze how different thickness ratios of rudder influence water flow around the rudder. These simulations allow them to optimize the design before construction begins. The goal is to achieve a rudder that not only meets the strength requirements but also minimizes resistance, thereby improving overall vessel performance.Moreover, the thickness ratio of rudder can also impact the vessel's stability and control. A rudder that is designed with an appropriate thickness ratio will provide better feedback to the helm, allowing for more precise steering. This is particularly important for vessels operating in crowded waterways or during complex maneuvers such as docking or navigating through narrow channels.In conclusion, the thickness ratio of rudder is a critical factor in the design of marine vessels, influencing both their performance and safety. By carefully considering this ratio during the design process, engineers can ensure that the rudder will perform optimally under various conditions, enhancing the overall efficiency and safety of the vessel. As technology advances, the methods used to determine the ideal thickness ratio of rudder continue to evolve, leading to even more innovative designs in the maritime industry.

船舶的设计和功能受到多种因素的影响，其中一个重要因素是舵的厚度比。这个术语指的是舵的厚度与其高度或弦长的比例。理解这个比例对海军建筑师和海洋工程师至关重要，因为它在船舶的性能和机动性中起着重要作用。一个设计良好的舵，其最佳的舵的厚度比可以增强船舶在挑战性的海洋条件下的操控能力。在实际操作中，舵的厚度比影响着舵本身的流体动力特性。较厚的舵可能提供更大的强度和耐用性，这对于遇到恶劣海况的大型船舶来说至关重要。然而，如果舵过于厚重，可能会产生过大的阻力，从而降低效率并增加燃料消耗。相反，舵如果过于薄弱，可能无法承受在操作期间施加的力量，导致结构失效。因此，找到合适的平衡至关重要。海军建筑师通常使用计算流体动力学（CFD）模拟来分析不同的舵的厚度比如何影响水流绕过舵的情况。这些模拟使他们能够在建造开始之前优化设计。目标是实现一个不仅满足强度要求，而且最小化阻力的舵，从而改善整体船舶性能。此外，舵的厚度比还会影响船舶的稳定性和控制性。一个以适当厚度比设计的舵将为舵轮提供更好的反馈，使操控更加精确。这对于在拥挤的水道中航行或进行复杂操作（如停靠或穿过狭窄通道）特别重要。总之，舵的厚度比是船舶设计中的关键因素，影响着船舶的性能和安全性。通过在设计过程中仔细考虑这一比例，工程师可以确保舵在各种条件下都能最佳表现，从而增强船舶的整体效率和安全性。随着技术的进步，用于确定理想的舵的厚度比的方法也在不断演变，推动海事行业更具创新性的设计。