transom edge angle

简明释义

尾板与底板间角

英英释义

例句

1.Adjusting the transom edge angle 舷背边缘角度 is crucial for enhancing stability during high-speed maneuvers.

调整舷背边缘角度 对于提高高速机动时的稳定性至关重要。

2.The designer recommended a specific transom edge angle 舷背边缘角度 for the new yacht model.

设计师为新的游艇型号推荐了一个特定的舷背边缘角度 。

3.A steeper transom edge angle 舷背边缘角度 can lead to increased drag on the vessel.

更陡的舷背边缘角度 可能导致船只的阻力增加。

4.Engineers often measure the transom edge angle 舷背边缘角度 to ensure optimal hull design.

工程师们经常测量舷背边缘角度 以确保最佳船体设计。

5.The boat's performance improved significantly after adjusting the transom edge angle 舷背边缘角度 for better water flow.

在调整了舷背边缘角度 以改善水流后，船只的性能显著提升。

作文

In the world of naval architecture and marine engineering, precision is paramount. One critical aspect that engineers must consider is the transom edge angle, which refers to the angle formed at the intersection of the transom and the hull of a vessel. This angle plays a significant role in determining the performance and stability of a boat or ship. Understanding the transom edge angle can help designers optimize a vessel's hydrodynamic efficiency, ensuring that it moves smoothly through water while minimizing drag. The transom edge angle is crucial for several reasons. Firstly, it affects the water flow around the stern of the vessel. A well-designed transom with an appropriate edge angle allows water to flow off the hull cleanly, reducing turbulence and improving speed. Conversely, if the angle is too steep or too shallow, it can create excessive drag, leading to decreased performance and increased fuel consumption. Thus, naval architects must carefully calculate the transom edge angle during the design phase to achieve optimal performance.Moreover, the transom edge angle influences the stability of the vessel. A properly designed transom can enhance the boat's ability to remain upright in various sea conditions. This is particularly important for smaller vessels that are more susceptible to capsizing. By adjusting the transom edge angle, engineers can improve the overall stability of the boat, making it safer for passengers and cargo.Additionally, the transom edge angle can impact the aesthetic appeal of the vessel. Many boat owners and manufacturers seek designs that are not only functional but also visually appealing. The angle at which the transom meets the hull can contribute significantly to the overall look of the boat. A sleek, well-proportioned transom can enhance the visual allure of a vessel, attracting potential buyers and increasing its market value.In practical terms, the measurement of the transom edge angle typically involves advanced software simulations and physical models. Engineers often use computational fluid dynamics (CFD) to simulate how different angles will affect water flow and performance. Through these simulations, they can make informed decisions about the best angle to use, balancing performance, stability, and aesthetics.In conclusion, the transom edge angle is a vital consideration in the design and construction of marine vessels. Its influence on hydrodynamics, stability, and aesthetics cannot be overstated. As technology advances, the methods used to calculate and optimize this angle will continue to evolve, leading to even more efficient and beautiful vessels. For those involved in naval architecture, mastering the intricacies of the transom edge angle is essential for creating successful designs that meet the demands of both performance and style.

在海洋建筑和海洋工程的世界中，精确性至关重要。工程师必须考虑的一个关键方面是transom edge angle，它指的是船体的横梁与船体交汇处形成的角度。这个角度在确定船舶的性能和稳定性方面发挥着重要作用。理解transom edge angle可以帮助设计师优化船舶的水动力效率，确保其在水中平稳移动，同时最小化阻力。transom edge angle对多个原因至关重要。首先，它影响水流在船尾周围的流动。设计良好的横梁，具有适当的边缘角度，可以使水顺利地从船体流出，减少湍流并提高速度。相反，如果角度过陡或过平，可能会产生过多的阻力，导致性能下降和燃料消耗增加。因此，海军建筑师必须在设计阶段仔细计算transom edge angle以实现最佳性能。此外，transom edge angle还影响船舶的稳定性。设计得当的横梁可以增强船只在各种海况下保持直立的能力。这对于较小的船舶尤为重要，因为它们更容易倾覆。通过调整transom edge angle，工程师可以改善船只的整体稳定性，使其对乘客和货物更安全。此外，transom edge angle可能会影响船舶的美观。许多船主和制造商寻求不仅功能齐全而且视觉吸引力强的设计。横梁与船体相交的角度可以显著影响船只的整体外观。流线型、比例协调的横梁可以增强船舶的视觉吸引力，吸引潜在买家并提高其市场价值。在实际操作中，transom edge angle的测量通常涉及先进的软件模拟和物理模型。工程师通常使用计算流体动力学（CFD）来模拟不同角度如何影响水流和性能。通过这些模拟，他们可以就使用最佳角度做出明智的决定，平衡性能、稳定性和美观。总之，transom edge angle是海洋船舶设计和建造中的一个重要考虑因素。它对水动力学、稳定性和美观的影响不容小觑。随着技术的进步，用于计算和优化该角度的方法将继续发展，从而导致更高效、更美丽的船舶。对于参与海军建筑的人来说，掌握transom edge angle的复杂性对于创造满足性能和风格要求的成功设计至关重要。