capsizing moment bar

简明释义

绞盘棒

英英释义

例句

1.In rough seas, the capsizing moment bar helps to prevent the yacht from overturning.

在波涛汹涌的海面上，翻覆力矩杆有助于防止游艇翻覆。

2.During the simulation, the capsizing moment bar played a crucial role in determining the ship's safety limits.

在模拟过程中，翻覆力矩杆在确定船舶安全极限中起到了关键作用。

3.The engineer calculated the angle of the capsizing moment bar to ensure the stability of the vessel.

工程师计算了翻覆力矩杆的角度，以确保船只的稳定性。

4.The design team focused on optimizing the capsizing moment bar for better performance under heavy loads.

设计团队专注于优化翻覆力矩杆以在重载下获得更好的性能。

5.Adjusting the position of the capsizing moment bar can significantly improve the balance of the boat.

调整翻覆力矩杆的位置可以显著改善船只的平衡。

作文

Understanding the concept of a capsizing moment bar is crucial for those involved in marine engineering and naval architecture. A capsizing moment bar refers to a structural component designed to prevent or mitigate the risk of a vessel capsizing due to various forces acting upon it. The safety and stability of ships, boats, and other floating structures are paramount, and the design of such components plays a vital role in ensuring that these vessels can withstand adverse conditions at sea. The capsizing moment bar functions by redistributing the weight and forces acting on a vessel during turbulent conditions. When a ship encounters strong winds or rough waves, the center of gravity shifts, creating a moment that can lead to capsizing. The capsizing moment bar helps counteract this force by providing additional stability. It acts as a counterbalance, effectively lowering the center of gravity and enhancing the vessel's overall stability. This is particularly important for smaller boats and vessels that may be more susceptible to tipping over. In the design process, engineers must consider various factors that contribute to the effectiveness of the capsizing moment bar. These include the materials used, the placement of the bar within the vessel, and its interaction with other structural elements. For example, a well-placed capsizing moment bar can significantly improve a vessel's ability to remain upright in high seas, while a poorly designed one may do little to enhance stability. Moreover, the implementation of a capsizing moment bar is not limited to just traditional vessels. With the advent of modern technology and materials, even recreational boats and personal watercraft can benefit from this innovation. Manufacturers are now incorporating advanced design techniques and simulations to optimize the performance of capsizing moment bars in various types of vessels. This ensures that they provide maximum safety without compromising on performance or aesthetics. In conclusion, the capsizing moment bar is an essential feature in the design of stable and safe maritime vessels. Its ability to counteract the forces that lead to capsizing is vital for the safety of passengers and cargo alike. As marine technology continues to evolve, the importance of understanding and implementing effective solutions like the capsizing moment bar cannot be overstated. It represents a significant advancement in naval architecture, contributing to safer navigation and enhanced performance on the water. By prioritizing the design and integration of capsizing moment bars, we can ensure that our vessels are better equipped to handle the challenges posed by the unpredictable nature of the sea.

理解翻覆力矩杆的概念对于参与海洋工程和船舶设计的人来说至关重要。翻覆力矩杆是指一种结构组件，旨在防止或减轻由于各种作用力对船只造成翻覆风险。船只、船艇和其他浮动结构的安全与稳定至关重要，而这种组件的设计在确保这些船只能够抵御海上恶劣条件方面发挥着重要作用。

翻覆力矩杆通过重新分配在湍流条件下作用于船只的重量和力量来发挥作用。当船只遇到强风或波涛汹涌时，重心会发生变化，产生可能导致翻覆的力矩。翻覆力矩杆通过提供额外的稳定性来帮助抵消这种力量。它充当一个平衡物，有效地降低重心，并增强船只的整体稳定性。这对于较小的船只和可能更容易倾覆的船只尤为重要。

在设计过程中，工程师必须考虑影响翻覆力矩杆有效性的各种因素。这些包括所用材料、杆在船只内部的放置以及其与其他结构元素的相互作用。例如，一个设计良好的翻覆力矩杆可以显著提高船只在高海中的保持直立的能力，而一个设计不当的杆可能对增强稳定性几乎没有作用。

此外，翻覆力矩杆的应用并不仅限于传统船只。随着现代技术和材料的出现，即使是休闲船只和个人水上交通工具也可以从这一创新中受益。制造商现在正在采用先进的设计技术和模拟来优化不同类型船只中翻覆力矩杆的性能。这确保了它们在不妨碍性能或美观的情况下提供最大安全性。

总之，翻覆力矩杆是稳定和安全的海洋船只设计中的一个重要特征。它抵消导致翻覆的力量的能力对于乘客和货物的安全至关重要。随着海洋技术的不断发展，理解和实施像翻覆力矩杆这样的有效解决方案的重要性不容低估。它代表了船舶建筑领域的一项重大进展，为水上更安全的航行和性能提升做出了贡献。通过优先考虑翻覆力矩杆的设计和整合，我们可以确保我们的船只更好地应对大海不可预测的挑战。