statical heeling moment

简明释义

静横倾力矩

英英释义

例句

1.The statical heeling moment 静态倾斜力矩 is crucial for understanding how cargo distribution affects ship stability.

了解货物分配如何影响船舶稳定性时，statical heeling moment 静态倾斜力矩是至关重要的。

2.The vessel's stability can be assessed by calculating the statical heeling moment 静态倾斜力矩 during different loading conditions.

通过计算不同装载条件下的statical heeling moment 静态倾斜力矩，可以评估船只的稳定性。

3.During the stability test, we measured the statical heeling moment 静态倾斜力矩 at various angles of heel.

在稳定性测试中，我们测量了不同倾斜角度下的statical heeling moment 静态倾斜力矩。

4.A high statical heeling moment 静态倾斜力矩 can lead to capsizing if not managed properly.

如果管理不当，高的statical heeling moment 静态倾斜力矩可能导致翻船。

5.Engineers must consider the statical heeling moment 静态倾斜力矩 when designing the ship's hull.

工程师在设计船体时必须考虑statical heeling moment 静态倾斜力矩。

作文

In the field of naval architecture and marine engineering, understanding the stability of a vessel is crucial for ensuring safety at sea. One important concept that plays a significant role in determining a ship's stability is the statical heeling moment. The statical heeling moment refers to the torque or rotational force acting on a vessel due to an external force, such as wind or waves, which causes the ship to lean or heel over to one side. This moment is essential in assessing how well a ship can resist capsizing and maintain its upright position under various conditions.When a ship is subjected to lateral forces, such as those created by strong winds or uneven loading, it begins to heel. The statical heeling moment is calculated based on the weight distribution of the ship, the center of gravity, and the center of buoyancy. The center of gravity is the point where the total weight of the vessel is concentrated, while the center of buoyancy is the center of mass of the displaced water. The relationship between these two centers is vital in evaluating the ship's stability.For instance, if a ship has a high center of gravity, it will be more prone to heeling when subjected to lateral forces. Conversely, a lower center of gravity enhances stability and reduces the statical heeling moment. Therefore, naval architects strive to design vessels with an optimal weight distribution to minimize the risks associated with heeling.Moreover, the statical heeling moment can be affected by various factors, including the shape of the hull, the distribution of cargo, and the presence of external forces. Understanding these influences is essential for ship operators and designers alike. For example, during loading and unloading operations, careful consideration must be given to how cargo is placed within the ship to prevent excessive heeling. If the cargo is unevenly distributed, it can lead to a significant increase in the statical heeling moment, potentially resulting in dangerous situations at sea.Additionally, the statical heeling moment is not only relevant during normal sailing conditions but also during emergency situations. In the event of a sudden shift in cargo or a collision, the ability to manage the statical heeling moment becomes critical. Ship crews are trained to respond to such scenarios by adjusting ballast or redistributing cargo to restore balance and stability.In conclusion, the statical heeling moment is a fundamental aspect of maritime safety and vessel design. A thorough understanding of this concept allows naval architects and ship operators to create safer vessels capable of withstanding the forces encountered at sea. By carefully considering factors that influence the statical heeling moment, we can enhance the stability of ships, ensuring they remain upright and safe during their journeys across the ocean.

在海洋建筑和海洋工程领域，了解船舶的稳定性对于确保海上安全至关重要。一个在确定船舶稳定性方面发挥重要作用的概念是静态倾斜力矩。静态倾斜力矩是指由于外力（如风或波浪）作用于船舶而产生的扭矩或旋转力，这种力使船舶向一侧倾斜。这个力矩对于评估船舶在各种条件下抵抗翻覆和保持直立位置的能力至关重要。当船舶受到横向力的作用时，例如强风或不均匀装载所产生的力，它就会开始倾斜。静态倾斜力矩的计算基于船舶的重量分布、重心和浮心的位置。重心是船舶总重量集中所在的点，而浮心是排开的水的质量中心。这两个中心之间的关系对于评估船舶的稳定性至关重要。例如，如果一艘船具有较高的重心，当受到横向力的作用时，它将更容易倾斜。相反，较低的重心增强了稳定性，减少了静态倾斜力矩。因此，海洋建筑师努力设计出最佳重量分布的船舶，以最小化与倾斜相关的风险。此外，静态倾斜力矩可能受到多种因素的影响，包括船体的形状、货物的分布以及外力的存在。理解这些影响对于船舶操作员和设计师同样重要。例如，在装卸作业期间，必须仔细考虑货物在船舶内的放置方式，以防止过度倾斜。如果货物分布不均，可能会导致静态倾斜力矩显著增加，从而可能导致海上的危险情况。此外，静态倾斜力矩不仅与正常航行条件相关，也与紧急情况相关。在货物突然移动或碰撞的情况下，管理静态倾斜力矩的能力变得至关重要。船员接受培训以应对这种情况，通过调整压载物或重新分配货物来恢复平衡和稳定。总之，静态倾斜力矩是海事安全和船舶设计的基本方面。对这一概念的透彻理解使海洋建筑师和船舶操作员能够创建能够承受海上遇到的力量的更安全的船舶。通过仔细考虑影响静态倾斜力矩的因素，我们可以增强船舶的稳定性，确保它们在穿越海洋的旅程中保持直立和安全。