righting arm curve

简明释义

复原力臂曲线

英英释义

例句

1.During the safety briefing, the captain explained how the righting arm curve affects the boat's stability.

在安全简报中，船长解释了复位臂曲线如何影响船只的稳定性。

2.The righting arm curve of this catamaran allows it to recover quickly from heeling.

这艘双体船的复位臂曲线使其能够迅速从倾斜中恢复。

3.Understanding the righting arm curve is essential for optimizing the performance of racing boats.

理解复位臂曲线对于优化赛车艇的性能至关重要。

4.Engineers analyzed the righting arm curve to ensure the yacht would not capsize during high winds.

工程师分析了复位臂曲线，以确保游艇在强风中不会倾覆。

5.The design of the sailboat's hull incorporates a unique righting arm curve, allowing it to remain stable in rough seas.

这艘帆船的船体设计融入了独特的复位臂曲线，使其在恶劣海况下保持稳定。

作文

The concept of the righting arm curve is crucial in understanding the stability of floating bodies, particularly in naval architecture and marine engineering. This curve represents the relationship between the righting arm, which is the horizontal distance from the center of gravity to the center of buoyancy, and the angle of heel of a vessel. When a ship tilts or heels due to external forces, such as wind or waves, the righting arm curve illustrates how the righting moment changes with the angle of heel. A larger righting arm indicates a greater restoring force that helps bring the vessel back to an upright position.In practical terms, the righting arm curve is essential for ensuring that a ship remains stable under various conditions. Engineers and designers use this curve to assess the vessel's performance and safety. If the righting arm is too small at certain angles, it may indicate that the ship could capsize under specific circumstances. Therefore, understanding the righting arm curve is vital for designing ships that are not only functional but also safe for navigation.The shape of the righting arm curve can vary significantly depending on the design of the vessel. For instance, a sailboat typically has a different righting arm curve compared to a cargo ship. Sailboats, which often have a significant amount of sail area, may experience larger heeling angles and thus require a more pronounced righting arm to ensure they can recover from such angles. In contrast, cargo ships, which are designed to carry heavy loads, might have a flatter righting arm curve, indicating that their stability is more consistent across a range of angles.Moreover, the righting arm curve is influenced by several factors, including the distribution of weight onboard, the shape of the hull, and the location of the center of gravity. For example, if a ship carries cargo that shifts during transit, it can alter the center of gravity, thereby affecting the righting arm and potentially compromising stability. Thus, maritime operators must carefully monitor cargo distribution to maintain the integrity of the righting arm curve throughout a voyage.In conclusion, the righting arm curve is a fundamental aspect of naval architecture that plays a critical role in the safety and stability of vessels. By analyzing this curve, engineers can predict how a ship will behave in various conditions and make informed decisions during the design process. Understanding the righting arm curve not only aids in creating safer ships but also enhances overall maritime safety, helping to prevent accidents and ensuring the well-being of both crew and cargo. The importance of this concept cannot be overstated, as it serves as a guiding principle in the ongoing development of marine technology and shipbuilding practices.

“右ing臂曲线”的概念对于理解漂浮物体的稳定性至关重要，特别是在海洋建筑和海洋工程中。该曲线表示右ing臂（从重心到浮力中心的水平距离）与船只倾斜角度之间的关系。当船只因外部力量（如风或波浪）倾斜或倾斜时，“右ing臂曲线”说明右ing力矩如何随倾斜角度变化。较大的右ing臂表示更大的恢复力，有助于将船只恢复到直立位置。在实际应用中，“右ing臂曲线”对确保船只在各种条件下保持稳定至关重要。工程师和设计师使用这条曲线来评估船只的性能和安全性。如果在某些角度下右ing臂过小，可能表明船只在特定情况下会翻覆。因此，了解“右ing臂曲线”对于设计不仅功能强大而且安全的航行船只至关重要。“右ing臂曲线”的形状因船只设计而异。例如，帆船与货船的右ing臂曲线通常不同。帆船通常具有大量的帆面，可能会经历较大的倾斜角度，因此需要更明显的右ing臂以确保它们能够从这些角度恢复。相比之下，货船的设计是为了运输重载，可能具有较平坦的“右ing臂曲线”，这表明它们在一系列角度下的稳定性更一致。此外，“右ing臂曲线”受到多个因素的影响，包括船上重量的分布、船体的形状以及重心的位置。例如，如果船只在运输过程中承载的货物发生位移，可能会改变重心，从而影响右ing臂并可能危及稳定性。因此，海事运营商必须仔细监测货物分配，以保持整个航程中的“右ing臂曲线”的完整性。总之，“右ing臂曲线”是海洋建筑的一个基本方面，在船只的安全性和稳定性中发挥着关键作用。通过分析这条曲线，工程师可以预测船只在各种条件下的行为，并在设计过程中做出明智的决策。了解“右ing臂曲线”不仅有助于创造更安全的船只，还增强了整体海事安全，有助于防止事故并确保船员和货物的福祉。这个概念的重要性不容低估，因为它作为海洋技术和造船实践持续发展的指导原则。