waterline plane

简明释义

水线面

英英释义

例句

1.During the shipbuilding process, engineers must ensure that the hull is constructed above the waterline plane 水线面.

在造船过程中，工程师必须确保船体的构造位于水线面 水线面之上。

2.The waterline plane 水线面 serves as a reference point for measuring the stability of floating structures.

对于测量浮动结构的稳定性，水线面 水线面作为参考点。

3.The architect designed the building to align with the waterline plane 水线面 for optimal drainage.

建筑师设计了这座建筑，使其与水线面 水线面对齐，以实现最佳排水。

4.In hydrodynamics, understanding the waterline plane 水线面 is crucial for predicting wave behavior.

在流体动力学中，理解水线面 水线面对于预测波浪行为至关重要。

5.The designer marked the waterline plane 水线面 on the model to indicate where the water would meet the boat.

设计师在模型上标记了水线面 水线面，以指示水将与船只接触的位置。

作文

The concept of a waterline plane is crucial in various fields, particularly in naval architecture and marine engineering. Essentially, a waterline plane refers to the horizontal plane that is formed at the water's surface when a vessel is floating. This plane serves as a reference point for determining how a ship sits in the water, which is vital for understanding its stability and buoyancy. When designing a ship, engineers must consider the waterline plane to ensure that the vessel can carry its intended load without capsizing or sinking.In naval architecture, the waterline plane is often used to calculate the hull's shape and volume. The shape of the hull below the waterline plane significantly affects the ship's performance, including speed and fuel efficiency. A well-designed hull will allow the vessel to cut through the water smoothly, reducing drag and enhancing overall performance. Therefore, understanding the dynamics of the waterline plane is essential for creating efficient and safe vessels.Moreover, the waterline plane plays an important role in stability assessments. Stability is a critical factor in ship design, as it determines how well a vessel can return to an upright position after being tilted by waves or wind. The center of gravity and the center of buoyancy are both related to the waterline plane, and engineers must carefully analyze these factors to ensure that a ship remains stable under various conditions. If a ship's center of gravity is too high, it may become top-heavy and prone to capsizing, while a low center of gravity can enhance stability.In addition to its importance in design and engineering, the waterline plane also has practical implications for ship operation. For instance, when loading cargo, crew members must ensure that the weight is distributed evenly to maintain the vessel's balance relative to the waterline plane. Uneven weight distribution can lead to listing, where one side of the ship tilts downwards, potentially causing dangerous situations.Furthermore, the waterline plane is a key consideration during dry-docking or maintenance operations. When a ship is out of the water, technicians must assess the hull's condition above and below the waterline plane. Any damage or corrosion that occurs below this plane can compromise the vessel's integrity and safety once it is back in the water.In summary, the waterline plane is a fundamental concept in maritime studies, influencing the design, stability, and operation of vessels. A thorough understanding of this term allows naval architects and marine engineers to create safer and more efficient ships. As the maritime industry continues to evolve, the importance of the waterline plane will remain significant, ensuring that vessels are capable of navigating the world's waters effectively and safely.

“水线面”这一概念在多个领域中至关重要，特别是在海洋建筑和海洋工程方面。基本上，“水线面”指的是当船只漂浮时，在水面上形成的水平面。这个平面作为一个参考点，用于确定一艘船在水中的位置，这对于理解其稳定性和浮力至关重要。在设计船只时，工程师必须考虑“水线面”，以确保船只能够承载其预期的负载，而不会倾覆或沉没。在海洋建筑中，“水线面”常用于计算船体的形状和体积。水线面以下的船体形状对船只的性能有显著影响，包括速度和燃油效率。设计良好的船体将允许船只在水中顺利切入，减少阻力，提高整体性能。因此，理解“水线面”的动态对于创造高效和安全的船只至关重要。此外，“水线面”在稳定性评估中也发挥着重要作用。稳定性是船只设计中的关键因素，因为它决定了一艘船在波浪或风的影响下能否恢复到直立位置。重心和浮心都与“水线面”相关，工程师必须仔细分析这些因素，以确保船只在各种条件下保持稳定。如果船只的重心过高，它可能会变得头重脚轻，容易倾覆，而较低的重心则可以增强稳定性。除了在设计和工程中的重要性外，“水线面”在船只操作中也具有实际意义。例如，在装载货物时，船员必须确保重量均匀分布，以保持船只相对于“水线面”的平衡。不均匀的重量分布可能导致倾斜，即船只的一侧向下倾斜，可能导致危险情况。此外，“水线面”还是干船坞或维护操作中的关键考虑因素。当船只出水时，技术人员必须评估水线面以上和以下的船体状况。发生在该平面以下的任何损坏或腐蚀都可能在船只重新入水后危及其完整性和安全性。总之，“水线面”是海事研究中的基本概念，影响着船只的设计、稳定性和操作。对这一术语的透彻理解使海洋建筑师和海洋工程师能够创造出更安全、更高效的船只。随着海事行业的不断发展，“水线面”的重要性将继续显著，确保船只能够有效、安全地航行在世界的水域。