load line
简明释义
载重线
英英释义
例句
1.Before departure, it's crucial to mark the load line on the vessel.
在出发之前,标记船只上的负载线至关重要。
2.The engineer checked the load line to ensure the ship was not overloaded.
工程师检查了负载线以确保船只没有超载。
3.During inspections, authorities often look for the correct load line marking.
在检查过程中,相关部门通常会查看正确的负载线标记。
4.If the water level rises above the load line, the vessel could be in danger.
如果水位超过负载线,船只可能会处于危险之中。
5.The load line indicates the maximum safe limit for cargo on a ship.
该负载线指示了船只上货物的最大安全限制。
作文
The concept of a load line is crucial in various fields, particularly in engineering and maritime industries. A load line refers to a specific mark on a ship's hull that indicates the maximum depth to which a vessel can be safely loaded. This mark ensures that the ship maintains stability and buoyancy while at sea. Understanding the importance of the load line helps prevent accidents and ensures the safety of both the vessel and its crew. In maritime law, the load line is often referred to as the 'Plimsoll Line,' named after Samuel Plimsoll, who advocated for safer shipping practices in the 19th century. The line is typically painted on the side of the ship and varies depending on the type of water in which the vessel will operate—freshwater or saltwater—as well as the season. For instance, a ship may have different load lines for summer and winter to account for changes in water density and environmental conditions. When a ship exceeds its load line, it risks becoming unstable, which could lead to capsizing or sinking. Therefore, it is essential for ship operators to carefully monitor their cargo and ensure compliance with the load line regulations. This practice is not only a legal requirement but also a fundamental aspect of responsible maritime operations.Beyond maritime applications, the term load line can also be applied in engineering contexts. In electrical engineering, for example, a load line can represent a graphical depiction of the relationship between the voltage and current in a circuit. This graphical representation helps engineers understand how a circuit operates under different load conditions. By analyzing the load line, engineers can determine the optimal operating point for a device, ensuring efficiency and performance.Moreover, in mechanical engineering, the concept of a load line can refer to the line of action of forces acting on a structure. Understanding the load line in this context is vital for ensuring that structures can withstand the forces they encounter without failing. Engineers use calculations based on the load line to design buildings, bridges, and other structures that are safe and durable.In conclusion, the term load line holds significant importance across various domains, from maritime safety to electrical and mechanical engineering. Whether it is ensuring that a ship is loaded safely or optimizing the performance of an electrical circuit, understanding the load line is essential for professionals in these fields. By adhering to load line regulations and principles, we can promote safety, efficiency, and reliability in our engineering practices and maritime operations. As we continue to advance in technology and engineering, the concept of the load line will remain a fundamental aspect of ensuring that our systems operate safely and effectively.
“载重线”的概念在各个领域中都至关重要,特别是在工程和海事行业。“载重线”是指船体上的特定标记,表示船只可以安全装载的最大深度。这个标记确保船舶在海上保持稳定性和浮力。理解“载重线”的重要性有助于防止事故,确保船只及其船员的安全。在海事法中,“载重线”通常被称为“普林索尔线”,以19世纪提倡更安全航运实践的塞缪尔·普林索尔的名字命名。这个线条通常绘制在船的侧面,并根据船舶将要操作的水域类型(淡水或盐水)以及季节而有所不同。例如,船舶可能会在夏季和冬季有不同的“载重线”,以考虑水密度和环境条件的变化。当船舶超过其“载重线”时,可能会面临不稳定的风险,这可能导致倾覆或沉没。因此,船舶运营商必须仔细监控其货物,并确保遵守“载重线”法规。这一做法不仅是法律要求,也是负责任的海事操作的基本方面。除了海事应用外,“载重线”一词在工程上下文中也可以应用。在电气工程中,例如,“载重线”可以表示电路中电压与电流之间关系的图形表示。这种图形表示帮助工程师理解电路在不同负载条件下的工作方式。通过分析“载重线”,工程师可以确定设备的最佳工作点,从而确保效率和性能。此外,在机械工程中,“载重线”的概念可以指作用于结构的力的作用线。在这种情况下理解“载重线”对于确保结构能够承受所遇到的力量而不发生失效至关重要。工程师使用基于“载重线”的计算来设计建筑、桥梁和其他安全耐用的结构。总之,“载重线”一词在各个领域中都具有重要意义,从海事安全到电气和机械工程。无论是确保船舶安全装载,还是优化电路的性能,理解“载重线”对这些领域的专业人士来说都是必不可少的。通过遵循“载重线”的规定和原则,我们可以促进工程实践和海事操作中的安全、效率和可靠性。随着我们在技术和工程领域的不断进步,“载重线”的概念将继续成为确保我们的系统安全有效运行的基本方面。
