side intercostal keelson

简明释义

间断边内龙骨

英英释义

例句

1.When designing the hull, the side intercostal keelson 侧肋龙骨 must be carefully integrated into the structure.

在设计船体时，侧肋龙骨必须仔细整合到结构中。

2.The maintenance crew focused on reinforcing the side intercostal keelson 侧肋龙骨 to prevent any structural failures.

维护团队专注于加固侧肋龙骨以防止任何结构故障。

3.During the inspection, we found that the side intercostal keelson 侧肋龙骨 was corroded and needed replacement.

在检查过程中，我们发现侧肋龙骨已经腐蚀，需要更换。

4.The shipwright emphasized the importance of a robust side intercostal keelson 侧肋龙骨 for stability at sea.

造船师强调了坚固的侧肋龙骨对海上稳定性的重要性。

5.The engineer explained how the side intercostal keelson 侧肋龙骨 contributes to the overall strength of the vessel.

工程师解释了如何通过侧肋龙骨来增强船只的整体强度。

作文

The construction of ships has always fascinated engineers and designers alike. One of the critical components in shipbuilding is the structural integrity provided by various elements, including beams, frames, and keels. Among these, the term side intercostal keelson refers to a specific structural element that plays a vital role in maintaining the hull's strength and stability. This essay aims to explore the significance of the side intercostal keelson in ship design and its contributions to maritime safety.To begin with, let us break down the term side intercostal keelson. The word 'keelson' itself denotes a longitudinal structural member that is typically placed on top of the keel, which is the backbone of the vessel. The keel provides the primary support for the ship's structure and aids in directional stability while navigating through water. The addition of the 'side intercostal' modifier indicates that this particular keelson is positioned laterally between the frames or ribs of the ship, enhancing the overall rigidity of the hull.The side intercostal keelson serves multiple purposes. Firstly, it helps distribute the loads experienced by the ship during its operation. When a vessel sails through rough waters, it encounters waves and currents that exert significant forces on its structure. The presence of the side intercostal keelson allows these forces to be evenly distributed across the hull, reducing the risk of localized stress that could lead to structural failure.Moreover, the side intercostal keelson contributes to the vessel's buoyancy. By reinforcing the hull, it ensures that the ship maintains its shape and does not sag under weight, which is crucial for keeping the vessel afloat. This aspect is particularly important for larger ships, where the risk of deformation due to heavy loads is greater.In addition to structural support, the side intercostal keelson also plays a role in enhancing the ship's overall performance. A well-designed keelson can improve hydrodynamics, allowing the vessel to cut through water more efficiently. This efficiency translates to better fuel economy and improved speed, which are essential factors for commercial shipping companies.Furthermore, the side intercostal keelson aids in the ship's resistance to torsional forces. When a ship navigates through waves, it experiences twisting motions that can place considerable strain on its structure. The presence of lateral supports like the side intercostal keelson helps mitigate these effects, ensuring that the ship remains stable and secure during its journey.In conclusion, the side intercostal keelson is an integral part of modern shipbuilding, contributing significantly to the vessel's strength, stability, and performance. Its ability to distribute loads, enhance buoyancy, and resist torsional forces makes it indispensable for maritime safety. As technology advances and ship designs evolve, understanding and optimizing the role of the side intercostal keelson will continue to be a priority for engineers and naval architects. Through careful consideration of such structural elements, we can ensure that our ships are not only efficient but also safe for the crews and cargo they carry across the world's oceans.

船舶的建造一直以来都令工程师和设计师着迷。船舶建造中一个关键的组成部分是通过各种元素（包括梁、框架和龙骨）提供的结构完整性。在这些元素中，术语侧间隔龙骨指的是一种特定的结构元素，它在保持船体强度和稳定性方面发挥着至关重要的作用。本文旨在探讨侧间隔龙骨在船舶设计中的重要性及其对海事安全的贡献。首先，让我们分解一下术语侧间隔龙骨。单词“龙骨”本身表示一种通常放置在龙骨顶部的纵向结构构件，龙骨是船只的脊梁。龙骨为船舶的结构提供了主要支持，并帮助在水中航行时保持方向稳定。“侧间隔”的修饰词表明，这种特定的龙骨是横向放置在船的框架或肋之间，增强了船体的整体刚性。侧间隔龙骨具有多重功能。首先，它有助于分配船舶在操作过程中所经历的负荷。当一艘船在波涛汹涌的水域航行时，会遇到波浪和水流，这些力量会对其结构施加重大影响。侧间隔龙骨的存在使这些力量能均匀分布在船体上，降低了局部应力导致结构失效的风险。此外，侧间隔龙骨还促进了船舶的浮力。通过增强船体的强度，它确保船舶保持形状，不会因重量下沉，这对于保持船舶漂浮至关重要。这一点对于较大的船舶尤为重要，因为重载导致变形的风险更大。除了结构支持外，侧间隔龙骨还在提升船舶整体性能方面发挥着作用。设计良好的龙骨可以改善水动力学，使船舶能够更高效地穿越水面。这种效率转化为更好的燃油经济性和提高的速度，对于商业航运公司来说至关重要。此外，侧间隔龙骨有助于船舶抵抗扭转力。当一艘船在波浪中航行时，会经历扭转运动，这可能对其结构造成相当大的压力。像侧间隔龙骨这样的横向支撑的存在有助于减轻这些影响，确保船舶在航程中保持稳定和安全。总之，侧间隔龙骨是现代船舶建造的重要组成部分，对船舶的强度、稳定性和性能做出了显著贡献。它分配负荷、增强浮力和抵抗扭转力的能力使其在海事安全中不可或缺。随着技术的进步和船舶设计的发展，理解和优化侧间隔龙骨的作用将继续成为工程师和海军建筑师的优先事项。通过对这些结构元素的仔细考虑，我们可以确保我们的船舶不仅高效，而且安全，能够在世界海洋中运输其船员和货物。