through plate center keelson

简明释义

中央立龙骨

英英释义

例句

1.We installed additional supports around the through plate center keelson to enhance its load-bearing capacity.

我们在通板中心龙骨周围安装了额外的支撑，以增强其承载能力。

2.The design specifications highlighted the importance of the through plate center keelson in preventing hull deformation.

设计规格强调了通板中心龙骨在防止船体变形中的重要性。

3.The engineer explained how the through plate center keelson contributes to the overall stability of the vessel.

工程师解释了通板中心龙骨如何有助于船只的整体稳定性。

4.The structural integrity of the ship was ensured by the design of the through plate center keelson.

船只的结构完整性通过通板中心龙骨的设计得以保证。

5.During the inspection, we found that the through plate center keelson needed reinforcement.

在检查过程中，我们发现通板中心龙骨需要加固。

作文

In the world of naval architecture and marine engineering, understanding the terminology is crucial for effective communication and design. One such term that often comes up in discussions about shipbuilding and structural integrity is through plate center keelson. This phrase refers to a specific structural component in a vessel's design. The keelson is an essential part of the ship's backbone, running along the length of the vessel at the bottom. It provides strength and stability, ensuring the ship can withstand the stresses of the sea. The term through plate center keelson indicates that there is a plate that passes through the center of the keelson, reinforcing its structural capabilities.The importance of the through plate center keelson cannot be overstated. In a ship, the keelson serves as a critical element that connects various parts of the hull, distributing loads and providing a solid foundation for other components. By incorporating a plate that runs through the center of the keelson, engineers can enhance the load-bearing capacity of this vital structure. This is particularly important in larger vessels, where the forces acting on the hull can be significant. Without adequate reinforcement, a ship may suffer from structural failure, leading to catastrophic consequences.Furthermore, the design of the through plate center keelson must take into account various factors, including the materials used, the expected loads, and the environmental conditions the vessel will face. For instance, ships operating in harsh marine environments require stronger materials and more robust designs to ensure longevity and safety. Engineers must carefully calculate the dimensions and specifications of the through plate center keelson to ensure it meets the necessary standards for performance and durability.In addition to its structural role, the through plate center keelson also plays a part in the overall efficiency of the ship. A well-designed keelson can improve hydrodynamics, reducing drag and enhancing fuel efficiency. This is increasingly important in today's maritime industry, where the push for sustainability and cost-effectiveness is paramount. By optimizing the design of the through plate center keelson, shipbuilders can contribute to the overall performance of the vessel, making it not only safer but also more economical to operate.Moreover, the integration of advanced technologies in shipbuilding has revolutionized the way we approach designs like the through plate center keelson. With the advent of computer-aided design (CAD) and simulation tools, engineers can create more complex and efficient structures than ever before. These technologies allow for precise modeling of the forces acting on the keelson, enabling engineers to predict how modifications will impact the overall integrity of the vessel. As a result, the modern through plate center keelson is often a product of extensive research and development, reflecting the latest advancements in materials science and engineering principles.In conclusion, the term through plate center keelson encapsulates a vital aspect of ship design and construction. Understanding its significance helps us appreciate the complexities involved in building safe and efficient vessels. As the maritime industry continues to evolve, the role of structural elements like the through plate center keelson will remain critical in ensuring that ships can navigate the seas safely and effectively. Therefore, knowledge of such terms is essential for anyone involved in naval architecture or marine engineering, as it lays the foundation for effective design and communication in this specialized field.

在海洋建筑和海洋工程的世界中，理解术语对于有效的沟通和设计至关重要。一个经常出现在船舶建造和结构完整性讨论中的术语是through plate center keelson。这个短语指的是船舶设计中的一个特定结构组件。龙骨条是船体底部沿船长方向延伸的重要部分，提供强度和稳定性，确保船舶能够承受海洋的压力。术语through plate center keelson表示有一块板穿过龙骨条的中心，增强其结构能力。through plate center keelson的重要性不容小觑。在船舶中，龙骨条作为连接船体各部分的关键元素，分配载荷并为其他组件提供坚实基础。通过在龙骨条的中心加入一块板，工程师可以增强这一重要结构的承载能力。这在较大的船舶中尤为重要，因为作用于船体的力量可能相当大。如果没有足够的加固，船舶可能会遭受结构失效，导致灾难性后果。此外，through plate center keelson的设计必须考虑各种因素，包括所用材料、预期载荷以及船舶将面临的环境条件。例如，在恶劣的海洋环境中运营的船舶需要更强的材料和更坚固的设计，以确保其耐久性和安全性。工程师必须仔细计算through plate center keelson的尺寸和规格，以确保其符合性能和耐久性的必要标准。除了结构作用外，through plate center keelson还在船舶的整体效率中发挥着作用。设计良好的龙骨条可以改善水动力学，减少阻力，提高燃油效率。在当今海事行业中，这一点越来越重要，因为对可持续性和经济性的追求至关重要。通过优化through plate center keelson的设计，造船商可以提高船舶的整体性能，使其不仅更安全，而且更具经济性。此外，先进技术在船舶建造中的整合革命性地改变了我们对像through plate center keelson这样的设计的处理方式。随着计算机辅助设计（CAD）和仿真工具的出现，工程师可以创造比以往更复杂和高效的结构。这些技术允许对作用于龙骨条的力量进行精确建模，使工程师能够预测修改将如何影响船舶的整体完整性。因此，现代的through plate center keelson往往是广泛研究和开发的产物，反映了材料科学和工程原理的最新进展。总之，术语through plate center keelson概括了船舶设计和建造中的一个重要方面。理解其重要性帮助我们欣赏构建安全高效船舶过程中涉及的复杂性。随着海事行业的不断发展，结构元素如through plate center keelson的角色将在确保船舶安全有效地航行海洋中继续至关重要。因此，了解这些术语对于任何参与海洋建筑或海洋工程的人来说都是必不可少的，因为它为在这个专业领域内的有效设计和沟通奠定了基础。