longitudinal framed ship

简明释义

纵向构架船

英英释义

例句

1.A longitudinal framed ship 纵向框架船 can be more easily repaired after sustaining damage.

一艘纵向框架船 longitudinal framed ship在受损后可以更容易地修复。

2.The construction of a longitudinal framed ship 纵向框架船 requires skilled labor and advanced materials.

建造一艘纵向框架船 longitudinal framed ship需要熟练的劳动力和先进的材料。

3.Engineers prefer a longitudinal framed ship 纵向框架船 for its efficient load distribution.

工程师更喜欢使用纵向框架船 longitudinal framed ship，因为它能有效分配载荷。

4.The design of a longitudinal framed ship 纵向框架船 allows for greater structural integrity in rough seas.

一种纵向框架船 longitudinal framed ship的设计使其在恶劣海况下具有更大的结构完整性。

5.The stability of a longitudinal framed ship 纵向框架船 is enhanced by its design characteristics.

一艘纵向框架船 longitudinal framed ship的稳定性因其设计特性而增强。

作文

The concept of a longitudinal framed ship is essential in the field of naval architecture and marine engineering. A longitudinal framed ship refers to a type of vessel that utilizes a structural framework oriented primarily along the length of the ship, providing significant strength and stability. This design contrasts with transverse framing, where the structure is oriented across the width of the ship. Understanding the advantages and applications of a longitudinal framed ship can help us appreciate modern shipbuilding techniques and their evolution over time.One of the primary benefits of a longitudinal framed ship is its ability to better withstand the stresses encountered during navigation. Ships are constantly subjected to various forces, including waves, wind, and cargo loads. The longitudinal framing system distributes these forces more evenly across the hull, reducing the likelihood of structural failure. This is particularly important for larger vessels that operate in rough seas or carry heavy loads, as the integrity of the ship is crucial for safety and performance.Additionally, a longitudinal framed ship can offer improved hydrodynamic efficiency. The streamlined shape created by the longitudinal frames allows water to flow more smoothly around the hull, minimizing resistance and enhancing fuel efficiency. This is an important consideration in today’s maritime industry, where fuel costs and environmental impact are significant concerns. By optimizing the design of a longitudinal framed ship, shipbuilders can create vessels that are not only stronger but also more economical to operate.The construction process of a longitudinal framed ship involves careful planning and precision engineering. Shipbuilders must take into account various factors, such as the materials used, the size and purpose of the vessel, and the intended operating conditions. Typically, steel or aluminum is used for the frames due to their strength and durability. The frames are then welded or bolted together to form a robust skeleton that supports the entire structure of the ship.Moreover, the design flexibility offered by a longitudinal framed ship allows for customization based on specific needs. Different types of ships, such as cargo ships, tankers, and passenger vessels, can all benefit from this framing technique. For instance, a cargo ship may require additional reinforcement to handle heavy loads, while a passenger vessel may prioritize comfort and aesthetics. The versatility of the longitudinal framing system enables shipbuilders to cater to a wide range of requirements.In conclusion, the longitudinal framed ship represents a significant advancement in shipbuilding technology. Its structural integrity, hydrodynamic efficiency, and design flexibility make it a preferred choice for many modern vessels. As we continue to explore innovations in marine engineering, understanding the principles behind a longitudinal framed ship will be vital for future developments in the industry. The evolution of ship design reflects our ongoing quest for safety, efficiency, and sustainability on the open seas.

“纵向框架船”的概念在海洋建筑和海洋工程领域中至关重要。“纵向框架船”指的是一种主要沿船舶长度方向利用结构框架的船只，这种设计提供了显著的强度和稳定性。这种设计与横向框架形成对比，后者是指结构跨越船舶宽度方向。理解“纵向框架船”的优势和应用可以帮助我们欣赏现代造船技术及其随时间演变的过程。“纵向框架船”的主要优点之一是它能够更好地承受航行过程中遇到的压力。船舶不断受到各种力量的影响，包括波浪、风力和货物负载。纵向框架系统将这些力量更均匀地分布在船体上，减少了结构失效的可能性。这对于在恶劣海域作业或承载重负荷的大型船舶尤为重要，因为船舶的完整性对安全和性能至关重要。此外，“纵向框架船”还可以提供更好的水动力效率。纵向框架所形成的流线型形状使水能够更平滑地流过船体，最小化阻力并增强燃油效率。这在当今的海事行业中是一个重要的考虑因素，因为燃料成本和环境影响都是重要问题。通过优化“纵向框架船”的设计，造船商可以制造出不仅更坚固而且更经济的船舶。“纵向框架船”的建造过程需要精心规划和精准工程。造船商必须考虑各种因素，例如所用材料、船只的大小和用途，以及预期的操作条件。通常，钢或铝被用于框架，因为它们具有强度和耐用性。然后将框架焊接或螺栓连接在一起，形成一个坚固的骨架，以支撑船舶的整个结构。此外，“纵向框架船”提供的设计灵活性允许根据特定需求进行定制。不同类型的船舶，如货船、油轮和客船，都可以从这种框架技术中受益。例如，一艘货船可能需要额外的强化以处理重负荷，而一艘客船可能优先考虑舒适性和美观性。纵向框架系统的多功能性使造船商能够满足广泛的需求。总之，“纵向框架船”代表了造船技术的重要进步。其结构完整性、水动力效率和设计灵活性使其成为许多现代船舶的首选。随着我们继续探索海洋工程的创新，理解“纵向框架船”背后的原理对于未来行业的发展至关重要。船舶设计的演变反映了我们在开放海域上对安全、效率和可持续性的持续追求。