longitudinal framed vessel

简明释义

纵骨架式船

英英释义

例句

1.In naval architecture, a longitudinal framed vessel is often more stable than other designs.

在船舶设计中，纵向框架船舶通常比其他设计更稳定。

2.Engineers prefer longitudinal framed vessels for their ability to distribute weight evenly.

工程师更喜欢纵向框架船舶，因为它们能够均匀分配重量。

3.The hull of the longitudinal framed vessel was reinforced to improve its durability.

这艘纵向框架船舶的船体经过加固以提高其耐用性。

4.The ship was designed as a longitudinal framed vessel, ensuring it could withstand the stresses of rough seas.

这艘船被设计为纵向框架船舶，确保能够承受恶劣海况的压力。

5.The construction of a longitudinal framed vessel requires precise calculations and skilled labor.

建造纵向框架船舶需要精确的计算和熟练的劳动力。

作文

The maritime industry has seen significant advancements in ship design and construction over the years. One of the most innovative concepts that emerged is the longitudinal framed vessel, which has transformed the way ships are built and operated. This type of vessel utilizes a framework that runs along the length of the ship, providing enhanced structural integrity and stability. The longitudinal framed vessel (纵向框架船) is particularly advantageous for larger ships, as it allows for greater flexibility in design while maintaining strength. In traditional shipbuilding methods, the frames were often constructed in a transverse manner, leading to potential weaknesses in the hull. However, with the introduction of the longitudinal framed vessel, engineers have been able to create a more robust structure that can withstand the harsh conditions of the sea. This design not only improves the vessel's durability but also contributes to better hydrodynamic performance. One of the key benefits of the longitudinal framed vessel is its ability to distribute stresses more evenly across the hull. By aligning the frames longitudinally, the vessel can handle heavy loads without compromising its shape or integrity. This is especially important in commercial shipping, where cargo loads can vary significantly. The enhanced load distribution provided by the longitudinal framed vessel ensures that the ship remains stable and seaworthy under various conditions. Moreover, the construction process of a longitudinal framed vessel is often more efficient than traditional methods. The use of longitudinal frames allows for modular construction techniques, where sections of the ship can be built separately and then assembled. This not only speeds up the building process but also reduces costs associated with labor and materials. Additionally, the modular approach enables easier repairs and modifications, as individual sections can be replaced without affecting the entire vessel. Environmental concerns are also addressed through the design of the longitudinal framed vessel. With the focus on improving fuel efficiency and reducing emissions, the streamlined shape of these vessels helps them glide through the water more smoothly. This reduces drag and allows for lower fuel consumption, which is crucial in an industry that is increasingly scrutinized for its environmental impact. In conclusion, the longitudinal framed vessel represents a significant evolution in shipbuilding technology. Its advantages in terms of structural integrity, load distribution, construction efficiency, and environmental impact make it a preferred choice for modern maritime operations. As the industry continues to innovate, the longitudinal framed vessel will likely play a pivotal role in shaping the future of shipping and transportation on the high seas. Understanding this concept is essential for anyone involved in marine engineering or ship design, as it encapsulates the advancements that have been made to ensure safer and more efficient vessels.

海洋工业在船舶设计和建造方面经历了显著的进步。其中一个新兴的创新概念是纵向框架船，它改变了船舶的建造和操作方式。这种类型的船舶利用沿船长方向的框架，提供了增强的结构完整性和稳定性。纵向框架船（longitudinal framed vessel）对于大型船舶尤其有利，因为它允许在保持强度的同时实现更大的设计灵活性。在传统的造船方法中，框架通常是横向构建的，这可能导致船体的潜在弱点。然而，随着纵向框架船的引入，工程师们能够创建一种更坚固的结构，可以承受海洋的恶劣条件。这种设计不仅改善了船舶的耐用性，还有助于更好的水动力性能。纵向框架船的一个关键好处是它能够更均匀地分配船体上的应力。通过将框架纵向排列，船舶可以在不影响其形状或完整性的情况下承载重载。这在商业航运中尤为重要，因为货物负载可能会有显著变化。纵向框架船所提供的增强负载分布确保船舶在各种条件下保持稳定和适航。此外，纵向框架船的建造过程通常比传统方法更高效。使用纵向框架允许模块化建造技术，其中船舶的各个部分可以单独建造，然后组装。这不仅加快了建造过程，还减少了与劳动力和材料相关的成本。此外，模块化方法使得维修和改装更加简单，因为可以在不影响整个船舶的情况下更换单个部分。环境问题也通过纵向框架船的设计得到了关注。随着对提高燃油效率和减少排放的关注，这些船舶的流线型形状帮助它们在水中更平稳地滑行。这减少了阻力，并允许更低的燃料消耗，这在一个日益受到环境影响审查的行业中至关重要。总之，纵向框架船代表了造船技术的重要演变。它在结构完整性、负载分配、建造效率和环境影响等方面的优势，使其成为现代海事操作的首选。随着行业的不断创新，纵向框架船可能在塑造未来的航运和高海运输中发挥关键作用。理解这一概念对于任何参与海洋工程或船舶设计的人来说都是至关重要的，因为它概括了为确保更安全和更高效的船舶而取得的进步。