longitudinal framed vessel

简明释义

纵骨架式船纵肋架式船

英英释义

例句

1.The research focused on optimizing the performance of longitudinal framed vessels 纵向框架船体 in turbulent waters.

研究集中在优化纵向框架船体 longitudinal framed vessels在湍急水域中的表现。

2.During the inspection, the engineer noted the durability of the longitudinal framed vessel 纵向框架船体 design.

在检查过程中，工程师注意到了纵向框架船体 longitudinal framed vessel设计的耐用性。

3.In marine engineering, a longitudinal framed vessel 纵向框架船体 is often preferred for its structural integrity.

在海洋工程中，纵向框架船体 longitudinal framed vessel因其结构完整性而常被优先选择。

4.The shipyard specializes in building longitudinal framed vessels 纵向框架船体 for both commercial and military purposes.

该造船厂专门建造用于商业和军事目的的纵向框架船体 longitudinal framed vessels。

5.The architect designed a beautiful longitudinal framed vessel 纵向框架船体 that could withstand harsh weather conditions.

建筑师设计了一艘美丽的纵向框架船体，longitudinal framed vessel能够抵御恶劣的天气条件。

作文

In the realm of naval architecture, the design and construction of ships play a crucial role in ensuring their functionality and durability. Among the various types of vessels, the longitudinal framed vessel stands out due to its unique structural characteristics. This type of vessel is primarily constructed using longitudinal frames that run parallel to the length of the ship, providing enhanced strength and stability. The use of such framing techniques allows for better distribution of stress and strain across the hull, making it particularly suitable for larger ships that must withstand the harsh conditions of the open sea.The concept of a longitudinal framed vessel can be traced back to traditional shipbuilding practices, where craftsmen relied on their experience and knowledge of materials to create seaworthy crafts. Unlike transverse framed vessels, which utilize cross frames to support the hull, the longitudinal framing method offers a more streamlined design. This is particularly beneficial for reducing hydrodynamic resistance, ultimately leading to improved fuel efficiency and speed.One of the significant advantages of a longitudinal framed vessel is its ability to handle heavy loads. The longitudinal frames provide a robust skeleton that supports the weight of cargo and equipment, ensuring the vessel remains stable even under challenging conditions. Additionally, this design minimizes the risk of hull deformation, which can occur due to excessive bending or twisting during navigation.Moreover, the maintenance of a longitudinal framed vessel tends to be more straightforward compared to other designs. Since the frames are aligned along the length of the ship, it is easier to inspect and repair any damage that may occur over time. This aspect is particularly important for commercial vessels that operate continuously and require regular upkeep to ensure safety and performance.As technology advances, the construction methods for longitudinal framed vessels have evolved significantly. Modern shipbuilders now utilize advanced materials such as high-strength steel and composite materials, which enhance the overall performance and longevity of the vessel. These innovations not only improve the structural integrity but also contribute to environmental sustainability by lowering emissions and reducing the ecological footprint of maritime operations.In conclusion, the longitudinal framed vessel represents a key innovation in ship design that combines strength, efficiency, and ease of maintenance. Its unique structural framework allows for better load distribution, making it an ideal choice for various maritime applications. As the shipping industry continues to evolve, the principles behind the longitudinal framed vessel will undoubtedly remain relevant, guiding future developments in naval architecture and engineering.

在海洋建筑领域，船舶的设计和建造在确保其功能性和耐用性方面发挥着至关重要的作用。在各种类型的船只中，纵向框架船舶因其独特的结构特征而脱颖而出。这种类型的船舶主要使用沿船长方向平行的纵向框架构建，提供增强的强度和稳定性。使用这种框架技术可以更好地分配船体上的应力和应变，使其特别适合必须承受开放海洋恶劣条件的大型船舶。纵向框架船舶的概念可以追溯到传统造船实践，当时工匠依靠他们的经验和材料知识来创造适航的船只。与使用横向框架支撑船体的横向框架船舶不同，纵向框架方法提供了更流线型的设计。这对于减少水动力阻力尤为有利，最终提高了燃油效率和速度。纵向框架船舶的一个显著优势是它能够处理重载。纵向框架提供了一个坚固的骨架，支撑货物和设备的重量，确保船舶即使在困难条件下也保持稳定。此外，这种设计最小化了船体变形的风险，这可能由于航行过程中过度弯曲或扭曲而发生。此外，与其他设计相比，维护纵向框架船舶往往更加简单。由于框架沿船舶长度对齐，因此更容易检查和修复随着时间推移可能发生的任何损坏。这一点对于持续运行且需要定期维护以确保安全和性能的商业船舶尤为重要。随着技术的进步，纵向框架船舶的建造方法也发生了显著变化。现代造船商现在利用高强度钢和复合材料等先进材料，提高了船舶的整体性能和耐用性。这些创新不仅改善了结构完整性，还通过降低排放和减少海洋操作的生态足迹，促进了环境可持续性。总之，纵向框架船舶代表了船舶设计中的一项关键创新，结合了强度、效率和易维护性。其独特的结构框架允许更好的负载分配，使其成为各种海事应用的理想选择。随着航运业的不断发展，纵向框架船舶背后的原则无疑将继续保持相关性，引导海洋建筑和工程的未来发展。