fabricated stern frame

简明释义

组合船尾肋骨

英英释义

例句

1.Engineers inspected the fabricated stern frame for any structural weaknesses before installation.

工程师在安装之前检查了制造船尾框架是否有任何结构弱点。

2.The shipyard completed the construction of the new vessel's fabricated stern frame.

船厂完成了新船的制造船尾框架的建造。

3.During the assembly process, each fabricated stern frame must be aligned precisely.

在组装过程中，每个制造船尾框架必须精确对齐。

4.The design of the fabricated stern frame allows for better hydrodynamic efficiency.

该制造船尾框架的设计提高了水动力效率。

5.After welding, the fabricated stern frame underwent rigorous testing to ensure durability.

焊接后，制造船尾框架经过严格测试以确保耐用性。

作文

The maritime industry is constantly evolving, with advancements in shipbuilding technology playing a crucial role in enhancing the efficiency and safety of vessels. One significant component in this realm is the fabricated stern frame, which serves as a vital structural element at the rear of a ship. Understanding the importance of the fabricated stern frame is essential for anyone involved in naval architecture or marine engineering. A fabricated stern frame refers to a custom-made structure that provides support and stability to the stern section of a ship. This frame is typically constructed using high-strength materials such as steel or aluminum, ensuring durability and resilience against harsh marine conditions. The fabrication process involves cutting, welding, and assembling various components to create a robust framework capable of withstanding the stresses encountered during navigation. The significance of the fabricated stern frame extends beyond mere structural integrity. It plays a crucial role in the overall performance of the vessel. A well-designed stern frame contributes to the ship's hydrodynamics, affecting how efficiently it moves through water. Poorly designed or fabricated stern frames can lead to increased drag, reduced fuel efficiency, and compromised maneuverability. Therefore, careful consideration must be given to the design and fabrication processes to ensure optimal performance. Moreover, the fabricated stern frame also supports other critical systems within the vessel, such as propulsion and steering mechanisms. The stern area houses the propeller, rudder, and various control systems, all of which require a stable foundation to function effectively. Without a properly fabricated stern frame, these systems may suffer from misalignment or excessive vibration, leading to operational failures and potential safety hazards. In addition to its functional roles, the fabricated stern frame can also influence the aesthetic aspects of a ship. Designers often consider the visual appeal of the stern frame when creating the overall look of the vessel. A well-crafted stern frame can enhance the ship's aesthetic value, making it more appealing to potential buyers or operators. As technology continues to advance, the methods used to fabricate stern frames are also evolving. Innovations such as computer-aided design (CAD) and automated manufacturing processes have improved the precision and efficiency of creating these structures. These technological advancements enable shipbuilders to produce lighter and stronger stern frames, further enhancing the performance and sustainability of modern vessels. In conclusion, the fabricated stern frame is a critical component in shipbuilding that directly impacts the performance, safety, and aesthetics of a vessel. Its importance cannot be overstated, as it provides the necessary support for essential systems and contributes to the overall efficiency of the ship. As the maritime industry continues to innovate, understanding the intricacies of the fabricated stern frame will remain vital for engineers and designers alike, ensuring the continued advancement of naval architecture and marine engineering.

海洋工业不断发展，船舶建造技术的进步在提高船只效率和安全性方面发挥着至关重要的作用。其中一个重要组成部分是制造的船尾框架，它作为船只后部的重要结构元素。理解制造的船尾框架的重要性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。制造的船尾框架是指提供支持和稳定性的定制结构，位于船只的尾部。这种框架通常使用高强度材料如钢或铝制成，以确保耐用性和抵御恶劣海洋条件的能力。制造过程包括切割、焊接和组装各种组件，以创建能够承受航行中遇到的压力的坚固框架。制造的船尾框架的重要性不仅仅体现在结构完整性上。它对船只的整体性能起着至关重要的作用。设计良好的船尾框架有助于船只的水动力学，影响其在水中移动的效率。设计不良或制造不当的船尾框架可能导致阻力增加、燃油效率降低以及操控性受损。因此，必须仔细考虑设计和制造过程，以确保最佳性能。此外，制造的船尾框架还支持船只内其他关键系统，如推进和转向机制。船尾区域容纳了螺旋桨、舵和各种控制系统，所有这些都需要一个稳定的基础才能有效运作。如果没有适当制造的船尾框架，这些系统可能会出现失调或过度振动，导致操作故障和潜在的安全隐患。除了功能角色外，制造的船尾框架还可以影响船只的美学方面。设计师在创建船只的整体外观时，往往会考虑船尾框架的视觉吸引力。精心制作的船尾框架可以增强船只的美学价值，使其对潜在买家或运营商更具吸引力。随着技术的不断进步，用于制造船尾框架的方法也在不断演变。计算机辅助设计（CAD）和自动化制造过程等创新提高了这些结构制造的精度和效率。这些技术进步使船舶制造商能够生产更轻、更强的船尾框架，进一步提高现代船只的性能和可持续性。总之，制造的船尾框架是船舶建造中的关键组成部分，直接影响船只的性能、安全性和美观性。其重要性不容小觑，因为它为基本系统提供必要的支持，并有助于船只的整体效率。随着海洋工业的不断创新，理解制造的船尾框架的复杂性将对工程师和设计师来说依然至关重要，以确保海洋建筑和海洋工程的持续进步。