joggling of shell plate
简明释义
外板错折搭接
英英释义
例句
1.The report highlighted the joggling of shell plate as a critical factor in the failure analysis.
报告强调了壳板的抖动作为故障分析中的一个关键因素。
2.The engineer noted the joggling of shell plate during the inspection, indicating potential structural issues.
工程师在检查中注意到壳板的抖动,这表明可能存在结构问题。
3.To ensure safety, regular monitoring of the joggling of shell plate is essential in marine structures.
为了确保安全,定期监测壳板的抖动在海洋结构中是必不可少的。
4.The technician explained that the joggling of shell plate could lead to leaks if not addressed promptly.
技术人员解释说,如果不及时处理,壳板的抖动可能会导致泄漏。
5.During the construction process, we observed a slight joggling of shell plate that required immediate attention.
在施工过程中,我们观察到有轻微的壳板的抖动,需要立即处理。
作文
In the world of marine engineering and naval architecture, the term joggling of shell plate refers to the intricate process of shaping and fitting steel plates that form the hull of a ship. This technique is crucial for ensuring that the plates fit together seamlessly, providing both structural integrity and hydrodynamic efficiency. The joggling of shell plate involves creating specific bends or curves in the plates, allowing them to conform to the complex shapes required by the ship's design.The importance of this process cannot be overstated. A well-executed joggling of shell plate contributes significantly to the overall strength of the vessel. If the plates do not fit correctly, it can lead to weak points in the hull, which may compromise the safety and seaworthiness of the ship. Furthermore, improper fitting can result in increased drag while the ship is in motion, negatively impacting fuel efficiency and performance.To achieve a successful joggling of shell plate, shipbuilders must utilize advanced tools and techniques. Modern technology has introduced various methods such as CNC (Computer Numerical Control) machining, which allows for precise cuts and bends in the metal. However, traditional manual methods are still prevalent, especially in smaller shipyards where hands-on craftsmanship is valued. Skilled workers use hammers, jigs, and other tools to carefully shape each plate until it fits perfectly with its neighboring pieces.Another aspect of the joggling of shell plate process is the consideration of material properties. Different types of steel have varying degrees of malleability and tensile strength, which can affect how easily they can be shaped. Shipbuilders must select the appropriate materials based on the specific requirements of the vessel being constructed. This selection process is vital because it directly influences the durability and longevity of the ship.Moreover, the joggling of shell plate is not just a technical task; it also requires an understanding of the principles of fluid dynamics. Engineers must consider how water will interact with the hull, as this interaction is critical for the ship's performance. A poorly designed hull can create turbulence, leading to inefficiency and potential damage over time.In conclusion, the joggling of shell plate is a fundamental aspect of shipbuilding that combines technical skill, material science, and engineering principles. It is a testament to the craftsmanship involved in creating vessels that can withstand the harsh conditions of the sea. As technology continues to evolve, the techniques used in the joggling of shell plate will also advance, but the core principles will remain essential to the art of shipbuilding. Understanding this process is crucial for anyone interested in the maritime industry, as it highlights the complexity and precision required to create safe and efficient vessels.
在海洋工程和船舶建筑的世界中,术语壳板的拼接指的是塑造和安装构成船体的钢板的复杂过程。这项技术对于确保钢板无缝贴合至关重要,从而提供结构完整性和水动力效率。壳板的拼接涉及在钢板上制作特定的弯曲或曲线,使其能够适应船只设计所需的复杂形状。这一过程的重要性不容小觑。良好的壳板的拼接对船只的整体强度贡献显著。如果钢板没有正确贴合,可能会导致船体出现薄弱点,从而危及船只的安全性和适航性。此外,不当的贴合可能导致船只运动时的阻力增加,负面影响燃油效率和性能。为了实现成功的壳板的拼接,造船工人必须利用先进的工具和技术。现代科技引入了各种方法,例如CNC(计算机数控)加工,可以精确地切割和弯曲金属。然而,传统的手工方法仍然普遍存在,特别是在那些重视手工艺的小型船厂。熟练的工人使用锤子、夹具和其他工具,仔细塑造每块钢板,直到它与邻近的部分完美贴合。壳板的拼接过程的另一个方面是考虑材料特性。不同类型的钢具有不同的可塑性和抗拉强度,这会影响它们的成型难易程度。造船工人必须根据所建船只的具体要求选择适当的材料。这个选择过程至关重要,因为它直接影响到船只的耐用性和使用寿命。此外,壳板的拼接不仅仅是一项技术任务;它还需要理解流体动力学的原理。工程师必须考虑水如何与船体相互作用,因为这种相互作用对船只的性能至关重要。设计不良的船体可能会产生湍流,从而导致效率低下和潜在的长期损害。总之,壳板的拼接是造船的基本方面,结合了技术技能、材料科学和工程原理。它证明了创造能够承受海洋恶劣条件的船只所需的工艺水平。随着技术的不断发展,壳板的拼接中使用的技术也将不断进步,但核心原则仍然对造船艺术至关重要。理解这一过程对于任何对海事行业感兴趣的人来说都是至关重要的,因为它突显了创造安全高效船只所需的复杂性和精确性。
