depth of ship-girder

简明释义

船体桁高

英英释义

例句

1.Adjusting the depth of ship-girder can significantly affect the overall strength of the ship's structure.

调整船梁的深度会显著影响船体结构的整体强度。

2.The engineer calculated the depth of ship-girder to ensure the vessel's stability during heavy seas.

工程师计算了船梁的深度以确保船只在恶劣海况下的稳定性。

3.A greater depth of ship-girder can provide additional support for heavy cargo.

更大的船梁的深度可以为重型货物提供额外支持。

4.The depth of ship-girder must comply with international maritime regulations.

要符合国际海事法规，船梁的深度必须达标。

5.During the design phase, the depth of ship-girder was optimized for weight reduction.

在设计阶段，船梁的深度经过优化以减少重量。

作文

The construction and design of ships are complex processes that require a deep understanding of various engineering principles. One crucial aspect of ship design is the structural integrity provided by components such as the girder. The term depth of ship-girder refers to the vertical distance between the top and bottom flanges of a ship's girder, which plays a significant role in determining the strength and stability of the vessel. In naval architecture, this measurement is essential for ensuring that the ship can withstand the stresses and strains it encounters during its service life.When engineers design a ship, they must consider various factors that influence the depth of ship-girder. These factors include the type of materials used, the intended use of the ship, and the environmental conditions it will face. For example, a cargo ship designed to carry heavy loads may require a deeper girder to support the additional weight. Conversely, a smaller vessel used for leisure activities might not need as much depth, allowing for a lighter and more agile design.The importance of the depth of ship-girder extends beyond mere aesthetics or weight considerations. A properly sized girder contributes to the overall safety of the ship. If the girder is too shallow, it may lead to structural failures under stress, potentially resulting in catastrophic consequences. On the other hand, an excessively deep girder can add unnecessary weight, affecting the ship's buoyancy and fuel efficiency. Therefore, finding the right balance is critical.In addition to structural considerations, the depth of ship-girder also impacts the ship's performance. For instance, a deeper girder can enhance the vessel's ability to resist bending and torsional forces, which are common during rough sea conditions. This resilience is vital for maintaining the ship's course and ensuring the safety of its crew and cargo. Moreover, a well-designed girder can improve the ship's overall hydrodynamics, leading to better fuel efficiency and speed.Modern advancements in materials science have also influenced how engineers approach the depth of ship-girder. With the introduction of high-strength materials, designers can create lighter yet stronger girders. This innovation allows for greater flexibility in design, enabling ships to be constructed with optimal depth without sacrificing structural integrity. As a result, naval architects can push the boundaries of traditional ship design, creating vessels that are not only safe but also more efficient and environmentally friendly.In conclusion, the depth of ship-girder is a fundamental aspect of ship design that affects the vessel's strength, stability, and performance. Understanding this concept is essential for naval architects and marine engineers as they strive to create safer and more efficient ships. As technology continues to evolve, the methods for determining and implementing the ideal girder depth will undoubtedly advance, leading to even more innovative designs in the maritime industry.

船舶的建造和设计是一个复杂的过程，需要深入理解各种工程原理。船舶设计中的一个关键方面是由肋梁等组件提供的结构完整性。术语ship-girder的深度指的是船舶肋梁顶部和底部法兰之间的垂直距离，这在确定船舶的强度和稳定性方面起着重要作用。在海军建筑中，这一测量对于确保船舶能够承受其服役期间遇到的压力和应变至关重要。当工程师设计船舶时，他们必须考虑影响ship-girder的深度的各种因素。这些因素包括所用材料的类型、船舶的预期用途以及它将面临的环境条件。例如，设计用于承载重货的货船可能需要更深的肋梁以支撑额外的重量。相反，用于休闲活动的小型船只可能不需要如此深的肋梁，从而允许更轻便、更灵活的设计。ship-girder的深度的重要性不仅仅体现在美观或重量考虑上。适当尺寸的肋梁有助于船舶的整体安全。如果肋梁过浅，可能会导致在压力下发生结构失效，潜在地导致灾难性后果。另一方面，过深的肋梁会增加不必要的重量，影响船舶的浮力和燃油效率。因此，找到正确的平衡至关重要。除了结构考虑外，ship-girder的深度还会影响船舶的性能。例如，更深的肋梁可以增强船舶抵抗弯曲和扭转力的能力，这在恶劣海况下很常见。这种韧性对于保持船舶航向和确保船员及货物的安全至关重要。此外，设计良好的肋梁可以改善船舶的整体水动力学，带来更好的燃油效率和速度。现代材料科学的进步也影响了工程师对ship-girder的深度的处理。随着高强度材料的引入，设计师可以制造出更轻但更强的肋梁。这种创新使得设计的灵活性更大，使船舶可以在不牺牲结构完整性的情况下构建出最佳深度。因此，海军建筑师可以突破传统船舶设计的界限，创造出不仅安全而且更加高效和环保的船舶。总之，ship-girder的深度是船舶设计的基本方面，影响着船舶的强度、稳定性和性能。理解这一概念对于海军建筑师和海洋工程师来说至关重要，因为他们努力创造更安全、更高效的船舶。随着技术的不断发展，确定和实施理想肋梁深度的方法无疑会不断进步，从而在海事行业中推动更具创新性的设计。