intermediate stiffener

简明释义

中间加劲肋

英英释义

例句

1.The design specifications required an intermediate stiffener at every five meters for stability.

设计规范要求每五米设置一个中间加劲肋以确保稳定性。

2.The architect specified an intermediate stiffener to prevent buckling of the thin-walled sections.

建筑师指定一个中间加劲肋以防止薄壁部分的屈曲。

3.The engineer decided to add an intermediate stiffener to the beam to enhance its load-bearing capacity.

工程师决定在梁上添加一个中间加劲肋以增强其承载能力。

4.During the construction process, the team realized that adding an intermediate stiffener was necessary due to unexpected loads.

在施工过程中，团队意识到由于意外负荷，添加一个中间加劲肋是必要的。

5.Using an intermediate stiffener can significantly reduce deflection in long-span structures.

使用一个中间加劲肋可以显著减少长跨度结构的挠度。

作文

In the field of structural engineering, the term intermediate stiffener refers to a crucial component that enhances the rigidity and strength of various structures. These stiffeners are typically used in large-scale constructions, such as bridges, buildings, and ships, where maintaining structural integrity is paramount. The intermediate stiffener serves to distribute loads more evenly across the structure, preventing localized buckling and ensuring that the overall framework can withstand external forces. When designing a structure, engineers must consider the materials used and the expected loads that the structure will encounter throughout its lifespan. The incorporation of intermediate stiffeners allows for a more efficient use of materials, as they enable the design to use thinner plates or sections without compromising safety. This not only reduces material costs but also minimizes the overall weight of the structure, which can be particularly beneficial in applications like aerospace and automotive engineering, where weight reduction is critical.The placement of intermediate stiffeners is another vital aspect that engineers must address. They are strategically positioned at intervals along beams or panels to provide optimal support. If placed too far apart, the structure may become susceptible to bending or deformation under load. Conversely, if they are too closely spaced, it may lead to unnecessary material usage and increased costs. Therefore, a careful balance must be achieved through precise calculations and simulations during the design phase.In addition to their structural benefits, intermediate stiffeners can also play a role in enhancing the aesthetic appeal of a design. In architectural applications, these elements can be integrated into the overall visual design of a building, contributing to both functionality and style. For instance, exposed stiffeners can create an industrial look, appealing to modern architectural trends.Moreover, the use of intermediate stiffeners is not limited to traditional materials like steel or aluminum. Advances in composite materials have opened new avenues for their application. Composites can offer superior strength-to-weight ratios, making them ideal candidates for stiffeners in high-performance environments. Engineers are increasingly exploring these innovative materials to push the boundaries of what is possible in structural design.In conclusion, the role of the intermediate stiffener in structural engineering cannot be overstated. It is a fundamental element that contributes to the safety, efficiency, and aesthetics of various constructions. As technology advances and new materials emerge, the importance of understanding and effectively utilizing intermediate stiffeners will continue to grow, paving the way for more resilient and sustainable designs in the future.

在结构工程领域，术语中间加劲肋指的是一种增强各种结构刚度和强度的关键组件。这些加劲肋通常用于大型建筑，如桥梁、建筑物和船只，在这些地方，保持结构完整性至关重要。中间加劲肋有助于更均匀地分配结构上的荷载，防止局部屈曲，并确保整体框架能够承受外部力量。在设计结构时，工程师必须考虑所使用的材料以及结构在其生命周期内可能遇到的预期荷载。加入中间加劲肋可以更有效地利用材料，因为它们使设计能够使用更薄的板材或截面而不影响安全性。这不仅降低了材料成本，还最小化了结构的整体重量，这在航空航天和汽车工程等应用中尤其有益，因为减轻重量至关重要。中间加劲肋的放置也是工程师必须解决的另一个重要方面。它们被战略性地放置在梁或面板的间隔处，以提供最佳支持。如果放置得太远，结构可能会在荷载下变得容易弯曲或变形。相反，如果它们放置得太近，可能会导致不必要的材料使用和增加的成本。因此，必须通过精确的计算和模拟在设计阶段实现谨慎的平衡。除了结构上的好处之外，中间加劲肋还可以在增强设计美学方面发挥作用。在建筑应用中，这些元素可以融入建筑的整体视觉设计中，既有功能性又有风格。例如，暴露的加劲肋可以创造出工业外观，吸引现代建筑趋势。此外，中间加劲肋的使用并不限于传统材料如钢或铝。复合材料的进步为其应用开辟了新的途径。复合材料可以提供优越的强度与重量比，使其成为高性能环境中加劲肋的理想候选者。工程师们越来越多地探索这些创新材料，以推动结构设计可能性的边界。总之，中间加劲肋在结构工程中的作用不可低估。它是一个基本元素，对各种建筑的安全性、效率和美观性都有贡献。随着技术的进步和新材料的出现，理解和有效利用中间加劲肋的重要性将继续增长，为未来更具韧性和可持续的设计铺平道路。