transversely stiffened plate

简明释义

横向加强肋板

英英释义

例句

1.During the analysis, it was found that the transversely stiffened plates significantly improved the overall rigidity of the structure.

在分析过程中发现，横向加劲板显著提高了结构的整体刚度。

2.In the construction of the ship's hull, engineers opted for transversely stiffened plates to withstand harsh marine conditions.

在船体的建造中，工程师选择了横向加劲板以抵御恶劣的海洋条件。

3.Manufacturing transversely stiffened plates requires precise welding techniques to ensure their effectiveness.

制造横向加劲板需要精确的焊接技术以确保其有效性。

4.The use of transversely stiffened plates in the building's framework allows for greater resistance to lateral forces.

在建筑框架中使用横向加劲板可以更好地抵抗横向力。

5.The design of the bridge included a series of transversely stiffened plates to enhance stability under load.

这座桥的设计包括一系列横向加劲板以增强在荷载下的稳定性。

作文

The study of structural engineering often involves various components designed to withstand different types of loads and forces. One such component is the transversely stiffened plate, which plays a crucial role in enhancing the load-bearing capacity of structures. A transversely stiffened plate refers to a flat surface that has been reinforced with stiffeners placed perpendicular to the primary loading direction. This reinforcement helps distribute stresses more evenly across the plate, thus preventing failure under heavy loads.In practical applications, transversely stiffened plates are commonly used in shipbuilding, aerospace, and civil engineering. For instance, in shipbuilding, the hull of a ship often incorporates transversely stiffened plates to ensure that it can withstand the immense pressures exerted by water and cargo. The stiffeners not only add strength but also help maintain the shape of the plate under various conditions, such as waves and impacts.Moreover, understanding the behavior of transversely stiffened plates under different loading conditions is essential for engineers. They must consider factors such as the material properties, the spacing and size of the stiffeners, and the overall geometry of the plate. Finite element analysis (FEA) is frequently employed to simulate how these plates will perform under stress, allowing engineers to optimize their designs before construction begins.The design of a transversely stiffened plate is not just about adding stiffeners; it involves a careful balance between weight and strength. Engineers strive to use the least amount of material necessary to achieve the desired strength, which can lead to more efficient and cost-effective structures. Consequently, innovations in materials science have led to the development of lighter yet stronger materials, further enhancing the performance of transversely stiffened plates.In summary, the concept of a transversely stiffened plate is integral to modern engineering practices. Its ability to improve load distribution and structural integrity makes it a vital component in various industries. As technology advances, the methods for analyzing and designing these plates continue to evolve, ensuring that they meet the demands of increasingly complex and challenging environments. Understanding the principles behind transversely stiffened plates is essential for any aspiring engineer, as it lays the foundation for creating safe and efficient structures that can endure the test of time.

结构工程的研究通常涉及设计用于承受不同类型荷载和力量的各种组件。其中一个组件是横向加固板，它在增强结构的承载能力方面发挥着至关重要的作用。横向加固板指的是一种平面，其上垂直于主要荷载方向设置了加固件。这种加固帮助更均匀地分配板上的应力，从而防止在重负荷下发生失效。在实际应用中，横向加固板常用于造船、航空航天和土木工程等领域。例如，在造船中，船体通常采用横向加固板，以确保其能够承受水和货物施加的巨大压力。加固件不仅增加了强度，还帮助在波浪和冲击等各种条件下维持板的形状。此外，了解横向加固板在不同荷载条件下的行为对工程师来说至关重要。他们必须考虑材料特性、加固件的间距和尺寸以及板的整体几何形状等因素。有限元分析（FEA）常被用来模拟这些板在应力下的表现，使工程师能够在施工开始之前优化他们的设计。横向加固板的设计不仅仅是增加加固件；它涉及重量和强度之间的微妙平衡。工程师努力使用最少的材料来达到所需的强度，这可以导致更高效和更具成本效益的结构。因此，材料科学的创新导致了更轻但更强的材料的发展，进一步增强了横向加固板的性能。总之，横向加固板的概念是现代工程实践中不可或缺的一部分。它改善荷载分布和结构完整性的能力使其成为各个行业的重要组成部分。随着技术的进步，分析和设计这些板的方法不断演变，确保它们满足日益复杂和具有挑战性的环境的要求。理解横向加固板背后的原理对于任何有志于成为工程师的人来说都是必不可少的，因为它为创造安全和高效的结构奠定了基础，这些结构能够经受住时间的考验。