web stiffener

简明释义

腹板加劲件

英英释义

例句

1.In the design phase, the team analyzed the placement of the web stiffener for optimal structural support.

在设计阶段，团队分析了腹板加劲肋的位置，以实现最佳结构支撑。

2.The engineer decided to add a web stiffener to enhance the beam's load-bearing capacity.

工程师决定添加一个腹板加劲肋以增强梁的承载能力。

3.A properly installed web stiffener can significantly reduce deflection in long-span structures.

正确安装的腹板加劲肋可以显著减少大跨度结构的挠度。

4.During the inspection, the contractor was asked about the specifications of the web stiffener used.

在检查过程中，承包商被询问使用的腹板加劲肋的规格。

5.The construction manual provided detailed instructions on how to fabricate a web stiffener.

施工手册提供了关于如何制造腹板加劲肋的详细说明。

作文

In the field of structural engineering, the term web stiffener refers to a vital component used in various types of beams and structural frames. A web stiffener is designed to enhance the strength and stability of the web section of a beam, which is the vertical part that connects the top and bottom flanges. The web is crucial because it bears the shear forces acting on the beam, and without sufficient support, it may buckle under load. Therefore, implementing web stiffeners is an essential practice in ensuring the integrity of structures, especially in high-load scenarios.The importance of web stiffeners can be observed in several applications, such as bridges, buildings, and towers. For instance, in bridge construction, the beams must withstand not only the weight of the structure itself but also dynamic loads from vehicles and environmental factors like wind and earthquakes. By incorporating web stiffeners, engineers can significantly increase the load-bearing capacity of the beams, thus prolonging the lifespan of the structure and enhancing safety.Moreover, web stiffeners can be made from various materials, including steel, aluminum, or reinforced concrete, depending on the specific requirements of the project. The choice of material often depends on factors such as cost, weight, and the specific load conditions the structure will face. For example, in lightweight applications, aluminum web stiffeners might be preferred due to their lower density, while steel web stiffeners are often chosen for their superior strength and durability in heavy-duty applications.Furthermore, the design and placement of web stiffeners are critical. Engineers must carefully calculate the dimensions and positioning of these stiffeners to ensure they effectively counteract potential buckling and shear failures. This requires a deep understanding of structural mechanics and the behavior of materials under different loading conditions. Advanced computer modeling and simulation techniques are often employed to predict how the web stiffeners will perform under various stresses, allowing for optimized designs that maximize efficiency and safety.In summary, web stiffeners play a crucial role in the construction and design of structural elements. They provide necessary support to the web of beams, enhancing their performance and ensuring the overall stability of structures. As engineering practices continue to evolve, the use of advanced materials and innovative design techniques will likely lead to even more efficient and effective web stiffeners. Understanding the function and importance of web stiffeners is essential for anyone involved in the field of structural engineering, as they are key components in creating safe and reliable structures that meet the demands of modern society.

在结构工程领域，术语web stiffener指的是用于各种类型梁和结构框架的重要组成部分。web stiffener旨在增强梁的腹板部分的强度和稳定性，腹板是连接顶部和底部法兰的垂直部分。腹板至关重要，因为它承受作用在梁上的剪切力，如果没有足够的支撑，它可能会在负载下发生屈曲。因此，在确保结构的完整性时，实施web stiffeners是一项基本实践，尤其是在高负载情况下。web stiffeners的重要性可以在多个应用中观察到，例如桥梁、建筑物和塔楼。例如，在桥梁施工中，梁必须承受不仅是结构自身的重量，还有来自车辆的动态负载和风、地震等环境因素。通过结合web stiffeners，工程师可以显著提高梁的承载能力，从而延长结构的使用寿命并增强安全性。此外，web stiffeners可以由多种材料制成，包括钢、铝或钢筋混凝土，具体取决于项目的特定要求。材料的选择通常取决于成本、重量以及结构将面临的特定负载条件。例如，在轻量级应用中，铝web stiffeners可能由于其较低的密度而受到青睐，而钢web stiffeners通常因其在重型应用中的优越强度和耐用性而被选择。此外，web stiffeners的设计和放置至关重要。工程师必须仔细计算这些加劲肋的尺寸和位置，以确保它们有效对抗潜在的屈曲和剪切失效。这需要对结构力学和材料在不同加载条件下的行为有深刻的理解。先进的计算机建模和仿真技术通常被用来预测web stiffeners在各种应力下的表现，从而允许优化设计以最大限度地提高效率和安全性。总之，web stiffeners在结构元素的施工和设计中发挥着关键作用。它们为梁的腹板提供必要的支撑，增强其性能，确保结构的整体稳定性。随着工程实践的不断发展，先进材料和创新设计技术的使用可能会导致更高效、更有效的web stiffeners。理解web stiffeners的功能和重要性对于任何参与结构工程领域的人来说都是至关重要的，因为它们是创建满足现代社会需求的安全可靠结构的关键组成部分。