riveted steel girder

简明释义

铆接钢梁

英英释义

例句

1.The bridge was constructed using a strong riveted steel girder, which provides excellent support for heavy traffic.

这座桥是用坚固的铆接钢梁建造的，能够很好地支撑重型交通。

2.Engineers inspected the riveted steel girder for any signs of wear before the annual safety audit.

工程师在年度安全审计之前检查了铆接钢梁是否有磨损迹象。

3.The old factory was renovated, and a new riveted steel girder was installed to enhance its structural integrity.

旧工厂经过翻新，安装了一根新的铆接钢梁以增强其结构完整性。

4.During the construction of the skyscraper, workers carefully aligned each riveted steel girder to ensure stability.

在摩天大楼的建设过程中，工人们小心翼翼地对齐每根铆接钢梁以确保稳定性。

5.The design of the bridge featured multiple riveted steel girders to distribute the weight evenly.

这座桥的设计采用了多个铆接钢梁以均匀分配重量。

作文

The construction industry has always been at the forefront of innovation, and one of the most significant advancements in engineering is the use of riveted steel girders. These structural components are essential for supporting large buildings and bridges, providing the necessary strength and stability to withstand various loads. The term riveted steel girder refers to a beam made of steel that is joined together by rivets, which are metal pins used to hold the pieces tightly in place. This method of construction was particularly popular during the late 19th and early 20th centuries, a time when industrialization was rapidly changing the landscape of cities around the world.One of the primary advantages of using riveted steel girders is their ability to bear heavy loads. Steel, as a material, has an excellent strength-to-weight ratio, meaning it can support substantial weight without being excessively heavy itself. This characteristic makes it ideal for use in large structures where durability and safety are paramount. For instance, many iconic bridges and skyscrapers utilize riveted steel girders in their design, allowing them to reach great heights and span wide distances without compromising structural integrity.Moreover, the process of riveting provides a strong and reliable connection between different steel components. Unlike welding, which can create weak points if not done correctly, riveting creates a mechanical bond that distributes stress evenly across the joint. This feature is particularly important in areas that experience dynamic loads, such as bridges that must endure the forces exerted by vehicles and pedestrians. The resilience of riveted steel girders has been proven over time, with many structures still standing strong decades after their initial construction.However, it is essential to note that the use of riveted steel girders has declined in recent years, primarily due to advancements in welding technology and changes in building codes. Modern engineering often favors welded connections because they can be executed more quickly and require less labor. Additionally, welded joints can create a smoother surface, which is beneficial for aesthetic purposes. Despite this trend, many engineers and architects still appreciate the historical significance and aesthetic appeal of riveted steel girders, especially in restoration projects or when designing new structures that aim to evoke a sense of nostalgia.In conclusion, riveted steel girders represent a crucial element in the history of construction and engineering. Their unique properties and reliable performance have made them a staple in the development of modern infrastructure. While newer technologies may overshadow their use, the legacy of riveted steel girders continues to influence contemporary architectural designs. As we look towards the future, it is vital to remember the lessons learned from past engineering practices and to honor the craftsmanship that went into creating some of the world's most remarkable structures. The enduring strength of riveted steel girders serves as a testament to human ingenuity and the continuous pursuit of excellence in construction.

建筑行业一直处于创新的前沿，其中一个重要的工程进步是使用铆接钢梁。这些结构组件对于支撑大型建筑和桥梁至关重要，提供必要的强度和稳定性，以承受各种负荷。术语铆接钢梁指的是由钢制成的梁，通过铆钉连接在一起，铆钉是用于将部件紧密固定在一起的金属销。这种建造方法在19世纪末和20世纪初特别流行，那时工业化迅速改变了世界各地城市的面貌。使用铆接钢梁的主要优点之一是它们能够承受重负荷。钢作为一种材料具有优良的强度与重量比，这意味着它可以在不显得过于沉重的情况下支持大量重量。这一特性使其非常适合用于大型结构，在这些结构中，耐用性和安全性至关重要。例如，许多标志性的桥梁和摩天大楼在设计中利用了铆接钢梁，使它们能够达到很高的高度，并跨越广泛的距离，而不妨碍结构的完整性。此外，铆接的过程提供了钢部件之间强大而可靠的连接。与焊接不同，焊接如果没有正确执行可能会产生弱点，铆接则创造了一种机械连接，可以均匀分配应力。这一特性在经历动态负荷的区域尤为重要，例如必须承受车辆和行人施加的力量的桥梁。铆接钢梁的韧性随着时间的推移得到了证明，许多结构在最初建造几十年后仍然坚固。然而，值得注意的是，由于焊接技术的进步和建筑规范的变化，近年来使用铆接钢梁的情况有所下降。现代工程通常更青睐焊接连接，因为它们可以更快地执行且需要较少的劳动力。此外，焊接接头可以创造更平滑的表面，这对美观是有利的。尽管如此，许多工程师和建筑师仍然欣赏铆接钢梁的历史意义和美学吸引力，特别是在修复项目或设计新的旨在唤起怀旧感的结构时。总之，铆接钢梁代表了建筑和工程历史中的一个关键元素。它们独特的性质和可靠的性能使其成为现代基础设施发展的重要组成部分。虽然新技术可能掩盖了它们的使用，但铆接钢梁的遗产继续影响当代建筑设计。当我们展望未来时，记住从过去的工程实践中学到的教训，并尊重那些创造出世界上最杰出结构的工艺是至关重要的。铆接钢梁的持久力量证明了人类的创造力以及在建筑中不断追求卓越的精神。