riveted joint

简明释义

铆接接头

英英释义

例句

1.Engineers often prefer riveted joints in aircraft design for their durability.

工程师在飞机设计中常常偏好使用铆接接头，因为它们的耐用性。

2.In shipbuilding, riveted joints have been a traditional method for connecting metal plates.

在造船中，铆接接头一直是连接金属板的传统方法。

3.The bridge was constructed using a strong riveted joint, which ensures stability under heavy loads.

这座桥是采用坚固的铆接接头建造的，确保在重载下的稳定性。

4.A riveted joint can be more resilient to vibrations compared to other types of connections.

与其他类型的连接相比，铆接接头对振动的抵抗力更强。

5.The old factory used riveted joints in its machinery, which are now being replaced with welded connections.

这家老工厂的机器使用了铆接接头，现在正被焊接连接所取代。

作文

In the realm of engineering and construction, the term riveted joint refers to a type of permanent mechanical connection that is created by fastening two or more pieces of material together using rivets. This method has been utilized for centuries, particularly in the construction of bridges, buildings, and various types of machinery. The significance of the riveted joint lies not only in its structural integrity but also in its historical importance in the evolution of engineering techniques.Historically, the use of rivets dates back to ancient civilizations, where they were used in the assembly of armor and other metalwork. However, it was during the Industrial Revolution that the riveted joint truly came into its own. As industries expanded and the demand for stronger structures grew, engineers began to explore the potential of rivets as a means of joining materials. The advent of steel as a primary construction material further enhanced the effectiveness of riveted joints, allowing for the creation of larger and more resilient structures.One of the most notable applications of riveted joints can be seen in the construction of iconic bridges, such as the Eiffel Tower and the Brooklyn Bridge. These structures relied heavily on the strength provided by riveted joints, which ensured their stability and durability over time. The process of creating a riveted joint involves drilling holes in the materials to be joined, inserting the rivet, and then deforming the end of the rivet to create a secure bond. This method provides a high level of resistance to shear forces, making it ideal for load-bearing applications.Despite the advantages of riveted joints, modern engineering has seen a shift towards alternative methods of joining materials, such as welding and bolting. These newer techniques often offer faster assembly times and greater flexibility in design. However, the legacy of riveted joints remains significant, particularly in the preservation of historical structures. Engineers today often face the challenge of maintaining and restoring buildings that were originally constructed using riveted joints. This requires a deep understanding of the properties of riveted connections and the ability to replicate traditional methods in a contemporary context.In conclusion, the riveted joint is a fundamental concept in the field of engineering that represents both a historical milestone and a practical solution for joining materials. While modern techniques may have supplanted rivets in many applications, the enduring strength and reliability of riveted joints continue to be appreciated in the preservation of our architectural heritage. Understanding the mechanics and applications of riveted joints is essential for anyone involved in engineering, architecture, or construction, as it provides valuable insights into the principles of structural integrity and the evolution of building practices.

在工程和建筑领域，短语铆接接头指的是通过使用铆钉将两个或多个材料永久性连接在一起的一种机械连接方式。这种方法已经被使用了几个世纪，特别是在桥梁、建筑物和各种类型机械的建造中。铆接接头的重要性不仅体现在其结构完整性上，还体现在其在工程技术发展中的历史重要性。历史上，铆钉的使用可以追溯到古代文明，当时它们被用于装甲和其他金属制品的组装。然而，正是在工业革命期间，铆接接头真正发挥了其作用。随着工业的扩展和对更强结构的需求增加，工程师开始探索铆钉作为连接材料的潜力。钢铁作为主要建筑材料的出现进一步增强了铆接接头的有效性，使得更大、更坚固的结构得以构建。铆接接头最显著的应用之一可以在标志性桥梁的建造中看到，例如埃菲尔铁塔和布鲁克林大桥。这些结构在很大程度上依赖于铆接接头提供的强度，确保了它们随时间的稳定性和耐用性。创建铆接接头的过程涉及在要连接的材料上钻孔，插入铆钉，然后变形铆钉的一端以创建安全的连接。这种方法提供了高水平的抗剪切力，使其非常适合承载应用。尽管铆接接头有许多优点，但现代工程已经转向替代的连接材料的方法，例如焊接和螺栓连接。这些新技术通常提供更快的组装时间和更大的设计灵活性。然而，铆接接头的遗产仍然具有重要意义，特别是在历史结构的保护中。如今，工程师经常面临维护和修复最初使用铆接接头建造的建筑的挑战。这需要深入理解铆接连接的特性，并能够在当代背景下复制传统方法。总之，铆接接头是工程领域的一个基本概念，代表了历史里程碑和连接材料的实用解决方案。虽然现代技术在许多应用中可能取代了铆钉，但铆接接头的持久强度和可靠性在我们建筑遗产的保护中继续受到重视。理解铆接接头的机械原理和应用对于任何参与工程、建筑或施工的人来说都是至关重要的，因为它提供了对结构完整性原理和建筑实践演变的宝贵见解。