rivet joint

简明释义

铆钉接合

英英释义

例句

1.The old ship was retrofitted with new rivet joints 铆接接头 to improve its structural integrity.

这艘旧船通过新装配的rivet joints 铆接接头来改善其结构完整性。

2.The aircraft's fuselage is constructed using a strong rivet joint 铆接接头 to ensure durability during flight.

飞机的机身采用强大的rivet joint 铆接接头来确保飞行中的耐用性。

3.In bridge construction, engineers often rely on rivet joints 铆接接头 to connect steel beams securely.

在桥梁建设中，工程师通常依赖于rivet joints 铆接接头来安全地连接钢梁。

4.The maintenance team inspected the rivet joints 铆接接头 for any signs of wear and tear.

维修团队检查了rivet joints 铆接接头是否有任何磨损迹象。

5.A properly installed rivet joint 铆接接头 can withstand significant tensile forces.

正确安装的rivet joint 铆接接头可以承受显著的拉力。

作文

In the world of engineering and construction, the term rivet joint refers to a type of mechanical connection that has been used for centuries. This method involves the use of rivets, which are metal pins or bolts that are inserted through holes in two or more pieces of material and then deformed to hold them together. The rivet joint is particularly valued for its strength and durability, making it an ideal choice for various applications, including bridges, buildings, and aircraft. Historically, the rivet joint played a crucial role during the Industrial Revolution. As industries expanded, the need for robust and reliable construction methods became paramount. Engineers and architects turned to riveted connections to ensure that structures could withstand heavy loads and resist the forces of nature. For example, many iconic bridges, such as the Brooklyn Bridge, utilize rivet joints to maintain their integrity under stress. One of the primary advantages of a rivet joint is its ability to distribute stress evenly across the connected materials. When a load is applied, the rivets help to spread the force throughout the joint, minimizing the risk of failure. This characteristic is essential in large-scale constructions where safety is a top priority. Additionally, rivet joints are often resistant to fatigue, meaning they can endure repeated stress without degrading over time. Despite the numerous benefits of rivet joints, there are also some drawbacks to consider. The process of creating a rivet joint can be labor-intensive and time-consuming. It requires precise drilling of holes and careful alignment of the materials to ensure a secure fit. Furthermore, if not done correctly, a rivet joint can lead to structural weaknesses. In modern engineering, alternative methods such as welding and bolting have become more prevalent due to advancements in technology. These methods can offer quicker assembly times and, in some cases, even greater strength than traditional rivet joints. Nevertheless, rivet joints remain a significant part of engineering history and continue to be used in certain applications where their unique properties are advantageous. For instance, in the restoration of historical structures, preserving original rivet joints is often necessary to maintain the authenticity and heritage of the building. Engineers and craftsmen who specialize in this area must possess a deep understanding of the principles behind rivet joints to ensure that repairs are both effective and respectful of the original design. In conclusion, the rivet joint is a classic example of engineering ingenuity that has stood the test of time. While modern methods may offer alternatives, the historical significance and unique benefits of rivet joints ensure that they remain relevant in specific contexts. Understanding the mechanics and applications of rivet joints not only enriches our knowledge of engineering but also highlights the importance of tradition in contemporary construction practices.

在工程和建筑的世界中，术语铆接接头指的是一种机械连接方式，这种方式已经使用了几个世纪。这种方法涉及使用铆钉，这是一种金属销或螺栓，通过两个或多个材料上的孔插入，然后变形以将它们固定在一起。铆接接头因其强度和耐久性而受到重视，使其成为桥梁、建筑物和飞机等各种应用的理想选择。 历史上，铆接接头在工业革命期间发挥了至关重要的作用。随着工业的扩展，对稳固可靠的建筑方法的需求变得至关重要。工程师和建筑师转向铆接连接，以确保结构能够承受重负荷并抵抗自然力量。例如，许多标志性的桥梁，如布鲁克林大桥，利用铆接接头来保持其在压力下的完整性。 铆接接头的主要优点之一是它能够均匀地分配连接材料的应力。当施加负荷时，铆钉有助于将力分散到整个接头，从而最小化故障风险。这一特性在大型建筑中尤为重要，因为安全是首要考虑因素。此外，铆接接头通常对疲劳具有抵抗力，这意味着它们可以承受反复的应力而不会随时间退化。 尽管铆接接头有许多优点，但也存在一些需要考虑的缺点。创建铆接接头的过程可能劳动密集且耗时。它需要精确钻孔和材料的仔细对齐，以确保安全的配合。此外，如果没有正确完成，铆接接头可能导致结构弱点。在现代工程中，焊接和螺栓等替代方法由于技术进步而变得更加普遍。这些方法可以提供更快的组装时间，并在某些情况下甚至比传统的铆接接头更强。 尽管如此，铆接接头仍然是工程历史的重要组成部分，并在某些应用中继续使用，其中它们独特的属性是有利的。例如，在历史结构的修复中，保护原始的铆接接头通常是维护建筑物真实性和遗产所必需的。专门从事该领域的工程师和工匠必须深入理解铆接接头背后的原理，以确保修复既有效又尊重原始设计。 总之，铆接接头是工程智慧的经典范例，经受住了时间的考验。虽然现代方法可能提供替代方案，但铆接接头的历史意义和独特优势确保它们在特定背景下仍然相关。理解铆接接头的机制和应用不仅丰富了我们对工程的知识，也突显了传统在当代建筑实践中的重要性。