rivet joint

简明释义

铆接

英英释义

A rivet joint is a type of mechanical connection where two or more pieces of material are joined together using rivets, which are metal pins or bolts that are inserted through aligned holes and then deformed to hold the materials securely.

铆接是将两个或多个材料通过铆钉连接在一起的一种机械连接方式,铆钉是插入对齐孔中的金属销或螺栓,然后变形以牢固固定材料。

例句

1.The historical ship was restored using traditional techniques, including hand-made rivet joints (铆接接头).

这艘历史悠久的船只使用传统技术进行了修复,包括手工制作的铆接接头

2.During the inspection, we found several faulty rivet joints (铆接接头) that needed to be repaired.

在检查过程中,我们发现有几个有缺陷的铆接接头需要修复。

3.The engineer explained that the strength of the bridge depends on the quality of its rivet joint (铆接接头).

工程师解释说,桥梁的强度取决于其铆接接头的质量。

4.In metalworking classes, students learn how to create strong rivet joints (铆接接头) for various projects.

在金属加工课程中,学生们学习如何为各种项目制作坚固的铆接接头

5.The aircraft's fuselage is constructed using a series of rivet joints (铆接接头) for added durability.

飞机机身使用一系列的铆接接头来增加耐用性。

作文

In the world of engineering and construction, the strength and durability of structures are paramount. One crucial element that contributes to this strength is the use of fasteners, among which the rivet joint plays a significant role. A rivet joint is a permanent mechanical connection made by inserting a metal pin, known as a rivet, through the materials being joined. The ends of the rivet are then deformed to hold the materials together securely. This method has been used for centuries and remains relevant in various applications today. The history of the rivet joint dates back to ancient times when blacksmiths would forge rivets by hand. As technology advanced, the process of riveting became more sophisticated, leading to its widespread use in industries such as shipbuilding, bridge construction, and aircraft manufacturing. One of the primary advantages of a rivet joint is its ability to create strong connections that can withstand significant loads and stresses. Unlike other fastening methods, rivets do not rely on friction to hold materials together; instead, they create a solid bond that distributes forces evenly across the joint. When designing a structure that incorporates a rivet joint, engineers must consider several factors, including the materials being joined, the expected load, and the environmental conditions. For instance, in aerospace applications, where weight is a critical factor, engineers often choose lightweight materials like aluminum for both the rivets and the components being joined. In contrast, heavy-duty applications, such as bridges, may require steel rivets for enhanced strength and durability. Moreover, the installation of a rivet joint requires specialized tools and techniques. Traditionally, rivets were installed using a hammer and a bucking bar, but modern technology has introduced pneumatic and hydraulic tools that make the process faster and more efficient. Despite these advancements, the craftsmanship involved in creating a quality rivet joint remains essential, as improper installation can lead to joint failure. Another important aspect of rivet joints is their maintenance. Over time, environmental factors such as corrosion and fatigue can weaken the joint. Regular inspections are necessary to identify any signs of wear or damage. In some cases, engineers may opt to replace or reinforce rivet joints to ensure the integrity of the structure. In conclusion, the rivet joint is a vital component in the field of engineering, providing reliable and robust connections in a variety of applications. Its historical significance, combined with its enduring relevance in modern construction, highlights the importance of understanding and mastering this fastening method. As technology continues to evolve, the principles underlying the rivet joint will undoubtedly remain a cornerstone of structural engineering, ensuring that our buildings, bridges, and vehicles are safe and durable for years to come.

在工程和建筑的世界中,结构的强度和耐久性至关重要。连接件中一个关键元素是紧固件,其中铆接接头发挥着重要作用。铆接接头是一种永久性机械连接,通过将金属销(称为铆钉)插入被连接的材料中来实现。然后将铆钉的两端变形,以牢固地将材料固定在一起。这种方法已经使用了几个世纪,并在今天的各种应用中仍然具有相关性。铆接接头的历史可以追溯到古代,当时铁匠们会手工锻造铆钉。随着技术的发展,铆接的过程变得更加复杂,导致它在造船、桥梁建设和飞机制造等行业的广泛使用。铆接接头的主要优点之一是它能够创建能够承受重大载荷和应力的强连接。与其他紧固方法不同,铆钉并不依赖摩擦来保持材料在一起;相反,它们创建了一种坚固的结合,均匀分布力量在接头上。在设计包含铆接接头的结构时,工程师必须考虑多个因素,包括被连接的材料、预期的载荷和环境条件。例如,在航空航天应用中,重量是一个关键因素,工程师通常选择铝等轻质材料作为铆钉和被连接组件的材料。相比之下,重型应用如桥梁可能需要钢铆钉,以增强强度和耐久性。此外,安装铆接接头需要专业工具和技术。传统上,铆钉是通过锤子和支撑杆安装的,但现代技术引入了气动和液压工具,使得这一过程更快、更高效。尽管有这些进步,但制作高质量铆接接头所需的工艺仍然至关重要,因为不当安装可能导致接头失效。铆接接头的另一个重要方面是维护。随着时间的推移,腐蚀和疲劳等环境因素可能会削弱接头。定期检查是必要的,以识别任何磨损或损坏的迹象。在某些情况下,工程师可能会选择更换或加固铆接接头以确保结构的完整性。总之,铆接接头是工程领域中的一个重要组成部分,在各种应用中提供可靠和坚固的连接。它的历史意义,加上在现代建筑中的持久相关性,突显了理解和掌握这种紧固方法的重要性。随着技术的不断发展,支撑铆接接头的原则无疑将继续成为结构工程的基石,确保我们的建筑、桥梁和车辆在未来多年内安全耐用。