rivet shank

简明释义

铆钉杆

英英释义

例句

1.The strength of the joint depends on the diameter of the rivet shank used.

接头的强度取决于使用的铆钉杆的直径。

2.The engineer checked the length of the rivet shank to ensure it would fit properly in the assembly.

工程师检查了铆钉杆的长度，以确保它能正确地适合在组件中。

3.After the riveting process, the rivet shank should be flush with the surface of the material.

在铆接过程后，铆钉杆应与材料表面齐平。

4.When installing the metal plates, make sure the rivet shank is fully inserted into the hole.

在安装金属板时，确保铆钉杆完全插入孔中。

5.A longer rivet shank provides more grip but may require a larger hole.

较长的铆钉杆提供更好的抓握，但可能需要更大的孔。

作文

In the world of engineering and construction, the term rivet shank refers to a crucial component of a rivet that plays a significant role in fastening materials together. A rivet itself is a permanent mechanical fastener, typically made of metal, which is used to join two or more pieces of material, often metal sheets, by means of a head and a shank. The rivet shank is the cylindrical part of the rivet that extends between the head and the tail and is responsible for holding the materials together once the rivet is installed. Understanding the function of the rivet shank is essential for anyone involved in manufacturing, construction, or repair work. When a rivet is installed, the shank is inserted through pre-drilled holes in the materials being joined. Once the rivet is in place, the tail end of the rivet shank is deformed—usually by hammering or using a special tool—to create a second head. This deformation locks the materials together securely.The strength and durability of a riveted joint heavily depend on the quality and dimensions of the rivet shank. A properly sized shank ensures that the rivet can withstand shear and tensile loads without failing. Engineers must carefully select the diameter and length of the rivet shank based on the materials being joined and the forces they will encounter in service. For instance, a thicker shank may be required for heavier materials or applications where high strength is necessary.Moreover, the material composition of the rivet shank also affects its performance. Common materials include steel, aluminum, and copper, each offering different benefits regarding weight, corrosion resistance, and strength. In aerospace applications, for example, lightweight aluminum rivets are often preferred, while in heavy machinery, steel rivets may be more suitable due to their superior strength.In addition to its functional aspects, the rivet shank also presents aesthetic considerations in some applications. In architectural designs, visible rivets can contribute to the overall style and character of a structure. Designers may choose to showcase the rivets as a design feature, highlighting the craftsmanship and engineering behind the construction.As technology advances, the traditional use of rivets and their rivet shank is evolving. Modern techniques, such as welding and adhesive bonding, are sometimes preferred for certain applications. However, rivets remain a reliable choice for many industries due to their simplicity, effectiveness, and historical significance in engineering.In conclusion, the rivet shank is an integral part of riveted joints, providing strength and stability to various structures. Understanding its role and the factors influencing its performance is essential for engineers and construction professionals. As we continue to innovate and improve our construction methods, the knowledge of components like the rivet shank will remain crucial in ensuring the safety and reliability of our built environment.

在工程和建筑的世界中，术语rivet shank指的是铆钉的一个关键组成部分，在将材料固定在一起方面起着重要作用。铆钉本身是一种永久性机械连接件，通常由金属制成，用于通过头部和杆部将两个或多个材料（通常是金属板）连接在一起。rivet shank是铆钉的圆柱形部分，位于头部和尾部之间，负责在铆钉安装后将材料固定在一起。理解rivet shank的功能对于任何参与制造、建筑或修理工作的人来说都是至关重要的。当铆钉被安装时，杆部会插入被连接材料中的预钻孔。一旦铆钉到位，rivet shank的尾端会被变形——通常通过锤击或使用特殊工具——以创建第二个头部。这种变形牢牢锁定了材料。铆接接头的强度和耐久性在很大程度上取决于rivet shank的质量和尺寸。适当尺寸的杆部确保铆钉能够承受剪切和拉伸载荷而不会失效。工程师必须根据被连接的材料和在服务中将遇到的力来仔细选择rivet shank的直径和长度。例如，对于较重的材料或需要高强度的应用，可能需要更厚的杆部。此外，rivet shank的材料组成也影响其性能。常用材料包括钢、铝和铜，每种材料在重量、耐腐蚀性和强度方面提供不同的优势。例如，在航空航天应用中，轻量化的铝铆钉通常更受欢迎，而在重型机械中，由于其优越的强度，钢铆钉可能更为合适。除了功能方面，某些应用中rivet shank还呈现出美学考虑。在建筑设计中，明显可见的铆钉可以为结构的整体风格和特征做出贡献。设计师可能会选择将铆钉作为设计特征展示，突出施工背后的工艺和工程。随着技术的进步，传统的铆钉及其rivet shank的使用正在演变。现代技术，如焊接和粘合，某些应用中有时被更为青睐。然而，由于其简单性、有效性和历史意义，铆钉仍然是许多行业的可靠选择。总之，rivet shank是铆接接头的一个重要部分，为各种结构提供强度和稳定性。理解其作用及影响其性能的因素对于工程师和建筑专业人士至关重要。随着我们继续创新和改进施工方法，对像rivet shank这样的组件的知识将在确保我们建成环境的安全性和可靠性方面保持重要性。