rivet spacing

简明释义

铆钉间隔

英英释义

例句

1.The engineer specified the rivet spacing to ensure the structural integrity of the bridge.

工程师指定了铆钉间距以确保桥梁的结构完整性。

2.Adjusting the rivet spacing can significantly affect the load-bearing capacity of the metal frame.

调整铆钉间距可以显著影响金属框架的承载能力。

3.During the inspection, we found that the rivet spacing did not comply with the safety standards.

在检查过程中，我们发现铆钉间距不符合安全标准。

4.We need to calculate the rivet spacing before starting the assembly process.

在开始组装过程之前，我们需要计算铆钉间距。

5.The design manual provides guidelines on the appropriate rivet spacing for different materials.

设计手册提供了针对不同材料的适当铆钉间距的指南。

作文

In the field of engineering and construction, the term rivet spacing plays a crucial role in determining the strength and integrity of structures. Rivets are mechanical fasteners used to join two or more materials together, typically metal plates. The distance between these rivets, known as rivet spacing (铆钉间距), is a critical factor that engineers must carefully consider during the design process. Proper rivet spacing ensures that the load is evenly distributed across the structure, preventing potential failure points that could lead to catastrophic results. When designing a structure, engineers must take into account various factors such as the type of material being used, the expected load the structure will bear, and environmental conditions. For instance, in a bridge design, if the rivet spacing (铆钉间距) is too wide, the rivets may not be able to adequately support the weight of vehicles passing over the bridge. Conversely, if the spacing is too narrow, it may lead to unnecessary material costs and increased weight, which can also compromise the structure's integrity.There are specific guidelines and standards established by organizations such as the American Institute of Steel Construction (AISC) that dictate the appropriate rivet spacing (铆钉间距) for different applications. These guidelines help ensure that engineers use a consistent approach when designing structures, ultimately enhancing safety and reliability. For example, in high-stress areas of a bridge, tighter rivet spacing (铆钉间距) might be required to accommodate the additional forces at play, while less critical areas may allow for wider spacing.Additionally, the manufacturing process and the type of rivet used can influence the decision on rivet spacing (铆钉间距). Some rivets are designed to handle more significant loads and can therefore be spaced further apart, while others may require closer spacing to ensure they perform effectively. Engineers must also consider the potential for fatigue over time, as repeated stress on a structure can lead to wear and tear, making proper rivet spacing (铆钉间距) even more important.Moreover, advancements in technology have introduced alternative fastening methods, such as welding and bolting, which can sometimes replace traditional riveting. However, understanding rivet spacing (铆钉间距) remains essential, especially in historical restorations or when working with specific materials that lend themselves well to riveting. In these cases, adhering to traditional methods, including proper rivet spacing (铆钉间距), is vital for maintaining the structural authenticity and aesthetic appeal of the project.In conclusion, rivet spacing (铆钉间距) is a fundamental concept in engineering that directly impacts the safety and functionality of structures. By carefully considering the appropriate spacing between rivets, engineers can create designs that not only meet regulatory standards but also stand the test of time. As the industry continues to evolve, the principles surrounding rivet spacing (铆钉间距) will remain a cornerstone of structural integrity and engineering excellence.

在工程和建筑领域，术语rivet spacing（铆钉间距）在确定结构的强度和完整性方面起着至关重要的作用。铆钉是用于将两种或多种材料连接在一起的机械紧固件，通常是金属板。这些铆钉之间的距离，即rivet spacing（铆钉间距），是工程师在设计过程中必须仔细考虑的关键因素。适当的rivet spacing（铆钉间距）确保负载均匀分布在结构上，防止可能的故障点，从而避免灾难性后果。在设计结构时，工程师必须考虑多种因素，例如所使用材料的类型、结构将承受的预期负载以及环境条件。例如，在桥梁设计中，如果rivet spacing（铆钉间距）过宽，铆钉可能无法充分支持经过桥梁的车辆重量。相反，如果间距过窄，可能会导致不必要的材料成本和增加的重量，这也可能会危及结构的完整性。美国钢结构协会（AISC）等组织制定了特定的指导方针和标准，规定了不同应用情况下适当的rivet spacing（铆钉间距）。这些指导方针有助于确保工程师在设计结构时采用一致的方法，最终增强安全性和可靠性。例如，在桥梁的高应力区域，可能需要更紧密的rivet spacing（铆钉间距）以适应额外的力量，而较不关键的区域则可能允许更宽的间距。此外，制造过程和所使用的铆钉类型也会影响对rivet spacing（铆钉间距）决策的影响。一些铆钉设计用于处理更大的负载，因此可以间隔得更远，而其他铆钉则可能需要更近的间距，以确保它们有效地发挥作用。工程师还必须考虑到随时间推移可能出现的疲劳，因为结构上的重复应力可能导致磨损，使得适当的rivet spacing（铆钉间距）显得更加重要。此外，技术的进步引入了替代的连接方法，例如焊接和螺栓，这些方法有时可以替代传统的铆接。然而，理解rivet spacing（铆钉间距）仍然至关重要，特别是在历史修复或处理某些适合铆接的特定材料时。在这些情况下，遵循传统方法，包括适当的rivet spacing（铆钉间距），对于维护项目的结构真实性和美学吸引力至关重要。总之，rivet spacing（铆钉间距）是工程中的一个基本概念，直接影响结构的安全性和功能性。通过仔细考虑铆钉之间的适当间距，工程师可以创建不仅符合监管标准而且经得起时间考验的设计。随着行业的不断发展，围绕rivet spacing（铆钉间距）的原则将仍然是结构完整性和工程卓越的基石。