rivet pitch

简明释义

铆钉间距

英英释义

例句

1.The engineer calculated the rivet pitch to ensure the structural integrity of the bridge.

工程师计算了铆钉间距以确保桥梁的结构完整性。

2.Adjusting the rivet pitch can help reduce stress concentrations in metal structures.

调整铆钉间距可以帮助减少金属结构中的应力集中。

3.The technician measured the rivet pitch to ensure proper alignment during assembly.

技术员测量了铆钉间距以确保组装时的正确对齐。

4.When designing the fuselage, the rivet pitch must comply with industry standards.

在设计机身时，铆钉间距必须符合行业标准。

5.A smaller rivet pitch can increase the strength of the joint in aircraft manufacturing.

较小的铆钉间距可以增强航空制造中接头的强度。

作文

In the world of engineering and construction, precision is of utmost importance. One of the critical aspects that engineers must consider when designing structures is the concept of rivet pitch. The term rivet pitch refers to the distance between the centers of two adjacent rivets in a riveted joint. This measurement is crucial because it affects both the strength and durability of the joint, which ultimately impacts the overall integrity of the structure. Understanding rivet pitch is essential for engineers who work with metal structures, such as bridges, buildings, and aircraft.To grasp the significance of rivet pitch, one must first understand what rivets are. Rivets are mechanical fasteners used to join two or more pieces of material together, typically metal. They are inserted into pre-drilled holes and then deformed (or 'set') on the other side to create a permanent bond. The spacing of these rivets, defined by the rivet pitch, plays a vital role in ensuring that the load is evenly distributed across the joint. If the rivet pitch is too wide, the joint may not be strong enough to withstand the forces acting upon it. Conversely, if the rivet pitch is too narrow, it could lead to excessive material use and increased weight, which can also compromise structural integrity.When designing a riveted joint, engineers must consider several factors that influence the optimal rivet pitch. These factors include the type of materials being joined, the expected loads on the joint, environmental conditions, and safety regulations. For instance, in high-stress applications like bridges, the rivet pitch might be closer together to ensure maximum strength and stability. On the other hand, in less demanding situations, a wider rivet pitch may be acceptable.Additionally, the historical context of rivet pitch cannot be overlooked. In the early days of engineering, especially during the Industrial Revolution, rivets were the primary means of joining metal components. Engineers relied heavily on empirical data and trial-and-error methods to determine the appropriate rivet pitch for various applications. Over time, as materials science advanced, so did the understanding of how rivet pitch affects joint performance. Today, computer-aided design (CAD) software allows engineers to simulate different scenarios and optimize the rivet pitch for specific projects, ensuring safety and efficiency.In conclusion, the concept of rivet pitch is fundamental in the field of engineering, particularly in the design of riveted joints. It directly influences the strength, durability, and overall performance of the structures we rely on every day. By understanding the principles behind rivet pitch, engineers can make informed decisions that enhance the safety and longevity of their designs. As technology continues to evolve, the importance of mastering concepts like rivet pitch will remain critical for future generations of engineers, ensuring that they can create innovative and resilient structures that stand the test of time.

在工程和建筑的世界中，精确性至关重要。工程师在设计结构时必须考虑的关键方面之一是铆钉间距的概念。术语铆钉间距指的是两个相邻铆钉在铆接接头中心之间的距离。这一测量至关重要，因为它影响接头的强度和耐久性，最终影响结构的整体完整性。理解铆钉间距对于从事金属结构（如桥梁、建筑物和飞机）的工程师来说至关重要。要理解铆钉间距的重要性，首先必须了解铆钉是什么。铆钉是用于将两块或多块材料（通常是金属）连接在一起的机械紧固件。它们被插入预先钻好的孔中，然后在另一侧变形（或“设置”），以创建永久性连接。这些铆钉的间距，即铆钉间距，在确保负载均匀分布于接头上方面发挥着至关重要的作用。如果铆钉间距过宽，接头可能不足以承受作用在其上的力量。相反，如果铆钉间距过窄，则可能导致过度使用材料和增加重量，这也会危及结构的完整性。在设计铆接接头时，工程师必须考虑几个影响最佳铆钉间距的因素。这些因素包括所连接材料的类型、接头上预期的负载、环境条件和安全法规。例如，在高应力应用（如桥梁）中，铆钉间距可能更近，以确保最大强度和稳定性。另一方面，在要求较低的情况下，较宽的铆钉间距可能是可以接受的。此外，铆钉间距的历史背景也不容忽视。在工程的早期，特别是在工业革命期间，铆钉是连接金属部件的主要手段。工程师在确定各种应用的适当铆钉间距时，主要依赖经验数据和试错方法。随着时间的推移，随着材料科学的进步，人们对铆钉间距如何影响接头性能的理解也不断加深。今天，计算机辅助设计（CAD）软件使工程师能够模拟不同场景并优化特定项目的铆钉间距，确保安全和效率。总之，铆钉间距的概念在工程领域，尤其是在铆接接头的设计中至关重要。它直接影响我们日常依赖的结构的强度、耐久性和整体性能。通过理解铆钉间距背后的原理，工程师可以做出明智的决策，从而增强其设计的安全性和使用寿命。随着技术的不断发展，掌握像铆钉间距这样的概念对于未来的工程师仍将至关重要，确保他们能够创造出经得起时间考验的创新和坚固的结构。