rivet pitch

简明释义

铆钉间隔

英英释义

例句

1.During the inspection, we found the rivet pitch was inconsistent throughout the structure.

在检查过程中，我们发现结构中的铆钉间距不一致。

2.The specifications call for a rivet pitch of 3 inches for this application.

该规格要求此应用的铆钉间距为3英寸。

3.A smaller rivet pitch can lead to a stronger joint but may require more rivets.

较小的铆钉间距可以导致更强的接头，但可能需要更多的铆钉。

4.To optimize the load distribution, we need to adjust the rivet pitch in this section.

为了优化载荷分布，我们需要调整这一部分的铆钉间距。

5.The engineer calculated the rivet pitch to ensure structural integrity.

工程师计算了铆钉间距以确保结构的完整性。

作文

In the world of engineering and manufacturing, precision is paramount. One term that frequently arises in discussions about assembly and structural integrity is rivet pitch. The rivet pitch refers to the distance between the centers of two adjacent rivets in a riveted joint. This measurement is crucial for ensuring that the load is evenly distributed across the structure, which can significantly affect its strength and durability.When designing structures such as bridges, aircraft, or buildings, engineers must carefully consider the rivet pitch to maintain the integrity of the assembly. If the spacing is too wide, the rivets may not provide sufficient support, leading to potential failure under stress. Conversely, if the rivet pitch is too narrow, it can lead to material fatigue and weaken the joints over time.To illustrate the importance of rivet pitch, let’s take the example of an aircraft wing. The wings of an airplane are subjected to immense forces during flight, including lift, drag, and turbulence. Engineers must ensure that the rivets holding the wing together are spaced appropriately. A well-calculated rivet pitch ensures that the wing can withstand these forces without deforming or breaking.Moreover, the rivet pitch is also influenced by the materials used in construction. Different materials have varying strengths and weaknesses, which affect how rivets should be placed. For instance, aluminum, commonly used in aircraft construction, requires a different rivet pitch compared to steel. Understanding the properties of the materials involved allows engineers to optimize the rivet pitch for maximum efficiency and safety.Furthermore, advancements in technology have allowed for more precise measurements and calculations regarding rivet pitch. Computer-aided design (CAD) software enables engineers to simulate various scenarios and determine the ideal spacing for rivets in complex structures. This technological evolution has improved the overall safety and reliability of engineered products.In addition to safety considerations, the rivet pitch can also impact the cost of manufacturing. A wider spacing might reduce the number of rivets needed, lowering material costs. However, this must be balanced with the structural requirements of the project. Engineers must find the sweet spot where the rivet pitch provides adequate strength while being cost-effective.In conclusion, understanding rivet pitch is essential for engineers and manufacturers alike. It plays a critical role in ensuring the safety, durability, and efficiency of various structures. By carefully selecting the appropriate rivet pitch, engineers can enhance the performance of their designs and contribute to the overall success of their projects. As technology continues to advance, the methods for calculating and implementing rivet pitch will only become more refined, leading to even greater innovations in engineering and manufacturing practices.

在工程和制造的世界中，精准至关重要。一个常常出现在关于装配和结构完整性的讨论中的术语是铆钉间距。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。这个测量对于确保负载在结构上均匀分布至关重要，这可能会显著影响其强度和耐久性。在设计桥梁、飞机或建筑等结构时，工程师必须仔细考虑铆钉间距以保持装配的完整性。如果间距过宽，铆钉可能无法提供足够的支持，导致在压力下潜在的失效。相反，如果铆钉间距过窄，可能会导致材料疲劳并随着时间的推移削弱接头。为了说明铆钉间距的重要性，让我们以飞机机翼为例。飞机的机翼在飞行过程中承受着巨大的力量，包括升力、阻力和湍流。工程师必须确保固定机翼的铆钉间距适当。经过精确计算的铆钉间距确保机翼能够承受这些力量而不会变形或断裂。此外，铆钉间距也受到所用材料的影响。不同材料具有不同的强度和弱点，这影响了铆钉的放置方式。例如，铝材通常用于飞机建造，其所需的铆钉间距与钢材不同。了解所涉及材料的特性使工程师能够优化铆钉间距以实现最大效率和安全性。此外，技术的进步使得关于铆钉间距的测量和计算变得更加精确。计算机辅助设计（CAD）软件使工程师能够模拟各种场景，并确定复杂结构中铆钉的理想间距。这种技术进步提高了工程产品的整体安全性和可靠性。除了安全考虑外，铆钉间距还会影响制造成本。较宽的间距可能减少所需铆钉的数量，从而降低材料成本。然而，这必须与项目的结构要求相平衡。工程师必须找到一个最佳点，在该点上，铆钉间距提供足够的强度，同时具有成本效益。总之，理解铆钉间距对工程师和制造商来说至关重要。它在确保各种结构的安全性、耐久性和效率方面发挥着关键作用。通过仔细选择合适的铆钉间距，工程师可以增强设计的性能并促进其项目的整体成功。随着技术的不断进步，计算和实施铆钉间距的方法将变得更加精细，从而推动工程和制造实践的更大创新。