staggered riveting

简明释义

交错铆接;之形铆接

英英释义

例句

1.The engineering team decided on staggered riveting for the bridge to improve load distribution.

工程团队决定在桥梁上采用错开铆接以改善负载分布。

2.In shipbuilding, staggered riveting is often used to prevent stress concentration in the hull.

在造船中，通常使用错开铆接来防止船体的应力集中。

3.The aircraft's fuselage was constructed using staggered riveting, which enhances its structural integrity.

飞机机身的构造采用了错开铆接，这增强了其结构完整性。

4.Using staggered riveting can significantly reduce the risk of fatigue failure in metal structures.

使用错开铆接可以显著降低金属结构疲劳失效的风险。

5.The assembly line was optimized for staggered riveting to increase efficiency and quality.

生产线经过优化以适应错开铆接，以提高效率和质量。

作文

In the field of engineering and construction, various techniques are employed to ensure the strength and durability of structures. One such technique is staggered riveting, which plays a crucial role in enhancing the overall integrity of metal joints. Staggered riveting refers to a method where rivets are placed in a staggered pattern rather than in a straight line. This approach distributes the load more evenly across the joint, reducing the risk of failure and increasing the joint's resistance to shear forces.The importance of staggered riveting can be observed in numerous applications, particularly in the aerospace and automotive industries. For instance, when assembling aircraft fuselages, engineers often utilize this technique to connect different sections of the aircraft body. By staggering the rivets, they create a stronger bond that can withstand the extreme conditions encountered during flight, such as turbulence and changes in pressure.Moreover, staggered riveting is not only beneficial for structural integrity but also contributes to the overall weight efficiency of a construction project. In many cases, engineers are tasked with minimizing the weight of components while maintaining strength. The staggered pattern allows for the use of fewer rivets without compromising the connection’s stability. This is particularly advantageous in the design of lightweight vehicles, where every ounce counts toward fuel efficiency and performance.Additionally, the aesthetic aspect of staggered riveting should not be overlooked. In architectural designs, where metal facades are common, the staggered placement of rivets can create visually appealing patterns that enhance the building's design. Architects often collaborate with engineers to ensure that the structural methods used also contribute positively to the overall appearance of the structure.However, implementing staggered riveting requires careful planning and precision during the construction process. Engineers must calculate the optimal spacing and alignment of rivets to achieve the desired strength and load distribution. Any misalignment can lead to weak points in the structure, potentially resulting in catastrophic failures. Therefore, rigorous testing and quality control measures are essential to ensure that the riveting is performed correctly.In conclusion, staggered riveting is a vital technique in modern engineering that enhances the strength, durability, and aesthetic appeal of various structures. Its ability to distribute loads evenly and reduce the number of required fasteners makes it a preferred choice in industries where safety and efficiency are paramount. As technology advances, the methods and materials used in staggered riveting will continue to evolve, paving the way for even more innovative applications in the future.

在工程和建筑领域，采用各种技术以确保结构的强度和耐久性。其中一种技术是错开铆接，它在增强金属接头的整体完整性方面发挥着至关重要的作用。错开铆接指的是铆钉以错开的模式而不是直线排列的方法。这种方法可以更均匀地分配接头上的负载，从而降低失效风险并提高接头抵抗剪切力的能力。错开铆接的重要性可以在许多应用中观察到，特别是在航空航天和汽车工业中。例如，在组装飞机机身时，工程师通常利用这种技术连接飞机机体的不同部分。通过错开铆钉，他们创造了一个更强的连接，可以承受飞行过程中遇到的极端条件，如湍流和压力变化。此外，错开铆接不仅有利于结构的完整性，还有助于建筑项目的整体重量效率。在许多情况下，工程师的任务是尽量减少组件的重量，同时保持强度。错开的模式允许使用更少的铆钉，而不影响连接的稳定性。这在轻型车辆的设计中尤其具有优势，因为每一盎司都对燃油效率和性能产生影响。此外，错开铆接的美学方面也不容忽视。在建筑设计中，金属外立面很常见，铆钉的错开放置可以创造出视觉上吸引人的图案，增强建筑的设计。建筑师经常与工程师合作，以确保所使用的结构方法也对结构的整体外观产生积极影响。然而，实施错开铆接需要在施工过程中进行仔细的规划和精确的操作。工程师必须计算铆钉的最佳间距和对齐方式，以实现所需的强度和负载分布。任何错位都可能导致结构中的弱点，可能导致灾难性的失败。因此，严格的测试和质量控制措施对于确保铆接正确执行至关重要。总之，错开铆接是现代工程中一项重要的技术，它增强了各种结构的强度、耐久性和美观。其均匀分配负载和减少所需紧固件数量的能力，使其成为安全和效率至关重要的行业的首选。随着技术的进步，错开铆接中使用的方法和材料将继续演变，为未来更具创新性的应用铺平道路。