riveted weld

简明释义

塞焊

英英释义

例句

1.In the manufacturing plant, they use riveted weld (铆接焊) techniques to ensure the durability of metal components.

在制造厂，他们使用riveted weld (铆接焊) 技术以确保金属部件的耐用性。

2.The ship's hull was constructed using a combination of riveted weld (铆接焊) and traditional welding methods.

船体的构造采用了riveted weld (铆接焊) 和传统焊接方法的结合。

3.Engineers prefer riveted weld (铆接焊) for heavy-duty applications due to its strength.

工程师们更喜欢将riveted weld (铆接焊) 用于重载应用，因为它的强度。

4.During the repair process, the technician had to replace several riveted weld (铆接焊) joints that were compromised.

在维修过程中，技术人员不得不更换几个受损的riveted weld (铆接焊) 接头。

5.The structural engineer inspected the bridge and noted that the riveted weld (铆接焊) was showing signs of fatigue.

结构工程师检查了桥梁，并注意到riveted weld (铆接焊) 显示出疲劳迹象。

作文

In the world of engineering and construction, the terms used to describe various joining techniques are essential for understanding the integrity and durability of structures. One such technique that has gained prominence over the years is the use of riveted weld (铆焊). This method combines the traditional principles of riveting with modern welding techniques, creating a robust bond that can withstand significant stress and strain. Understanding riveted weld is crucial for engineers who aim to design safe and long-lasting structures.Riveting has been a popular method for joining metal components for centuries. It involves the use of metal fasteners, known as rivets, which are heated and then deformed to create a permanent joint. The strength of a riveted joint lies in its ability to distribute loads evenly across the connected parts. However, as technology evolved, the need for stronger and more efficient joining methods led to the development of welding techniques. Welding allows for a seamless connection, providing a continuous bond that enhances the overall strength of the structure.The concept of riveted weld merges these two techniques, offering the benefits of both methods. By combining rivets with welding, engineers can achieve a connection that not only has the mechanical advantages of riveting but also the structural integrity of welding. This hybrid technique is particularly useful in heavy industries, such as shipbuilding and bridge construction, where the materials used must endure extreme conditions.One of the primary advantages of using riveted weld is its ability to handle dynamic loads. Structures like bridges and ships are subjected to various forces, including wind, water currents, and the weight of vehicles and cargo. A joint created through riveted weld can absorb these forces more effectively than traditional welding or riveting alone. This characteristic makes it an ideal choice for applications where safety and reliability are paramount.Moreover, the application of riveted weld can also enhance the aesthetic appeal of a structure. In many cases, the visible rivets can add a sense of historical significance and craftsmanship to modern designs. Architects and engineers often seek to incorporate such elements into their projects to create a blend of old and new, showcasing the evolution of construction techniques.However, it is essential to understand that the successful implementation of riveted weld requires skilled labor and precise engineering. The process must be carefully controlled to ensure that both the rivets and the welds are executed correctly. Any flaws in the execution could compromise the joint's integrity, leading to potential failures in the structure. Therefore, comprehensive training and adherence to safety standards are crucial in projects utilizing this joining method.In conclusion, the riveted weld (铆焊) technique represents a significant advancement in the field of structural engineering. By combining the strengths of both riveting and welding, it offers a solution that meets the demands of modern construction while ensuring safety and durability. As engineers continue to explore innovative joining methods, the importance of understanding and mastering techniques like riveted weld cannot be overstated. This knowledge will play a vital role in shaping the future of engineering and construction, paving the way for safer, more resilient structures that stand the test of time.

在工程和建筑的世界中，描述各种连接技术的术语对于理解结构的完整性和耐久性至关重要。其中一种近年来越来越受到重视的技术是使用riveted weld（铆焊）。这种方法将传统的铆接原理与现代焊接技术相结合，创造出一种能够承受显著应力和压力的坚固连接。理解riveted weld对旨在设计安全、持久结构的工程师来说至关重要。铆接作为一种流行的金属组件连接方法已经存在了几个世纪。它涉及使用金属紧固件，即铆钉，经过加热后变形以创建永久连接。铆接接头的强度在于其能够均匀分配连接部件之间的负载。然而，随着技术的发展，对更强大和高效的连接方法的需求促使了焊接技术的发展。焊接允许无缝连接，提供连续的粘合，从而增强结构的整体强度。riveted weld的概念将这两种技术结合在一起，提供了两种方法的优点。通过将铆钉与焊接相结合，工程师可以实现不仅具有铆接的机械优势，而且具有焊接的结构完整性的连接。这种混合技术在重工业中尤为有用，例如船舶制造和桥梁建设，在这些领域中，所用材料必须承受极端条件。使用riveted weld的主要优点之一是其处理动态负载的能力。桥梁和船舶等结构会受到各种力量的影响，包括风、水流和车辆及货物的重量。通过riveted weld创建的接头能够比传统的焊接或铆接单独处理这些力量更有效。这一特性使其成为安全性和可靠性至关重要的应用的理想选择。此外，riveted weld的应用还可以增强结构的美学吸引力。在许多情况下，显眼的铆钉可以为现代设计增添历史意义和工艺感。建筑师和工程师常常寻求将这种元素融入他们的项目，以创造古今结合的效果，展示建筑技术的发展。然而，必须理解的是，成功实施riveted weld需要熟练的劳动和精确的工程。该过程必须进行严格控制，以确保铆钉和焊接都正确执行。执行中的任何缺陷都可能损害接头的完整性，导致结构潜在的故障。因此，在利用这种连接方法的项目中，全面的培训和遵守安全标准至关重要。总之，riveted weld（铆焊）技术代表了结构工程领域的重要进展。通过结合铆接和焊接的优点，它提供了一种满足现代建筑需求的解决方案，同时确保安全性和耐久性。随着工程师继续探索创新的连接方法，理解和掌握像riveted weld这样的技术的重要性不容小觑。这一知识将在塑造工程和建筑的未来中发挥重要作用，为建造经得起时间考验的更安全、更具韧性的结构铺平道路。