double-riveted seam

简明释义

双行铆接缝

英英释义

例句

1.The engineer explained that a double-riveted seam could withstand greater stress than a single rivet.

工程师解释说，双铆接缝能够承受比单个铆钉更大的压力。

2.In shipbuilding, a double-riveted seam is often preferred for its durability and resistance to water leaks.

在造船中，双铆接缝因其耐用性和防水泄漏的能力而被广泛使用。

3.The construction of the bridge utilized a strong double-riveted seam to ensure structural integrity.

这座桥的建造采用了坚固的双铆接缝以确保结构的完整性。

4.For the aircraft’s fuselage, they opted for a double-riveted seam to enhance safety during flight.

为了飞机的机身，他们选择了双铆接缝以增强飞行安全性。

5.The team used a double-riveted seam in the pipeline construction to prevent any potential failures.

团队在管道建设中使用了双铆接缝以防止潜在的故障。

作文

The world of engineering and construction is filled with intricate details and specialized terminology. One such term that often comes up in discussions about structural integrity is the double-riveted seam. This phrase refers to a specific type of joint used in metal fabrication, particularly in the context of constructing bridges, ships, and other heavy structures. A double-riveted seam involves two rows of rivets that secure two pieces of metal together, providing enhanced strength and durability compared to a single row. Understanding the significance of a double-riveted seam requires a look into the history of engineering practices. Riveting has been a fundamental method of joining materials since the Industrial Revolution. As engineers sought ways to create stronger and more reliable structures, the development of riveted joints became essential. The double-riveted seam emerged as an improvement over traditional single-riveted seams, allowing for greater load-bearing capacity and resistance to shear forces. In practical applications, the use of a double-riveted seam can be seen in various iconic structures. For instance, the famous Eiffel Tower in Paris utilizes this technique in its iron framework. The double rows of rivets not only contribute to the tower's impressive height but also ensure its stability against wind and other environmental factors. Similarly, many historical bridges, such as the Brooklyn Bridge, employed double-riveted seams in their construction, showcasing the importance of this method in achieving architectural feats. From a technical perspective, the design of a double-riveted seam involves careful consideration of several factors. Engineers must calculate the appropriate spacing of the rivets, the size of the rivets, and the materials being joined. The goal is to create a joint that can withstand significant stress without failure. Additionally, quality control measures must be implemented to ensure that each rivet is properly installed, as any weakness in the seam could compromise the entire structure. Furthermore, the choice to use a double-riveted seam over other types of joints, such as welded seams, often depends on the specific requirements of the project. While welding provides a continuous joint that can be very strong, it may not be suitable for all materials or situations. In contrast, a double-riveted seam allows for easier disassembly and repair, which can be advantageous in certain contexts. In conclusion, the term double-riveted seam encapsulates a vital concept in the field of engineering. Its historical significance, practical applications, and technical considerations highlight the importance of this joining method in creating safe and durable structures. As we continue to innovate and push the boundaries of engineering, understanding the principles behind techniques like the double-riveted seam will remain crucial for future generations of engineers and builders. Ultimately, the double-riveted seam serves as a testament to human ingenuity and the relentless pursuit of excellence in construction. By mastering such terms and concepts, we can appreciate the complexities involved in designing and building the infrastructure that shapes our world.

工程和建筑的世界充满了复杂的细节和专业术语。其中一个在讨论结构完整性时经常出现的术语是双铆接缝。这个短语指的是一种用于金属加工的特定类型的接头，特别是在建造桥梁、船只和其他重型结构的背景下。双铆接缝涉及两排铆钉，将两块金属固定在一起，相比于单排铆钉，它提供了更强的强度和耐用性。要理解双铆接缝的重要性，需要回顾一下工程实践的历史。铆接自工业革命以来就是连接材料的基本方法。随着工程师们寻求创造更强大和更可靠的结构，铆接接头的发展变得至关重要。双铆接缝作为传统单铆接缝的改进，能够承受更大的载荷和抵抗剪切力。在实际应用中，双铆接缝的使用可以在各种标志性结构中看到。例如，巴黎著名的埃菲尔铁塔就采用了这种技术在其铁框架中。双排铆钉不仅为塔的高度做出了贡献，还确保了它在风和其他环境因素下的稳定性。同样，许多历史桥梁，如布鲁克林桥，在其建设中也采用了双铆接缝，展示了这种方法在实现建筑壮举中的重要性。从技术角度来看，设计双铆接缝需要仔细考虑多个因素。工程师必须计算铆钉的适当间距、铆钉的大小和被连接材料的特性。目标是创建一个可以承受显著压力而不发生失效的接头。此外，必须实施质量控制措施，以确保每个铆钉都正确安装，因为接缝中的任何弱点都可能危及整个结构。此外，选择使用双铆接缝而不是其他类型的接头（如焊接接头）通常取决于项目的具体要求。虽然焊接提供了一个连续的接头，可以非常强大，但可能并不适合所有材料或情况。相比之下，双铆接缝允许更容易的拆卸和修理，这在某些情况下可能是有利的。总之，术语双铆接缝概括了工程领域中的一个重要概念。它的历史意义、实际应用和技术考虑突显了这种连接方法在创建安全和耐用结构方面的重要性。随着我们不断创新，推动工程的边界，理解像双铆接缝这样的技术背后的原则将对未来的工程师和建筑商至关重要。最终，双铆接缝是人类智慧和在建筑中追求卓越的不懈追求的证明。通过掌握这些术语和概念，我们可以欣赏到设计和建造塑造我们世界的基础设施所涉及的复杂性。