riveted structure

简明释义

铆接结构

英英释义

例句

1.During the renovation, workers had to replace some parts of the riveted structure to meet modern standards.

在翻修过程中，工人们必须更换铆接结构的某些部分以符合现代标准。

2.The riveted structure is a hallmark of industrial architecture from the late 19th century.

这种铆接结构是19世纪末工业建筑的标志。

3.Engineers often analyze the riveted structure of old buildings to assess their safety.

工程师们常常分析老建筑的铆接结构以评估其安全性。

4.The bridge was designed with a riveted structure, ensuring its durability and strength.

这座桥的设计采用了铆接结构，确保了其耐用性和强度。

5.The riveted structure of the ship allowed it to withstand harsh ocean conditions.

这艘船的铆接结构使其能够抵御恶劣的海洋条件。

作文

The concept of a riveted structure is fundamental in the field of engineering and architecture. A riveted structure refers to a construction technique that involves joining two or more pieces of material, typically metal, using rivets. Rivets are mechanical fasteners that provide strength and stability to the joints, making them an essential component in various types of structures, from bridges to buildings. This method of construction has been widely used since the industrial revolution and continues to be relevant today.One of the most notable examples of riveted structures is the Eiffel Tower in Paris, France. Completed in 1889, the Eiffel Tower was an engineering marvel of its time, showcasing the capabilities of iron and the effectiveness of riveted joints. The tower consists of over 18,000 individual pieces of iron, all held together by approximately 2.5 million rivets. This iconic landmark not only serves as a testament to the ingenuity of its designer, Gustave Eiffel, but also highlights the importance of riveted structures in creating tall and durable edifices.In addition to the Eiffel Tower, many bridges around the world utilize riveted structures for their construction. For instance, the Brooklyn Bridge in New York City, completed in 1883, features a combination of suspension and riveted structure techniques. The use of rivets in the bridge's design ensures that it can withstand the immense weight of traffic and the forces exerted by the wind. This fusion of aesthetics and functionality is a hallmark of riveted structures, which are often designed to be both visually appealing and structurally sound.However, the use of riveted structures is not without its challenges. Over time, rivets can become loose or corroded, potentially compromising the integrity of the structure. Engineers must regularly inspect and maintain these joints to ensure safety and longevity. In recent years, advancements in technology have led to the development of alternative fastening methods, such as welding and bolting, which offer benefits in terms of speed and efficiency. Nonetheless, the historical significance and aesthetic appeal of riveted structures keep them relevant in modern construction projects.Moreover, the revival of interest in traditional construction methods has led to a renewed appreciation for riveted structures. Many architects and engineers are now incorporating these techniques into new designs, blending historical elements with contemporary aesthetics. This trend not only honors the past but also showcases the versatility of riveted structures in a variety of applications.In conclusion, the term riveted structure encompasses a vital aspect of engineering that has shaped our built environment for over a century. From the iconic Eiffel Tower to the sturdy bridges that connect our cities, riveted structures remain a symbol of innovation and resilience. As we move forward, it is essential to recognize the importance of these construction techniques and continue to explore their potential in modern architecture. Whether through preservation or new construction, the legacy of riveted structures will undoubtedly endure for generations to come.

“铆接结构”的概念在工程和建筑领域中是基础性的。“铆接结构”指的是一种施工技术，涉及使用铆钉将两块或多块材料（通常是金属）连接在一起。铆钉是一种机械紧固件，为接头提供强度和稳定性，使它们成为各种类型结构（从桥梁到建筑物）中的重要组成部分。这种施工方法自工业革命以来被广泛使用，并且至今仍然相关。一个最显著的“铆接结构”例子是法国巴黎的埃菲尔铁塔。该铁塔于1889年完工，是当时工程的奇迹，展示了铁的能力和铆接接头的有效性。铁塔由超过18,000个独立的铁件构成，所有这些都通过大约250万个铆钉固定在一起。这个标志性地标不仅证明了设计师古斯塔夫·埃菲尔的聪明才智，也突显了“铆接结构”在创建高大耐用建筑物中的重要性。除了埃菲尔铁塔，世界各地的许多桥梁也利用“铆接结构”进行建造。例如，纽约市的布鲁克林大桥于1883年完工，采用了悬索和“铆接结构”技术的结合。铆钉在桥梁设计中的使用确保了它能够承受交通的巨大重量和风所施加的力量。这种美学与功能的融合是“铆接结构”的一个标志，它们通常被设计得既美观又结构稳固。然而，“铆接结构”的使用并非没有挑战。随着时间的推移，铆钉可能会变松或腐蚀，从而可能损害结构的完整性。工程师必须定期检查和维护这些接头，以确保安全和耐久性。近年来，技术的进步导致了替代紧固方法的发展，例如焊接和螺栓连接，这些方法在速度和效率上具有优势。尽管如此，历史意义和美学吸引力使“铆接结构”在现代建筑项目中保持相关性。此外，对传统建筑方法的复兴兴趣使得人们对“铆接结构”重新产生了欣赏。许多建筑师和工程师现在正在将这些技术融入新设计中，将历史元素与现代美学相结合。这一趋势不仅尊重过去，还展示了“铆接结构”在各种应用中的多样性。总之，术语“铆接结构”涵盖了一个重要的工程方面，这一方面在一个多世纪以来塑造了我们的建筑环境。从标志性的埃菲尔铁塔到连接城市的坚固桥梁，“铆接结构”仍然是创新和韧性的象征。随着我们向前发展，认识到这些施工技术的重要性并继续探索它们在现代建筑中的潜力至关重要。无论是通过保护还是新建，“铆接结构”的遗产无疑将在未来几代人中延续。