water tight riveting

简明释义

水密铆接

英英释义

例句

1.The shipbuilder demonstrated how water tight riveting can enhance the durability of marine vessels.

造船工演示了如何通过防水铆接增强海洋船只的耐用性。

2.The aerospace industry relies on water tight riveting to maintain the integrity of fuel tanks.

航空航天工业依赖于防水铆接来保持燃料箱的完整性。

3.The engineer emphasized the importance of water tight riveting in ensuring the boat's hull remains leak-free.

工程师强调了防水铆接在确保船体保持无泄漏方面的重要性。

4.During the construction of the dam, water tight riveting was crucial to prevent any water seepage.

在大坝的建设过程中，防水铆接对于防止任何水渗漏至关重要。

5.To achieve water tight riveting, special techniques and materials are often required.

要实现防水铆接，通常需要特殊的技术和材料。

作文

In the field of engineering, especially in shipbuilding and construction, the term water tight riveting is of paramount importance. It refers to a method of joining materials, typically metal plates, in such a way that they prevent water from penetrating through the seams. This technique is crucial for ensuring the integrity and durability of structures that are frequently exposed to moisture or submerged in water. For instance, ships and submarines rely heavily on water tight riveting to maintain their buoyancy and prevent leaks that could lead to catastrophic failures at sea.The process of water tight riveting involves using specially designed rivets that are engineered to create a strong bond between the plates while also providing a seal against water ingress. These rivets are often made from corrosion-resistant materials to withstand harsh marine environments. The effectiveness of this method lies not only in the strength of the rivets but also in the skill of the craftsmen who apply them. Properly executed water tight riveting can significantly extend the lifespan of a vessel or any structure subjected to water exposure.Historically, water tight riveting has been a critical component in the design of naval vessels. The Titanic, for example, was constructed using this technique; however, the tragedy that befell her demonstrates that even the best engineering practices can be compromised if not executed correctly. The rivets used in her construction were later scrutinized, and it was suggested that the quality of the materials may have contributed to her sinking. This incident underscores the importance of not just the technique itself but also the quality control measures surrounding it.In modern engineering, advancements in technology have led to the development of new methods and materials that complement traditional water tight riveting. For instance, welding techniques have become more prevalent, offering alternative solutions that can sometimes provide superior results. However, the classic method of riveting remains a staple in certain applications, particularly where historical accuracy is essential or where the aesthetic value of riveted joints is desired.The significance of water tight riveting extends beyond just practical applications; it also plays a role in the preservation of maritime history. Many historic ships are restored using traditional methods, including water tight riveting, to maintain their authenticity. This practice not only honors the craftsmanship of the past but also educates future generations about the engineering feats achieved by earlier civilizations.In conclusion, water tight riveting is more than just a technical term; it embodies the intersection of art and science in engineering. Whether in the construction of a modern yacht or the restoration of a historic battleship, the principles of water tight riveting remain relevant. Understanding this technique provides insight into the challenges faced by engineers and craftsmen throughout history and illustrates the continuous evolution of engineering practices. As we move forward, it is crucial to preserve these traditional methods while embracing innovation, ensuring that our structures remain safe and resilient against the forces of nature.

在工程领域，特别是在造船和建筑行业，术语水密铆接至关重要。它指的是一种连接材料（通常是金属板）的方法，以防止水通过接缝渗透。这种技术对于确保经常暴露于潮湿环境或沉入水中的结构的完整性和耐久性至关重要。例如，船只和潜艇在保持浮力和防止可能导致海上灾难性故障的泄漏方面严重依赖水密铆接。水密铆接的过程涉及使用专门设计的铆钉，这些铆钉经过工程设计，以便在板之间创建强大的结合，并提供防止水渗透的密封。这些铆钉通常由耐腐蚀材料制成，以承受恶劣的海洋环境。这种方法的有效性不仅在于铆钉的强度，还在于施加铆钉工匠的技能。正确执行的水密铆接可以显著延长船只或任何暴露于水中的结构的使用寿命。历史上，水密铆接一直是海军舰艇设计中的关键组成部分。例如，泰坦尼克号就是采用这种技术建造的；然而，降临于她的悲剧表明，即使是最好的工程实践，如果没有正确执行，也可能会受到影响。对她建造中使用的铆钉进行了审查，后来有人提出材料的质量可能导致了她的沉没。这一事件强调了不仅仅是技术本身的重要性，还有围绕它的质量控制措施。在现代工程中，技术的进步导致了新方法和材料的发展，这些方法和材料补充了传统的水密铆接。例如，焊接技术变得更加普遍，提供了有时能提供更好结果的替代解决方案。然而，铆接的经典方法仍然是某些应用中的主流，特别是在需要历史准确性或希望保留铆接接头的美学价值的地方。水密铆接的重要性不仅限于实用应用；它在海洋历史的保护中也发挥着作用。许多历史船只在修复过程中采用传统方法，包括水密铆接，以保持其真实性。这种做法不仅尊重过去的工艺，还教育未来几代人了解早期文明所取得的工程壮举。总之，水密铆接不仅仅是一个技术术语；它体现了工程中艺术与科学的交汇点。无论是在现代游艇的建造中，还是在历史战舰的修复中，水密铆接的原则仍然适用。理解这一技术为我们提供了对工程师和工匠在历史上面临的挑战的洞察，并说明了工程实践的持续演变。随着我们向前发展，保护这些传统方法与拥抱创新同样重要，确保我们的结构能够安全、坚韧地抵御自然力量。