all welded construction

简明释义

全焊接结构

英英释义

例句

1.The new factory building features an all welded construction that allows for faster assembly and reduced labor costs.

新工厂大楼采用了全焊接结构，这使得组装速度更快，降低了人工成本。

2.In the aerospace industry, all welded construction is often preferred for its lightweight yet strong characteristics.

在航空航天工业中，通常更喜欢使用全焊接结构，因为它具有轻便而坚固的特性。

3.Engineers recommend all welded construction for underwater pipelines to prevent leaks and ensure integrity.

工程师建议对水下管道采用全焊接结构，以防止泄漏并确保完整性。

4.The bridge was designed using all welded construction to ensure maximum strength and durability.

这座桥采用了全焊接结构设计，以确保最大的强度和耐用性。

5.The use of all welded construction in shipbuilding enhances the vessel's resistance to harsh marine environments.

在造船中使用全焊接结构增强了船只对恶劣海洋环境的抵抗力。

作文

In modern engineering and construction, the term all welded construction refers to a method of assembling structures using welding as the sole means of joining components. This technique has gained significant popularity due to its numerous advantages over traditional methods that may involve bolts or rivets. The use of all welded construction ensures a seamless and robust connection between parts, which can enhance the overall integrity and durability of the structure.One of the primary benefits of all welded construction is its ability to create stronger joints compared to mechanical fasteners. Welding fuses materials together at a molecular level, resulting in a continuous bond that can withstand greater stress and strain. This is particularly important in applications where safety is paramount, such as in bridges, high-rise buildings, and industrial facilities. The strength of welded joints often exceeds that of the base materials, making all welded construction a reliable choice for critical structural components.Another advantage is the reduction of weight in the overall structure. By eliminating the need for bolts and other fastening elements, engineers can design lighter frameworks without compromising strength. This is especially beneficial in industries like aerospace and automotive, where weight savings can lead to improved performance and fuel efficiency. The streamlined nature of all welded construction also contributes to a cleaner aesthetic in architectural designs, allowing for more innovative and visually appealing structures.Moreover, all welded construction can significantly reduce construction time. Traditional methods often require multiple steps, including drilling holes, inserting fasteners, and tightening them. In contrast, welding can be performed quickly and efficiently, allowing projects to move forward at a faster pace. This efficiency not only accelerates project timelines but can also lead to cost savings for both contractors and clients.However, it is important to note that all welded construction does come with its own set of challenges. The quality of welds is crucial; poor welding can lead to catastrophic failures. Therefore, it is essential for welders to be highly skilled and for projects to be overseen by experienced engineers who can ensure quality control throughout the construction process. Additionally, certain materials may not be suitable for welding, which can limit the applicability of all welded construction in some scenarios.In conclusion, all welded construction represents a significant advancement in construction techniques, offering enhanced strength, reduced weight, and shorter project durations. As technology continues to evolve, the methods and materials used in welding will likely improve, further solidifying the role of all welded construction in modern engineering. As we strive for safer, more efficient, and aesthetically pleasing structures, understanding and mastering this technique will be essential for future generations of engineers and builders.

在现代工程和建筑中，术语全焊接结构指的是一种使用焊接作为连接组件的唯一手段来组装结构的方法。这种技术因其相对于传统方法（可能涉及螺栓或铆钉）所带来的众多优点而获得了显著的普及。使用全焊接结构确保了部件之间的无缝和坚固连接，这可以增强结构的整体完整性和耐久性。全焊接结构的主要优点之一是它能够创造出比机械连接件更强的接头。焊接在分子层面上将材料融合在一起，形成一个连续的结合，可以承受更大的压力和应变。这在安全至关重要的应用中尤为重要，如桥梁、高层建筑和工业设施。焊接接头的强度通常超过基材的强度，使得全焊接结构成为关键结构组件的可靠选择。另一个优势是整体结构的重量减轻。通过消除对螺栓和其他连接元件的需求，工程师可以设计出更轻的框架，而不妥协于强度。这在航空航天和汽车等行业尤其有利，因为减轻重量可以提高性能和燃油效率。全焊接结构的流线型特性也有助于建筑设计中的更洁净的美学，允许更具创新性和视觉吸引力的结构。此外，全焊接结构可以显著减少施工时间。传统方法通常需要多个步骤，包括钻孔、插入紧固件和拧紧它们。相比之下，焊接可以快速高效地进行，使项目能够更快推进。这种效率不仅加快了项目的时间表，还可以为承包商和客户节省成本。然而，需要注意的是，全焊接结构确实存在自身的一些挑战。焊接质量至关重要；劣质焊接可能导致灾难性故障。因此，焊工必须具备高超的技能，项目必须由经验丰富的工程师监督，以确保在整个施工过程中进行质量控制。此外，某些材料可能不适合焊接，这可能限制全焊接结构在某些场景中的适用性。总之，全焊接结构代表了一种重要的建筑技术进步，提供了增强的强度、减轻的重量和更短的项目持续时间。随着技术的不断发展，焊接中使用的方法和材料可能会得到改善，进一步巩固全焊接结构在现代工程中的作用。在我们追求更安全、更高效和更具美感的结构时，理解和掌握这一技术对于未来几代工程师和建筑者来说将是至关重要的。