diagonal stay
简明释义
斜牵条
英英释义
例句
1.In the engineering class, we learned about the importance of a diagonal stay in bridge construction.
在工程课上,我们学习了斜撑在桥梁建设中的重要性。
2.For the new tower, engineers decided to implement a diagonal stay system for better load distribution.
对于新塔,工程师决定实施斜撑系统以更好地分配负载。
3.To prevent the tent from collapsing, we used a diagonal stay for additional support.
为了防止帐篷倒塌,我们使用了斜撑来提供额外支持。
4.The sailboat's mast was reinforced with a diagonal stay to withstand rough seas.
帆船的桅杆用斜撑加固,以抵御恶劣海况。
5.The architect designed the structure with a diagonal stay to enhance stability during strong winds.
建筑师设计了这个结构,采用了斜撑以增强在强风中的稳定性。
作文
In the world of engineering and architecture, stability is a crucial factor that influences the design and construction of structures. One of the key elements that contribute to this stability is the use of various support systems. Among these systems, the diagonal stay plays a significant role. A diagonal stay is a type of tension member used in structures to provide additional support by distributing loads more effectively. It is typically installed at an angle, connecting different parts of a structure to enhance its overall rigidity and strength.The concept of using diagonal stays can be observed in various architectural designs, especially in bridges and tall buildings. For instance, in suspension bridges, diagonal stays are essential for maintaining the stability of the bridge deck. They help to counteract the forces acting on the structure, such as wind and traffic loads, ensuring that the bridge remains safe and functional.Moreover, in skyscrapers, diagonal stays are often incorporated into the framework to resist lateral forces caused by wind or seismic activity. By providing diagonal bracing, engineers can significantly increase the building's ability to withstand these forces without compromising its aesthetic appeal. This innovative approach allows for taller buildings with more open spaces, as the diagonal stay system effectively manages the stresses that would otherwise lead to structural failure.The use of diagonal stays is not limited to large-scale constructions; they are also found in smaller structures, such as towers and masts. In telecommunications towers, for example, diagonal stays are employed to ensure that the tower remains upright and stable. These stays help to distribute the weight of the equipment mounted on the tower, preventing it from toppling over due to heavy winds or other external forces.In addition to their practical applications, diagonal stays also add an aesthetic dimension to structures. The crisscross patterns created by these tension members can enhance the visual appeal of a building or bridge, making them not only functional but also beautiful. Architects often consider the placement of diagonal stays as part of their overall design strategy, blending form and function seamlessly.As we look towards the future, the importance of diagonal stays in engineering will only continue to grow. With the increasing demand for sustainable and resilient structures, engineers will need to find innovative ways to incorporate these supports into their designs. Advances in materials science may lead to the development of lighter and stronger diagonal stays, allowing for even more ambitious architectural projects.In conclusion, the diagonal stay is an essential component in modern engineering and architecture, providing stability and strength to a wide range of structures. Its ability to distribute loads effectively makes it invaluable in the design of bridges, skyscrapers, and various other constructions. As we embrace new technologies and ideas, the role of diagonal stays will undoubtedly evolve, continuing to shape the way we build and interact with our environment. Understanding the significance of diagonal stays is crucial for anyone interested in the fields of architecture and engineering, as they represent a perfect blend of functionality and aesthetic beauty.
在工程和建筑的世界中,稳定性是影响结构设计和施工的关键因素之一。各种支撑系统的使用对这种稳定性起着重要作用。在这些系统中,斜撑发挥着重要作用。斜撑是一种用于结构的拉力构件,通过更有效地分配荷载来提供额外的支持。它通常以角度安装,连接结构的不同部分,以增强其整体刚度和强度。使用斜撑的概念可以在各种建筑设计中观察到,尤其是在桥梁和高楼大厦中。例如,在悬索桥中,斜撑对于维持桥面稳定至关重要。它们有助于抵消作用于结构上的力量,如风和交通荷载,确保桥梁保持安全和功能。此外,在摩天大楼中,斜撑常常被纳入框架中,以抵御由风或地震活动引起的侧向力。通过提供斜向支撑,工程师可以显著提高建筑物承受这些力量的能力,而不影响其美学吸引力。这种创新的方法允许建造更高的建筑,并拥有更多的开放空间,因为斜撑系统有效地管理着本可能导致结构失效的应力。斜撑的使用并不仅限于大型建筑;它们也出现在小型结构中,如塔和桅杆。例如,在通信塔中,斜撑被用来确保塔保持直立和稳定。这些支撑有助于分配安装在塔上的设备的重量,防止其因强风或其他外部力量而倾倒。除了实用应用之外,斜撑还为结构增添了美学维度。这些拉力构件所形成的交叉图案可以增强建筑或桥梁的视觉吸引力,使它们不仅具有功能性,而且也很美观。建筑师通常将斜撑的放置视为整体设计策略的一部分,完美融合形式与功能。展望未来,斜撑在工程中的重要性只会继续增长。随着对可持续和韧性结构需求的增加,工程师需要寻找创新的方法将这些支撑纳入他们的设计中。材料科学的进步可能会导致更轻、更强的斜撑的发展,从而允许进行更雄心勃勃的建筑项目。总之,斜撑是现代工程和建筑中的一个重要组成部分,为广泛的结构提供稳定性和强度。它有效分配荷载的能力使其在桥梁、高楼大厦和各种其他建筑设计中不可或缺。随着我们接受新技术和新思想,斜撑的角色无疑会不断发展,继续塑造我们建筑和与环境互动的方式。理解斜撑的重要性对于任何对建筑和工程领域感兴趣的人来说都是至关重要的,因为它们代表了功能性与美学之美的完美结合。
