cross stiffening

简明释义

用交叉构件防挠

英英释义

例句

1.The engineers decided to use cross stiffening to enhance the structural integrity of the bridge.

工程师们决定使用交叉加劲来增强桥梁的结构完整性。

2.The team implemented cross stiffening in the walls to improve resistance to lateral forces.

团队在墙体中实施了交叉加劲以提高对横向力的抵抗力。

3.Using cross stiffening can significantly reduce vibrations in tall buildings.

使用交叉加劲可以显著减少高楼的振动。

4.In the design phase, cross stiffening was suggested to prevent deformation under heavy loads.

在设计阶段，建议使用交叉加劲以防止在重载下变形。

5.The architect recommended cross stiffening for the roof to ensure stability during storms.

建筑师建议在屋顶上使用交叉加劲以确保在风暴期间的稳定性。

作文

In the field of structural engineering, the concept of cross stiffening plays a crucial role in enhancing the stability and strength of various structures. Cross stiffening refers to the technique of adding diagonal braces or members in a framework to improve its rigidity and load-bearing capacity. This method is particularly beneficial in buildings, bridges, and towers where lateral forces, such as wind or seismic activity, can significantly impact structural integrity.One of the primary advantages of cross stiffening is its ability to distribute loads more evenly across a structure. When lateral forces act on a building, they can cause it to sway or deform. By incorporating cross stiffening, engineers can create a more robust framework that resists these forces, thereby reducing the risk of structural failure. For example, many skyscrapers utilize cross stiffening in their design to ensure they can withstand high winds without compromising safety.Moreover, cross stiffening can also enhance the overall aesthetic of a structure. The diagonal lines created by the braces can add visual interest and uniqueness to a building's design. Architects often collaborate with engineers to integrate cross stiffening into their plans in a way that complements the architectural vision while also meeting safety standards.In addition to buildings, cross stiffening is also vital in the construction of bridges. The forces acting on a bridge can be complex, with tension and compression working in tandem. By implementing cross stiffening, engineers can create a more stable bridge that can accommodate heavy loads and dynamic movements. This technique has been successfully used in various iconic bridges around the world, showcasing its effectiveness and importance in modern engineering.Furthermore, cross stiffening is not limited to new constructions; it can also be applied in retrofitting existing structures. Many older buildings may not have been designed to handle current load requirements or environmental factors. By adding cross stiffening elements, engineers can significantly improve the resilience of these structures, prolonging their lifespan and ensuring the safety of occupants.In conclusion, cross stiffening is an essential technique in structural engineering that enhances the stability and safety of buildings, bridges, and other structures. Its ability to distribute loads effectively and resist lateral forces makes it a valuable tool for engineers and architects alike. As we continue to innovate and develop new construction methods, the importance of cross stiffening will undoubtedly remain significant in creating safe and durable infrastructures for future generations.

在结构工程领域，交叉加固的概念在增强各种结构的稳定性和强度方面起着至关重要的作用。交叉加固是指在框架中添加对角支撑或构件，以提高其刚度和承载能力。这种方法在建筑物、桥梁和塔楼等地方尤其有益，因为侧向力（如风或地震活动）会显著影响结构的完整性。交叉加固的主要优点之一是能够更均匀地分配结构上的负载。当侧向力作用于建筑物时，会导致其摇摆或变形。通过采用交叉加固，工程师可以创建一个更坚固的框架，以抵抗这些力量，从而降低结构失效的风险。例如，许多摩天大楼在设计中利用交叉加固，以确保它们能够承受强风而不危及安全。此外，交叉加固还可以增强结构的整体美感。支撑所形成的对角线可以为建筑设计增添视觉趣味和独特性。建筑师通常与工程师合作，将交叉加固融入他们的计划中，以补充建筑的美学愿景，同时满足安全标准。除了建筑物，交叉加固在桥梁的建造中也至关重要。作用于桥梁的力量可能很复杂，拉力和压力并存。通过实施交叉加固，工程师可以创建一个更稳定的桥梁，以适应重载和动态运动。这种技术已在世界各地的各种标志性桥梁中成功应用，展示了其有效性和现代工程中的重要性。此外，交叉加固不仅限于新建结构；它还可以应用于对现有结构的加固。许多老建筑可能没有设计来应对当前的负载要求或环境因素。通过添加交叉加固元素，工程师可以显著提高这些结构的韧性，延长其使用寿命，并确保居住者的安全。总之，交叉加固是结构工程中一种重要的技术，增强了建筑物、桥梁和其他结构的稳定性和安全性。其有效分配负载和抵抗侧向力的能力使其成为工程师和建筑师的宝贵工具。随着我们继续创新和发展新的建筑方法，交叉加固的重要性无疑将在为未来几代人创造安全耐用的基础设施方面保持重要。