buttress coupling

简明释义

加强接箍;

英英释义

例句

1.The team analyzed the benefits of buttress coupling in their structural model.

团队分析了他们的结构模型中支撑耦合的好处。

2.In our latest project, we implemented buttress coupling to ensure better load distribution.

在我们最新的项目中，我们实施了支撑耦合以确保更好的荷载分配。

3.The architect recommended buttress coupling for the tall buildings to withstand wind forces.

建筑师建议对高楼采用支撑耦合以抵御风力。

4.Using buttress coupling in the design helped prevent structural failure during earthquakes.

在设计中使用支撑耦合有助于防止地震期间的结构失效。

5.The engineers decided to use buttress coupling to enhance the stability of the bridge structure.

工程师们决定使用支撑耦合来增强桥梁结构的稳定性。

作文

In the realm of engineering and structural design, the term buttress coupling refers to a method of connecting two structures or elements in a manner that enhances their stability and strength. This concept is particularly important in the construction of buildings, bridges, and other large infrastructures where the integrity of the structure is paramount. A buttress coupling involves the use of buttresses, which are architectural supports that project from a wall, thereby redistributing weight and providing additional support to the structure. This technique not only improves the load-bearing capacity of the primary structure but also ensures that it can withstand various environmental stresses such as wind, seismic activity, and other forces.The application of buttress coupling can be seen in various historical and modern architectures. For instance, Gothic cathedrals often employed flying buttresses, which are a form of buttress coupling, to support high walls and large windows. These architectural innovations allowed for the creation of massive structures with intricate designs while maintaining stability. In contemporary engineering, buttress coupling is utilized in the construction of dams, retaining walls, and even in the design of certain types of bridges where additional support is necessary to ensure safety and longevity.Understanding the principles behind buttress coupling is crucial for engineers and architects alike. It requires a deep knowledge of materials, forces, and the behavior of structures under various conditions. When designing a structure that incorporates buttress coupling, engineers must consider factors such as the types of loads the structure will face, the materials used in construction, and the overall design aesthetic. This multifaceted approach allows for the creation of safe, functional, and visually appealing structures.Moreover, the concept of buttress coupling extends beyond physical structures. In a metaphorical sense, it can be applied to various fields such as sociology and psychology, where different elements or individuals come together to provide support and strength to one another. For example, in a community setting, individuals may form partnerships or groups that act as a buttress coupling, offering emotional and practical support during challenging times. This analogy highlights the importance of collaboration and support systems in achieving resilience and stability in various aspects of life.In conclusion, the term buttress coupling encapsulates a vital concept in both structural engineering and broader social contexts. By understanding its implications and applications, we can appreciate the intricacies involved in creating stable and resilient structures, whether they are physical buildings or social frameworks. As we continue to develop our built environment, the principles of buttress coupling will undoubtedly play a significant role in ensuring that our structures remain safe, functional, and enduring for future generations.

在工程和结构设计的领域中，术语buttress coupling指的是一种连接两个结构或元素的方法，以增强它们的稳定性和强度。这个概念在建筑、桥梁和其他大型基础设施的建设中尤为重要，因为结构的完整性至关重要。buttress coupling涉及使用支撑物，这是一种从墙壁突出并重新分配重量的建筑支撑，从而为结构提供额外支持。这种技术不仅提高了主要结构的承载能力，还确保其能够承受风、地震活动和其他各种环境压力。buttress coupling的应用可以在各种历史和现代建筑中看到。例如，哥特式大教堂常常采用飞扶壁，这是一种buttress coupling形式，以支撑高墙和大窗户。这些建筑创新使得可以创造出巨大的结构和复杂的设计，同时保持稳定性。在当代工程中，buttress coupling被用于大坝、挡土墙甚至某些类型桥梁的设计中，在这些地方需要额外的支持以确保安全性和耐久性。理解buttress coupling背后的原则对工程师和建筑师来说至关重要。这需要对材料、力学以及结构在各种条件下的行为有深刻的了解。在设计包含buttress coupling的结构时，工程师必须考虑结构所面临的负载类型、施工中使用的材料以及整体设计美学。这种多方面的方法允许创建安全、功能性和视觉吸引力兼备的结构。此外，buttress coupling的概念超越了物理结构。从隐喻的角度来看，它可以应用于社会学和心理学等各个领域，在这些领域中，不同的元素或个体聚在一起，为彼此提供支持和力量。例如，在社区环境中，个体可能形成伙伴关系或团体，作为一种buttress coupling，在困难时期提供情感和实际支持。这一类比突显了在生活的各个方面实现韧性和稳定性时，合作与支持系统的重要性。总之，术语buttress coupling概括了结构工程和更广泛的社会背景中的一个重要概念。通过理解其含义和应用，我们可以欣赏到在创造稳定和韧性结构时所涉及的复杂性，无论是物理建筑还是社会框架。随着我们继续发展我们的建筑环境，buttress coupling的原则无疑将在确保我们的结构对未来几代人保持安全、功能性和持久性方面发挥重要作用。