coupling wall—beam

简明释义

连梁

英英释义

例句

1.In our project, the coupling wall—beam is designed to enhance the overall ductility of the structure.

在我们的项目中，耦合墙-梁的设计旨在增强结构的整体延展性。

2.The failure of the coupling wall—beam could lead to catastrophic results in case of an earthquake.

如果发生地震，耦合墙-梁的失效可能导致灾难性的后果。

3.Engineers must consider the load distribution when analyzing the coupling wall—beam in high-rise buildings.

工程师在分析高层建筑中的耦合墙-梁时，必须考虑荷载分布。

4.The design of the structure heavily relies on the strength of the coupling wall—beam to ensure stability during seismic events.

该结构的设计在很大程度上依赖于耦合墙-梁的强度，以确保在地震事件中的稳定性。

5.The coupling wall—beam acts as a critical component in transferring lateral forces to the foundation.

该耦合墙-梁作为一个关键组件，将横向力传递到基础。

作文

In the field of structural engineering, the design and analysis of buildings require a deep understanding of various components that work together to ensure stability and safety. One such crucial element is the coupling wall—beam, which plays a significant role in enhancing the overall performance of a structure. This essay aims to explore the concept of the coupling wall—beam, its importance, and its applications in modern architecture.A coupling wall—beam refers to a structural element that connects two walls or vertical elements, allowing them to act together under lateral loads, such as those caused by wind or earthquakes. By coupling these walls, engineers can create a more robust system that distributes forces evenly, reducing the likelihood of failure during extreme conditions. This is particularly important in seismic-prone areas, where buildings must be designed to withstand significant lateral forces.The primary function of a coupling wall—beam is to enhance the stiffness and strength of the walls it connects. When walls are coupled, they can share loads, which helps to prevent excessive deformation and potential collapse. This is especially vital in high-rise buildings, where the effects of lateral forces can be magnified due to the height and flexibility of the structure. By incorporating a coupling wall—beam into the design, architects and engineers can ensure that their buildings remain safe and resilient under various conditions.Moreover, the use of a coupling wall—beam can also improve the overall architectural aesthetics of a building. By strategically placing these beams, designers can create open spaces and unique layouts that enhance the functionality and visual appeal of a structure. This versatility allows for innovative designs that meet both structural requirements and the artistic vision of the architect.In addition to its structural benefits, the coupling wall—beam also plays a critical role in construction efficiency. By using this element, builders can simplify the construction process, as it reduces the number of separate structural components needed to achieve stability. This not only saves time and resources but also minimizes the risk of errors during construction, leading to a more reliable final product.Furthermore, advancements in materials and technology have allowed for the development of more effective coupling wall—beam systems. Engineers can now utilize high-strength materials and innovative design techniques to create beams that are lighter yet stronger than traditional options. This evolution in construction materials contributes to sustainable building practices, as lighter structures often require less energy to produce and transport.In conclusion, the coupling wall—beam is an essential component in modern structural engineering, providing enhanced stability, aesthetic flexibility, and construction efficiency. As buildings continue to grow taller and face increasingly complex challenges, the importance of such innovative solutions will only continue to rise. Understanding the role of the coupling wall—beam is crucial for engineers and architects alike, as they strive to create safe, functional, and visually appealing structures that can withstand the test of time and nature.

在结构工程领域，建筑的设计和分析需要深入理解各种组件，这些组件共同作用以确保稳定性和安全性。其中一个关键元素是耦合墙-梁，它在增强结构整体性能方面起着重要作用。本文旨在探讨耦合墙-梁的概念、重要性及其在现代建筑中的应用。耦合墙-梁是指连接两面墙或垂直构件的结构元素，使它们能够在侧向荷载（例如风或地震引起的荷载）下共同作用。通过耦合这些墙体，工程师可以创建一个更强大的系统，均匀分配力，从而减少在极端条件下发生失效的可能性。这在地震多发地区尤为重要，因为建筑必须设计成能够承受显著的侧向力。耦合墙-梁的主要功能是增强其连接的墙体的刚度和强度。当墙体被耦合时，它们可以共享荷载，这有助于防止过度变形和潜在的倒塌。这在高层建筑中尤其重要，因为由于结构的高度和柔韧性，侧向力的影响可能会被放大。通过在设计中加入耦合墙-梁，建筑师和工程师可以确保他们的建筑在各种条件下保持安全和韧性。此外，使用耦合墙-梁还可以改善建筑的整体美学。通过战略性地放置这些梁，设计师可以创造开放空间和独特布局，增强结构的功能性和视觉吸引力。这种多样性允许创新设计，既满足结构要求，又符合建筑师的艺术愿景。除了结构性好处外，耦合墙-梁在施工效率方面也起着关键作用。通过使用这一元素，建筑商可以简化施工过程，因为它减少了实现稳定性所需的单独结构组件的数量。这不仅节省了时间和资源，还最小化了施工过程中出错的风险，从而导致更可靠的最终产品。此外，材料和技术的发展使得更有效的耦合墙-梁系统的开发成为可能。工程师现在可以利用高强度材料和创新设计技术，创建比传统选项更轻但更强的梁。这种建筑材料的演变有助于可持续建筑实践，因为较轻的结构通常需要更少的能量来生产和运输。总之，耦合墙-梁是现代结构工程中的一个基本组成部分，提供增强的稳定性、美学灵活性和施工效率。随着建筑不断增高并面临日益复杂的挑战，这种创新解决方案的重要性只会继续上升。理解耦合墙-梁的作用对于工程师和建筑师来说至关重要，因为他们努力创造能够经受时间和自然考验的安全、功能性和视觉吸引力兼具的结构。