coupling wall—column

简明释义

墙肢

英英释义

例句

1.In seismic design, the coupling wall—column plays a crucial role in energy dissipation.

在抗震设计中，耦合墙—柱在能量耗散中起着至关重要的作用。

2.The design of the building includes a coupling wall—column system to enhance lateral stability.

该建筑的设计包括一个耦合墙—柱系统，以增强侧向稳定性。

3.Engineers often use a coupling wall—column to transfer loads effectively between floors.

工程师们经常使用耦合墙—柱有效地传递楼层之间的荷载。

4.By incorporating a coupling wall—column, the structure can withstand higher wind loads.

通过加入耦合墙—柱，结构可以承受更高的风荷载。

5.The architect proposed a coupling wall—column configuration to optimize the building's structural performance.

建筑师提出了一种耦合墙—柱配置，以优化建筑的结构性能。

作文

In the field of structural engineering, the design and analysis of buildings require a comprehensive understanding of various elements that contribute to the overall stability and strength of the structure. One such crucial element is the coupling wall—column, which plays a significant role in enhancing the lateral load resistance of buildings, particularly in seismic-prone areas. The coupling wall—column system consists of walls and columns that work together to provide support and distribute loads effectively throughout the structure. The primary function of a coupling wall—column is to connect two or more shear walls, allowing them to act as a single unit when subjected to lateral forces, such as those caused by wind or earthquakes. This coupling mechanism significantly improves the rigidity and strength of the building, reducing the likelihood of structural failure during extreme conditions. By integrating the coupling wall—column into the design, engineers can ensure that the building maintains its integrity and safety under duress.Moreover, the coupling wall—column system can be designed to accommodate various architectural styles and requirements. For instance, in modern skyscrapers, where open spaces are desired, the coupling wall—column allows for the creation of larger, unobstructed floor plans without compromising safety. The strategic placement of these elements can lead to innovative designs while maintaining compliance with building codes and regulations.The construction process of a coupling wall—column system requires careful planning and execution. Engineers must consider factors such as material selection, load distribution, and the overall geometry of the building. Reinforced concrete is commonly used for coupling wall—columns due to its high strength and durability. The reinforcement bars within the concrete provide additional tensile strength, allowing the structure to withstand significant forces without cracking or collapsing.Furthermore, the performance of a coupling wall—column can be evaluated through various testing methods, including shake table tests and finite element analysis. These techniques help engineers understand how the structure will behave under real-world conditions, enabling them to make informed decisions during the design phase. By simulating different scenarios, engineers can optimize the coupling wall—column system to enhance its performance and ensure the safety of the occupants.In conclusion, the coupling wall—column is an essential component in modern structural engineering, providing enhanced stability and safety for buildings. Its ability to connect shear walls and distribute loads effectively makes it a vital element in the design of structures, especially in areas susceptible to seismic activity. As engineering practices continue to evolve, the importance of understanding and implementing effective coupling wall—column systems will only grow, ensuring that our buildings remain safe and resilient in the face of natural disasters.

在结构工程领域，建筑的设计和分析需要全面理解各种元素，这些元素对结构的整体稳定性和强度至关重要。其中一个关键元素是耦合墙-柱，它在增强建筑的侧向载荷抵抗力方面发挥着重要作用，特别是在地震频发的地区。耦合墙-柱系统由墙体和柱子组成，它们共同工作，以有效提供支撑并分配负载。耦合墙-柱的主要功能是连接两个或多个剪力墙，使它们在受到侧向力（例如风或地震引起的力）时能够作为一个整体来发挥作用。这种耦合机制显著提高了建筑的刚度和强度，减少了在极端条件下结构失效的可能性。通过将耦合墙-柱纳入设计，工程师可以确保建筑在压力下保持其完整性和安全性。此外，耦合墙-柱系统可以设计成适应各种建筑风格和要求。例如，在现代摩天大楼中，期望有开放空间，耦合墙-柱允许创建更大且无障碍的平面，而不会影响安全性。这些元素的战略性布局可以导致创新设计，同时遵守建筑规范和法规。耦合墙-柱系统的施工过程需要仔细的规划和执行。工程师必须考虑材料选择、负载分配和建筑的整体几何形状等因素。由于其高强度和耐久性，通常使用钢筋混凝土作为耦合墙-柱。混凝土中的钢筋提供额外的抗拉强度，使结构能够在不出现裂缝或倒塌的情况下承受显著的力。此外，可以通过各种测试方法评估耦合墙-柱的性能，包括振动台测试和有限元分析。这些技术帮助工程师了解结构在现实条件下的表现，使他们能够在设计阶段做出明智的决策。通过模拟不同场景，工程师可以优化耦合墙-柱系统，以增强其性能并确保居住者的安全。总之，耦合墙-柱是现代结构工程中的一个重要组成部分，为建筑提供了增强的稳定性和安全性。它连接剪力墙并有效分配负载的能力，使其成为设计结构时的重要元素，尤其是在易受地震影响的地区。随着工程实践的不断发展，理解和实施有效的耦合墙-柱系统的重要性只会增加，确保我们的建筑在自然灾害面前保持安全和韧性。