frame with sidesway

简明释义

有侧移框架

英英释义

例句

1.The contractor explained that using a frame with sidesway can improve the overall stability of the structure.

承包商解释说，使用侧摆框架可以提高结构的整体稳定性。

2.When analyzing the structure, we found that the frame with sidesway could lead to increased lateral forces.

在分析结构时，我们发现侧摆框架可能会导致增加的横向力。

3.During the simulation, the model exhibited behavior typical of a frame with sidesway under dynamic loads.

在模拟过程中，模型表现出在动态荷载下典型的侧摆框架行为。

4.In civil engineering, a frame with sidesway is often used in tall buildings to accommodate wind loads.

在土木工程中，侧摆框架通常用于高层建筑，以适应风荷载。

5.The architect designed a building with a frame with sidesway to allow for greater flexibility during earthquakes.

建筑师设计了一座具有侧摆框架的建筑，以在地震期间提供更大的灵活性。

作文

In the world of architecture and engineering, the concept of stability is paramount. Structures must be designed to withstand various forces, including wind, earthquakes, and other environmental impacts. One interesting phenomenon that can occur in buildings is known as a frame with sidesway (侧向摆动框架). This term refers to a structural frame that is not only subjected to vertical loads but also experiences lateral movements due to external forces. Understanding this concept is crucial for engineers and architects alike, as it directly affects the integrity and safety of a building. When a building is constructed, it is typically designed to handle vertical loads, such as the weight of the materials and occupants. However, during events like strong winds or seismic activity, the structure may experience lateral forces that can cause it to sway. A frame with sidesway (侧向摆动框架) is particularly vulnerable in these situations, as the lateral movement can lead to increased stress on the joints and connections within the frame. To illustrate the importance of addressing sidesway in design, consider a tall skyscraper located in a windy city. Engineers must account for the potential lateral forces acting on the building. If they fail to do so, the building could experience excessive sway, leading to discomfort for occupants and potential structural failure. Therefore, incorporating mechanisms to counteract a frame with sidesway (侧向摆动框架) is essential. One common solution is the use of bracing systems, which provide additional support to resist lateral forces. These systems can include diagonal braces, shear walls, or moment-resisting frames that help stabilize the structure. By implementing these solutions, engineers can minimize the effects of a frame with sidesway (侧向摆动框架) and ensure the building remains safe and functional. Moreover, advancements in technology have allowed for more sophisticated modeling and simulation techniques. Engineers can now predict how a structure will respond to various forces, including the effects of a frame with sidesway (侧向摆动框架). This predictive capability enables them to make informed decisions during the design phase, ultimately leading to safer and more resilient buildings. In conclusion, the concept of a frame with sidesway (侧向摆动框架) is a critical consideration in modern architecture and engineering. By understanding the implications of lateral movement and implementing effective design strategies, professionals can create structures that not only withstand vertical loads but also remain stable during lateral forces. This knowledge is vital in ensuring the safety and longevity of buildings, especially in areas prone to high winds or seismic activity. As we continue to push the boundaries of architectural design, addressing the challenges posed by a frame with sidesway (侧向摆动框架) will remain a priority for engineers and architects alike.

在建筑和工程的世界中，稳定性是至关重要的。结构必须设计成能够承受各种力量，包括风、地震和其他环境影响。在建筑物中可能发生的一个有趣现象被称为侧向摆动框架。这个术语指的是一个不仅受到垂直荷载而且由于外力而经历横向运动的结构框架。理解这一概念对工程师和建筑师来说至关重要，因为它直接影响到建筑的完整性和安全性。当一座建筑被建造时，通常会设计成能够处理垂直荷载，例如材料和居住者的重量。然而，在强风或地震活动等事件期间，结构可能会经历横向力量，导致其摇摆。侧向摆动框架在这种情况下特别脆弱，因为横向运动可能导致框架内的接头和连接处承受更大的压力。为了说明在设计中解决摆动问题的重要性，可以考虑一座位于多风城市的高层摩天大楼。工程师必须考虑作用于建筑物的潜在横向力量。如果他们未能做到这一点，建筑物可能会经历过度的摇摆，导致居住者的不适和潜在的结构失败。因此，结合机制以抵消侧向摆动框架是必不可少的。一个常见的解决方案是使用支撑系统，这些系统提供额外的支持以抵抗横向力量。这些系统可以包括对角支撑、剪力墙或抵抗弯矩的框架，帮助稳定结构。通过实施这些解决方案，工程师可以最小化侧向摆动框架的影响，并确保建筑物保持安全和功能。此外，技术的进步使得更复杂的建模和仿真技术成为可能。工程师现在可以预测结构如何响应各种力量，包括侧向摆动框架的影响。这种预测能力使他们能够在设计阶段做出明智的决策，从而最终导致更安全和更具韧性的建筑。总之，侧向摆动框架的概念是在现代建筑和工程中一个关键的考虑因素。通过理解横向运动的影响并实施有效的设计策略，专业人士可以创造出不仅能承受垂直荷载而且在横向力量下仍能保持稳定的结构。这一知识在确保建筑的安全和耐久性方面至关重要，尤其是在容易遭受强风或地震活动的地区。随着我们继续推动建筑设计的界限，解决侧向摆动框架带来的挑战将始终是工程师和建筑师的优先事项。