weathercock stability

简明释义

风标稳定性

英英释义

例句

1.The engineer emphasized the importance of weathercock stability in the design of the new bridge to ensure it could withstand strong winds.

工程师强调了在新桥设计中确保其能够抵御强风的重要性，即风向标稳定性。

2.The research paper highlighted the correlation between weathercock stability and energy efficiency in buildings.

研究论文强调了风向标稳定性与建筑能效之间的相关性。

3.In our project, we must consider weathercock stability to prevent structural failure during storms.

在我们的项目中，我们必须考虑风向标稳定性，以防止在暴风雨中发生结构性故障。

4.The architect's plan included features that enhanced weathercock stability for the skyscraper.

建筑师的计划包括增强摩天大楼的风向标稳定性的特征。

5.During the meeting, we discussed how to improve the weathercock stability of the wind turbine.

在会议中，我们讨论了如何改善风力涡轮机的风向标稳定性。

作文

In the realm of engineering and architecture, the term weathercock stability refers to a structure's ability to withstand various environmental forces while maintaining its integrity and alignment. This concept is particularly crucial in the design of tall buildings, bridges, and other large structures that are exposed to wind, earthquakes, and other dynamic loads. Understanding weathercock stability is essential for engineers to ensure that their designs not only meet aesthetic and functional requirements but also adhere to safety standards. The idea behind weathercock stability can be likened to a weather vane, which pivots to face the direction of the wind. Just as a weather vane needs to be balanced and properly anchored to function effectively, structures must also be designed to respond dynamically to external forces. For instance, when strong winds blow against a skyscraper, the building must be able to sway slightly without compromising its structural integrity. This flexibility is a key aspect of weathercock stability, allowing the building to absorb and dissipate energy rather than resisting it outright. Engineers employ various techniques to achieve weathercock stability. One common method is the use of dampers, which are devices that absorb vibrations and reduce oscillations in structures. These dampers can be tuned to specific frequencies, allowing them to counteract the forces exerted by wind or seismic activity effectively. Another approach involves the careful selection of materials and structural forms that enhance stability. For example, using lightweight materials combined with a robust framework can help a building maintain its shape and resist buckling under stress. Moreover, the importance of weathercock stability extends beyond just the physical characteristics of a building. It also encompasses the psychological aspects of safety for occupants. When people enter a well-designed structure that exhibits weathercock stability, they are more likely to feel secure and comfortable, knowing that the building can withstand adverse conditions. This sense of safety is paramount, especially in regions prone to natural disasters like hurricanes or earthquakes. In conclusion, weathercock stability is a vital concept in modern engineering that ensures structures can endure environmental challenges while providing safety and comfort to their occupants. As urban environments continue to grow and evolve, the principles of weathercock stability will remain integral to the design and construction of resilient infrastructure. By prioritizing this stability, engineers can create buildings that not only stand the test of time but also contribute positively to the communities they serve.

在工程和建筑领域，术语weathercock stability指的是结构在承受各种环境力量时保持其完整性和对齐能力的能力。这个概念在高层建筑、桥梁和其他暴露于风、地震及其他动态负荷的大型结构设计中尤为重要。理解weathercock stability对于工程师确保他们的设计不仅满足美学和功能要求，还遵守安全标准至关重要。weathercock stability背后的理念可以比作一个天气风向标，它会根据风的方向而旋转。正如天气风向标需要平衡并适当固定以有效运作一样，结构也必须设计成能够动态响应外部力量。例如，当强风吹袭摩天大楼时，建筑必须能够轻微摇摆而不损害其结构完整性。这种灵活性是weathercock stability的关键方面，使建筑能够吸收和消散能量，而不是直接抵抗它。工程师采用各种技术来实现weathercock stability。一种常见的方法是使用阻尼器，这些设备可以吸收振动并减少结构中的振荡。这些阻尼器可以调谐到特定频率，使它们能够有效抵消风或地震活动施加的力量。另一种方法涉及仔细选择增强稳定性的材料和结构形式。例如，使用轻质材料结合坚固的框架可以帮助建筑在压力下保持其形状并抵御屈曲。此外，weathercock stability的重要性不仅限于建筑物的物理特性。它还包括对居住者安全的心理方面。当人们进入一个展示出weathercock stability的设计良好的结构时，他们更有可能感到安全和舒适，因为他们知道建筑可以承受不利条件。这种安全感至关重要，特别是在易发生自然灾害如飓风或地震的地区。总之，weathercock stability是现代工程中的一个重要概念，确保结构能够承受环境挑战，同时为其居住者提供安全和舒适。随着城市环境的不断发展和演变，weathercock stability的原则将继续成为韧性基础设施设计和建设的核心。通过优先考虑这种稳定性，工程师可以创建不仅经得起时间考验，而且对其服务的社区产生积极贡献的建筑。