wind deflection

简明释义

风力偏移

英英释义

例句

1.Understanding wind deflection 风偏移 is crucial for designing wind turbines that operate efficiently.

理解风偏移 风偏移对于设计高效运作的风力涡轮机至关重要。

2.The engineers calculated the wind deflection 风偏移 of the building to ensure it could withstand strong gusts.

工程师计算了建筑物的风偏移 风偏移，以确保它能够承受强风。

3.The wind deflection 风偏移 analysis showed that the bridge would sway under heavy winds.

对桥梁进行的风偏移 风偏移分析显示，在强风下桥梁会摇摆。

4.The architect adjusted the design after reviewing the wind deflection 风偏移 reports.

建筑师在审查了风偏移 风偏移报告后调整了设计。

5.High-rise structures must account for wind deflection 风偏移 in their design to maintain safety and stability.

高层建筑在设计时必须考虑风偏移 风偏移以保持安全和稳定。

作文

Wind deflection is a crucial concept in the field of engineering, particularly when it comes to the design and construction of tall buildings, bridges, and other structures that are exposed to strong winds. Understanding wind deflection (风偏移) is essential for ensuring the safety and stability of these structures. When wind blows against a building or bridge, it exerts pressure on its surfaces, which can cause the structure to sway or bend. This phenomenon is known as wind deflection (风偏移). The amount of deflection that occurs depends on various factors, including the shape of the structure, the materials used in its construction, and the speed and direction of the wind.One of the primary concerns with wind deflection (风偏移) is that excessive movement can lead to structural failure or damage. Engineers must calculate the expected wind deflection (风偏移) during the design phase to ensure that the structure can withstand the forces it will encounter. This involves using complex mathematical models and simulations to predict how the building will respond to different wind conditions.In addition to safety, wind deflection (风偏移) also affects the comfort of the occupants within a building. If a structure sways too much, it can create an uncomfortable environment for those inside. For example, in skyscrapers, the sensation of movement can be disconcerting for residents and office workers. To mitigate these effects, engineers often incorporate dampers and other technologies that help reduce wind deflection (风偏移) and enhance the building's stability.The study of wind deflection (风偏移) is not limited to large structures; it is also important in the design of smaller buildings and even outdoor installations like billboards and solar panels. Any object that stands tall or has a significant surface area exposed to the wind must consider the impact of wind deflection (风偏移). For instance, a poorly designed billboard may collapse under high winds if it does not account for the forces acting upon it.Furthermore, environmental factors play a significant role in the analysis of wind deflection (风偏移). Locations that are prone to hurricanes or tornadoes require special attention to wind deflection (风偏移) due to the extreme wind speeds associated with these weather events. Engineers must design structures to endure not only regular wind patterns but also the extraordinary forces generated during such storms.In conclusion, wind deflection (风偏移) is a vital aspect of structural engineering that impacts the safety, functionality, and comfort of buildings and other constructions. By understanding and effectively managing wind deflection (风偏移), engineers can create resilient structures that stand the test of time and protect their occupants from the forces of nature. As climate change continues to influence weather patterns, the importance of studying wind deflection (风偏移) will only grow, making it an essential area of focus for future engineering endeavors.

风偏移是工程领域中的一个关键概念，特别是在高层建筑、桥梁和其他暴露于强风的结构的设计和建造中。理解风偏移对于确保这些结构的安全和稳定至关重要。当风吹向建筑或桥梁时，它会对其表面施加压力，这可能导致结构摇晃或弯曲。这种现象被称为风偏移。发生的偏移量取决于各种因素，包括结构的形状、所用材料以及风的速度和方向。关于风偏移的主要关注点之一是，过度的运动可能导致结构失效或损坏。工程师必须在设计阶段计算预期的风偏移，以确保结构能够承受它将遇到的力量。这涉及使用复杂的数学模型和模拟来预测建筑在不同风况下的反应。除了安全性，风偏移还会影响建筑内居民的舒适度。如果结构摇摆过多，可能会为内部人员创造不舒适的环境。例如，在摩天大楼中，运动的感觉可能会让居民和办公人员感到不安。为了减轻这些影响，工程师通常会结合阻尼器和其他技术，帮助减少风偏移并增强建筑的稳定性。对风偏移的研究不仅限于大型结构；在小型建筑和户外装置（如广告牌和太阳能电池板）的设计中同样重要。任何高耸或具有显著表面积暴露于风中的物体都必须考虑风偏移的影响。例如，如果一个设计不当的广告牌未能考虑施加在其上的力量，可能会在强风下倒塌。此外，环境因素在风偏移的分析中也发挥着重要作用。那些容易遭受飓风或龙卷风的地区需要特别关注风偏移，因为这些天气事件伴随极端风速。工程师必须设计结构，以承受常规风模式以及在此类风暴期间产生的非凡力量。总之，风偏移是结构工程中一个至关重要的方面，影响着建筑和其他建筑物的安全性、功能性和舒适性。通过理解和有效管理风偏移，工程师可以创建出经得起时间考验的坚固结构，保护其居住者免受自然力量的侵害。随着气候变化继续影响天气模式，研究风偏移的重要性只会增加，使其成为未来工程工作的重要关注领域。