wind uplift

简明释义

风浮力

英英释义

例句

1.The construction team used special fasteners to combat wind uplift 风抬升 in the coastal area.

施工队在沿海地区使用了特殊的紧固件来对抗风抬升 wind uplift。

2.During the storm, the wind uplift 风抬升 caused several shingles to blow off the house.

在暴风雨期间，风抬升 wind uplift 导致几片瓦片被吹落。

3.The engineers conducted tests to measure the effects of wind uplift 风抬升 on the new roof design.

工程师们进行了测试，以测量新屋顶设计的风抬升 wind uplift 的影响。

4.Proper installation of roofing materials can help reduce the risk of wind uplift 风抬升 damage.

正确安装屋顶材料可以帮助减少风抬升 wind uplift 造成的损害风险。

5.The architect designed the building to withstand wind uplift 风抬升 forces from high winds.

建筑师设计了这座建筑，以承受来自强风的风抬升 wind uplift 力。

作文

Wind uplift is a critical concept in the field of engineering, particularly in the design and construction of buildings and structures. It refers to the upward force exerted by wind on a surface, which can significantly impact the stability and integrity of a structure. Understanding wind uplift (风抬升) is essential for architects and engineers to ensure that their designs can withstand various weather conditions, especially in areas prone to strong winds or storms.When designing roofs, for instance, engineers must consider how wind uplift (风抬升) can affect the roofing materials. The shape and slope of a roof can influence how wind flows over it, creating areas of low pressure that can lift the roof off its supports. This phenomenon is particularly evident in flat roofs, where the risk of wind uplift (风抬升) is higher compared to pitched roofs. To combat this, engineers often incorporate additional fastening methods or reinforcements to secure the roof against potential uplift forces.Moreover, the location of a building plays a significant role in determining the extent of wind uplift (风抬升) it may experience. Buildings situated in open areas or near bodies of water are more susceptible to high winds, which can lead to increased uplift pressures. In such cases, conducting thorough wind load analyses becomes crucial. These analyses help engineers predict the maximum wind uplift (风抬升) forces that a structure might encounter during extreme weather events, allowing them to design accordingly.In addition to roofs, wind uplift (风抬升) can also affect other structural elements, such as walls and windows. For example, large windows on the upper floors of a building can act as sails, catching the wind and increasing the risk of uplift. Engineers must account for these factors when selecting materials and designing connections between different components of the structure.Furthermore, the impact of wind uplift (风抬升) is not limited to new constructions. Retrofitting existing buildings to improve their resistance to uplift forces is also a common practice. This may involve adding bracing systems or modifying the roof structure to enhance stability. Property owners in regions that frequently experience high winds should be proactive in assessing their buildings for potential vulnerabilities related to wind uplift (风抬升).In conclusion, wind uplift (风抬升) is a vital consideration in the design and maintenance of buildings. By understanding the forces at play and implementing appropriate design strategies, engineers can ensure that structures remain safe and resilient against the challenges posed by wind. As climate change continues to influence weather patterns, the importance of addressing wind uplift (风抬升) will only grow, making it imperative for professionals in the field to stay informed and prepared for the future.