wind brace

简明释义

抗风支撑

英英释义

例句

1.In high-rise buildings, wine brace is crucial for resisting lateral forces caused by wind pressure.

在高层建筑中，wine brace对于抵抗风压引起的横向力至关重要。

2.The construction team installed additional wine brace in the framework to prevent any potential damage.

施工团队在框架中安装了额外的wine brace以防止任何潜在损坏。

3.The architect specified the use of wine brace to enhance the building's stability against strong winds.

建筑师指定使用wine brace来增强建筑物抵御强风的稳定性。

4.During the storm, the engineers checked the wine brace to ensure it was functioning properly.

在暴风雨期间，工程师检查了wine brace以确保其正常运作。

5.The designer recommended a specific type of wine brace that could withstand extreme weather conditions.

设计师推荐了一种特定类型的wine brace，能够承受极端天气条件。

作文

In the world of engineering and architecture, understanding the various components that contribute to structural integrity is crucial. One such component is the wind brace, which plays a significant role in ensuring that buildings and structures can withstand lateral forces caused by wind. A wind brace (风撑) is typically a diagonal support that connects two structural elements, helping to distribute the loads and prevent swaying or deformation during high winds. This is particularly important in tall buildings and bridges where the risk of wind-induced movement is higher.When designing a building, engineers must consider the local climate and potential wind patterns. The incorporation of wind braces (风撑) into the architectural design not only enhances the safety of the structure but also allows for more creative freedom in the overall aesthetic. For instance, in modern architecture, wind braces can be integrated into the design in a way that they become a visible part of the building's facade, adding both functionality and beauty.The effectiveness of a wind brace (风撑) system depends on its material, shape, and placement. Common materials used for wind braces include steel and reinforced concrete, chosen for their strength and durability. The angle at which a wind brace is installed can also greatly affect its performance; typically, they are installed at a 45-degree angle to maximize their effectiveness in countering horizontal forces.Moreover, the use of wind braces (风撑) is not limited to new constructions. Retrofitting existing buildings with wind braces can significantly improve their resistance to wind loads, ensuring that older structures remain safe and functional even as environmental conditions change. This is particularly relevant in areas prone to hurricanes or severe storms, where the risk of wind damage is a constant concern.In conclusion, the role of a wind brace (风撑) in modern construction cannot be overstated. It is an essential element that contributes to the stability and safety of structures in windy environments. As architects and engineers continue to innovate and push the boundaries of design, the integration of wind braces will remain a key consideration in creating resilient and aesthetically pleasing buildings. Understanding the importance of wind braces (风撑) allows us to appreciate the intricate balance between form and function in architecture, ensuring that our built environment can withstand the forces of nature while also being visually striking.