stiffening beam

简明释义

加强梁

英英释义

例句

1.The architect specified a stiffening beam in the design to support the heavy roof.

建筑师在设计中指定了一根加劲梁来支撑重型屋顶。

2.During the construction, they installed a stiffening beam to prevent excessive deflection.

在施工过程中，他们安装了一根加劲梁以防止过度挠曲。

3.The contractor recommended a stiffening beam for the new warehouse to ensure stability.

承包商建议为新仓库安装一根加劲梁以确保稳定性。

4.The engineer designed a stiffening beam to enhance the structural integrity of the bridge.

工程师设计了一根加劲梁以增强桥梁的结构完整性。

5.Adding a stiffening beam can significantly reduce vibrations in tall buildings.

增加一根加劲梁可以显著减少高层建筑中的振动。

作文

In the field of structural engineering, the importance of stability and strength cannot be overstated. One of the critical components that contribute to the overall integrity of a structure is the use of a stiffening beam. A stiffening beam (加劲梁) is designed to enhance the rigidity of a structure, particularly in scenarios where loads may cause deflections or bending. These beams are strategically placed within frameworks to ensure that the entire system can withstand various forces, thereby preventing potential failures.When constructing large buildings or bridges, engineers must consider how different materials and shapes will interact under stress. The incorporation of stiffening beams (加劲梁) allows for the distribution of loads across a wider area, which significantly reduces the risk of localized failures. For instance, in a bridge, the weight of vehicles passing over it creates dynamic loads that can lead to deformation. By integrating stiffening beams (加劲梁), engineers can provide additional support that mitigates these effects, ensuring the bridge remains safe and functional over time.Moreover, stiffening beams (加劲梁) play a crucial role in enhancing the lateral stability of structures. In high-rise buildings, wind forces can exert considerable pressure on the sides, leading to sway. The strategic placement of stiffening beams (加劲梁) helps counteract these lateral forces, allowing the building to maintain its intended shape and performance during adverse weather conditions.The design of a stiffening beam (加劲梁) is not a straightforward process; it requires careful calculation and consideration of various factors, including the type of material used, the expected loads, and the overall geometry of the structure. Common materials for stiffening beams (加劲梁) include steel and reinforced concrete, both of which offer excellent strength-to-weight ratios. Engineers must also consider the connection points between the stiffening beams (加劲梁) and other structural elements, as these joints are critical for ensuring the overall stability of the system.In addition to their structural benefits, stiffening beams (加劲梁) can also contribute to the aesthetic appeal of a building. When designed thoughtfully, these beams can be incorporated into the architectural vision, adding character and visual interest to a structure. For example, exposed stiffening beams (加劲梁) in a modern industrial-style building can create a striking contrast against glass walls, showcasing both functionality and design.In conclusion, the role of stiffening beams (加劲梁) in construction is vital for ensuring the safety, longevity, and performance of structures. Their ability to provide additional support and stability makes them indispensable in modern engineering practices. As technology advances and materials improve, the design and implementation of stiffening beams (加劲梁) will continue to evolve, further enhancing the capabilities of our built environment. Understanding the significance of these elements is essential for anyone involved in the field of architecture and engineering, as they represent the intersection of safety, design, and innovation.

在结构工程领域，稳定性和强度的重要性不容小觑。构成结构整体完整性的关键组件之一是使用加劲梁。加劲梁旨在增强结构的刚度，特别是在负载可能导致挠曲或弯曲的情况下。这些梁被战略性地放置在框架内，以确保整个系统能够承受各种力量，从而防止潜在的失效。在建造大型建筑或桥梁时，工程师必须考虑不同材料和形状在应力下的相互作用。结合加劲梁可以使负载在更广泛的区域内分布，从而显著降低局部失效的风险。例如，在一座桥上，车辆经过时的重量会产生动态负载，导致变形。通过整合加劲梁，工程师可以提供额外的支持，减轻这些影响，确保桥梁在时间的推移中保持安全和功能。此外，加劲梁在增强结构的侧向稳定性方面也发挥着至关重要的作用。在高层建筑中，风力会对侧面施加相当大的压力，导致摇摆。加劲梁的战略性放置有助于抵消这些侧向力量，使建筑在恶劣天气条件下保持其预期形状和性能。加劲梁的设计并不是一个简单的过程；它需要仔细计算和考虑各种因素，包括所使用材料的类型、预期负载和结构的整体几何形状。常用的加劲梁材料包括钢和钢筋混凝土，这两者都提供了优良的强度与重量比。工程师还必须考虑加劲梁与其他结构元素之间的连接点，因为这些接头对确保系统的整体稳定性至关重要。除了结构优势外，加劲梁还可以为建筑的美学吸引力做出贡献。当经过深思熟虑的设计时，这些梁可以融入建筑的视觉效果，为结构增添个性和视觉趣味。例如，在现代工业风格建筑中，暴露的加劲梁可以与玻璃墙形成鲜明对比，展示功能性与设计的结合。总之，加劲梁在建筑中的作用对于确保结构的安全性、耐久性和性能至关重要。它们提供额外支持和稳定性的能力使它们在现代工程实践中不可或缺。随着技术的进步和材料的改善，加劲梁的设计和实施将继续发展，进一步提升我们建筑环境的能力。理解这些元素的重要性对于任何参与建筑和工程领域的人来说都是至关重要的，因为它们代表了安全、设计和创新的交汇点。