laced beam

简明释义

花格梁

英英释义

例句

1.In the new sports hall, the laced beam provides both support and an aesthetic appeal.

在新的体育馆中，拉索梁既提供支持又具有美学吸引力。

2.The engineer explained how the laced beam distributes weight evenly across the structure.

工程师解释了拉索梁如何均匀分配整个结构的重量。

3.For the bridge project, they opted for a laced beam design to reduce material costs.

在桥梁项目中，他们选择了拉索梁设计以降低材料成本。

4.The old warehouse was renovated with a modern laced beam system for better load management.

旧仓库经过翻新，采用现代化的拉索梁系统以更好地管理负载。

5.The architect designed a stunning roof structure using a laced beam to enhance stability.

建筑师设计了一个令人惊叹的屋顶结构，使用拉索梁来增强稳定性。

作文

In the world of structural engineering, various elements play crucial roles in ensuring the stability and integrity of buildings and bridges. One such element is the laced beam, which is designed to provide both strength and flexibility. A laced beam is essentially a structural member that consists of a series of diagonal and vertical members, forming a lattice-like structure. This design not only enhances the load-bearing capacity of the beam but also allows it to withstand lateral forces, such as wind or seismic activity.The importance of a laced beam can be observed in various applications. For example, in the construction of large industrial buildings, these beams are often used to support roofs and ceilings. Their lightweight nature, combined with their robust design, makes them an ideal choice for structures that require significant spans without excessive weight. When engineers decide to implement a laced beam in their designs, they are taking into account not only the aesthetic appeal of the lattice pattern but also the functional advantages it offers.Moreover, the use of laced beams can significantly reduce the amount of material needed for construction, leading to cost savings and a lower environmental impact. By utilizing advanced materials such as high-strength steel or reinforced composites, engineers can create laced beams that are both lightweight and incredibly strong. This innovation is particularly beneficial in modern construction, where sustainability and efficiency are paramount.Another critical aspect of laced beams is their ability to distribute loads evenly across their structure. This characteristic is essential in preventing localized failures that could lead to catastrophic outcomes. In scenarios where traditional beams might buckle or fail under pressure, laced beams can provide a more reliable solution due to their unique geometry and load distribution capabilities.As we look towards the future of construction, the evolution of laced beams continues to inspire innovative designs. Architects and engineers are constantly exploring new ways to incorporate these elements into their projects, pushing the boundaries of what is possible in structural design. Whether it’s in skyscrapers, bridges, or even residential buildings, the versatility of laced beams ensures that they will remain a staple in the field of engineering.In conclusion, understanding the role of laced beams in structural engineering is essential for anyone involved in the design and construction industry. Their unique properties offer numerous advantages, including enhanced strength, reduced material usage, and improved load distribution. As we continue to innovate and strive for more sustainable building practices, the significance of laced beams will undoubtedly grow, paving the way for a new era of architectural excellence.laced beam（交叉梁）在结构工程中扮演着至关重要的角色，提供强度和灵活性。它由一系列对角和垂直构件组成，形成一种格子状结构，增强了承载能力并能抵御侧向力。在工业建筑等应用中，交叉梁通过其轻量化和坚固的设计，成为支撑屋顶和天花板的理想选择。使用交叉梁不仅能减少材料使用，还能实现成本节约和环境影响降低。随着建筑行业的不断创新，交叉梁将继续在结构设计中发挥重要作用。