trussed construction

简明释义

桁架结构

英英释义

例句

1.The use of trussed construction in the building's design minimized the amount of material needed.

在建筑设计中使用桁架结构最小化了所需材料的数量。

2.Engineers prefer trussed construction for large roofs because it distributes weight evenly.

工程师们更喜欢用于大型屋顶的桁架结构，因为它能均匀分配重量。

3.The new bridge was built using trussed construction, which provided both strength and stability.

新桥采用了桁架结构，这提供了强度和稳定性。

4.For the sports hall, the architect chose trussed construction to create a spacious interior.

对于体育馆，建筑师选择了桁架结构来创造宽敞的内部空间。

5.The warehouse features a trussed construction that allows for maximum open space inside.

这个仓库采用了桁架结构，使内部空间最大化。

作文

The concept of trussed construction is fundamental in modern architecture and engineering. It refers to a structural system that utilizes triangular units, known as trusses, to support loads and create stable frameworks. This method of construction has been widely adopted due to its efficiency and strength. In this essay, we will explore the advantages and applications of trussed construction, as well as its significance in contemporary building practices.One of the primary benefits of trussed construction is its ability to distribute weight evenly across a structure. The triangular shape of trusses allows them to bear heavy loads without bending or breaking. This makes them particularly useful in large-span buildings such as bridges, roofs, and industrial warehouses. For instance, many sports arenas utilize trussed construction to create expansive roof spaces that can accommodate thousands of spectators while ensuring safety and stability.Another advantage of trussed construction is its material efficiency. By using less material than traditional solid beams, trusses can significantly reduce the overall weight of a structure. This not only lowers construction costs but also minimizes the environmental impact by conserving resources. Additionally, the lightweight nature of trusses allows for easier transportation and assembly on-site, streamlining the construction process.In terms of design flexibility, trussed construction offers architects and engineers the opportunity to create innovative and aesthetically pleasing structures. Trusses can be designed in various shapes and sizes, allowing for creative freedom in architectural design. For example, the iconic Eiffel Tower in Paris employs a form of trussed construction, showcasing both functionality and beauty. This versatility enables buildings to adapt to different environments and purposes, making trussed construction a popular choice for diverse projects.Moreover, trussed construction plays a crucial role in sustainability. As the world faces increasing environmental challenges, the construction industry is seeking ways to reduce its carbon footprint. Trusses, being lightweight and requiring less material, contribute to more sustainable building practices. Furthermore, many modern trusses are made from renewable materials, such as engineered wood, which further enhances their eco-friendliness.In conclusion, trussed construction is an essential aspect of modern building techniques, offering numerous advantages such as weight distribution, material efficiency, design flexibility, and sustainability. As we continue to push the boundaries of architectural design and strive for greener construction methods, the importance of trussed construction will only grow. Understanding this concept is vital for anyone involved in the fields of architecture and engineering, as it lays the foundation for innovative and resilient structures that meet the demands of our ever-evolving world.

“拱架结构”的概念在现代建筑和工程中是基础性的。它指的是一种利用三角形单元（称为拱架）来支撑负载并创建稳定框架的结构系统。这种建筑方法因其效率和强度而被广泛采用。在这篇文章中，我们将探讨“拱架结构”的优点和应用，以及它在当代建筑实践中的重要性。“拱架结构”的主要优点之一是它能够均匀分配结构的重量。拱架的三角形形状使其能够承受重负荷而不弯曲或断裂。这使得它们在大型跨度建筑中尤为有用，例如桥梁、屋顶和工业仓库。例如，许多体育场馆利用“拱架结构”来创建可以容纳数千名观众的宽敞屋顶空间，同时确保安全和稳定。“拱架结构”的另一个优点是其材料效率。通过使用比传统实心梁更少的材料，拱架可以显著降低结构的整体重量。这不仅降低了施工成本，还通过节约资源来最小化环境影响。此外，拱架的轻量特性使得在现场运输和组装更加容易，从而简化了施工过程。在设计灵活性方面，“拱架结构”为建筑师和工程师提供了创造创新和美观结构的机会。拱架可以设计成各种形状和尺寸，允许建筑设计的创意自由。例如，巴黎的标志性埃菲尔铁塔就采用了一种形式的“拱架结构”，展示了功能与美的结合。这种多样性使得建筑能够适应不同的环境和用途，使“拱架结构”成为各种项目的热门选择。此外，“拱架结构”在可持续性方面也发挥着至关重要的作用。随着世界面临日益严重的环境挑战，建筑行业正在寻求减少其碳足迹的方法。拱架因其轻便和所需材料较少而有助于更可持续的建筑实践。此外，许多现代拱架由可再生材料制成，例如工程木材，进一步增强了其环保性。总之，“拱架结构”是现代建筑技术的一个重要方面，提供了许多优点，如重量分配、材料效率、设计灵活性和可持续性。随着我们继续推动建筑设计的边界并努力实现更绿色的建筑方法，“拱架结构”的重要性只会增加。理解这一概念对于任何参与建筑和工程领域的人来说都是至关重要的，因为它为满足我们不断发展的世界需求的创新和韧性结构奠定了基础。