trussed beam
简明释义
桁构梁
英英释义
例句
1.Engineers analyzed the load-bearing capacity of the trussed beams before finalizing the design.
工程师在最终确定设计之前分析了桁架梁的承载能力。
2.The architect designed a large hall with a high ceiling supported by a series of trussed beams.
建筑师设计了一个高天花板的大礼堂,由一系列桁架梁支撑。
3.The use of trussed beams allows for larger open spaces in commercial buildings.
使用桁架梁可以在商业建筑中实现更大的开放空间。
4.During the construction, the workers carefully installed the trussed beams to ensure stability.
在施工过程中,工人们小心地安装了桁架梁以确保稳定性。
5.In this bridge, the trussed beams are essential for distributing weight evenly.
在这座桥中,桁架梁对于均匀分配重量至关重要。
作文
In modern architecture and engineering, the design and construction of structures often rely on various types of beams to ensure stability and strength. Among these, the trussed beam (桁架梁) stands out as a popular choice due to its unique structural advantages. A trussed beam consists of a framework of triangular shapes that distribute weight efficiently across the entire structure. This design not only maximizes strength but also minimizes the amount of material needed, making it both cost-effective and lightweight.The concept of using triangular shapes in construction is not new; it has been utilized for centuries in bridges and roofs. The inherent stability of triangles allows trussed beams to withstand heavy loads while maintaining their shape. This makes them particularly useful in large-span structures, such as auditoriums and sports arenas, where open spaces are essential.One of the key benefits of a trussed beam (桁架梁) is its ability to handle tensile and compressive forces effectively. In a traditional beam, the load is carried primarily in bending, which can lead to failure if the beam is not adequately supported. However, in a trussed beam, the load is distributed among multiple members, reducing the stress on any single part of the beam. This distribution of forces allows for longer spans between supports, which is crucial in many architectural designs.Another important aspect of trussed beams is their versatility. They can be made from various materials, including wood, steel, and reinforced concrete, allowing architects and engineers to choose the best option for their specific project requirements. For instance, in residential buildings, wooden trussed beams may be preferred for their aesthetic appeal and ease of installation, while steel trussed beams are often used in commercial projects for their strength and durability.Furthermore, the use of trussed beams can lead to significant savings in construction costs. By reducing the amount of material required and allowing for longer spans, builders can lower both material and labor expenses. This efficiency is particularly beneficial in large-scale projects, where budgets can quickly escalate. Additionally, the lightweight nature of trussed beams can simplify transportation and installation, further contributing to cost savings.However, it is essential to consider the design and engineering aspects when incorporating trussed beams into a project. Proper calculations must be performed to ensure that the beam can support the expected loads and that the connections between the members are secure. Failure to do so can result in structural failures that could compromise the safety of the building.In conclusion, the trussed beam (桁架梁) represents a crucial element in modern construction, providing strength, efficiency, and versatility. Its unique design allows for the effective distribution of loads, making it suitable for a wide range of applications. As architects and engineers continue to innovate and push the boundaries of design, the trussed beam will undoubtedly remain a fundamental component of structural engineering, enabling the creation of safe and aesthetically pleasing buildings.
在现代建筑和工程中,结构的设计和建造往往依赖于各种类型的梁以确保稳定性和强度。在这些梁中,trussed beam(桁架梁)因其独特的结构优势而脱颖而出。trussed beam由三角形框架组成,能够有效地将重量分布到整个结构上。这种设计不仅最大限度地提高了强度,还最小化了所需材料的数量,使其既经济又轻便。使用三角形形状进行建筑的概念并不新鲜;几个世纪以来,它一直被用于桥梁和屋顶。三角形的固有稳定性使得trussed beam能够承受重载,同时保持其形状。这使得它们特别适用于大跨度结构,如礼堂和体育馆,其中开放空间至关重要。trussed beam(桁架梁)的一个关键好处是它能够有效地处理拉伸和压缩力。在传统梁中,负载主要通过弯曲来承载,这可能导致在未得到适当支撑时发生失效。然而,在trussed beam中,负载分布在多个构件之间,减少了任何单个部分的应力。这种力的分布允许在支撑之间实现更长的跨度,这在许多建筑设计中至关重要。trussed beams的另一个重要方面是它们的多功能性。它们可以由各种材料制成,包括木材、钢材和钢筋混凝土,使建筑师和工程师能够根据具体项目要求选择最佳选项。例如,在住宅建筑中,木质trussed beams可能因其美观和易于安装而受到青睐,而钢质trussed beams则常用于商业项目,因为它们的强度和耐用性。此外,使用trussed beams可以显著节省建筑成本。通过减少所需材料的数量并允许更长的跨度,建筑商可以降低材料和人工费用。这种效率在大型项目中尤其有利,因为预算可能迅速增加。此外,trussed beams的轻便特性可以简化运输和安装,进一步有助于节省成本。然而,在将trussed beams纳入项目时,必须考虑设计和工程方面。必须进行适当的计算,以确保梁能够承受预期的负载,并且各构件之间的连接安全。如果不这样做,可能会导致结构失效,从而危及建筑物的安全。总之,trussed beam(桁架梁)代表了现代建筑中的一个关键元素,提供了强度、效率和多功能性。其独特的设计允许有效分配负载,使其适用于广泛的应用。随着建筑师和工程师不断创新并推动设计的边界,trussed beam无疑将继续作为结构工程的基本组成部分,使安全且美观的建筑得以创造。
