truss web

简明释义

桁架梁腹

英英释义

例句

1.During construction, workers carefully assembled the truss web to maintain structural integrity.

在施工过程中，工人们小心地组装桁架网以保持结构完整性。

2.The engineer analyzed the truss web to ensure it could support the weight of the roof.

工程师分析了桁架网以确保它能够支撑屋顶的重量。

3.The design of the truss web plays a crucial role in the overall stability of the bridge.

桁架网的设计在桥梁的整体稳定性中起着至关重要的作用。

4.Inspectors regularly check the truss web for signs of wear and tear.

检查员定期检查桁架网是否有磨损的迹象。

5.The architect presented a model featuring an innovative truss web design.

建筑师展示了一个具有创新桁架网设计的模型。

作文

The concept of a truss web is integral to the field of structural engineering and architecture. A truss web refers to the internal framework of a truss, which is designed to distribute loads and provide stability to structures such as bridges, roofs, and towers. This framework consists of interconnected members that form triangular shapes, allowing the truss to efficiently bear weight while minimizing material usage. Understanding the significance of the truss web is crucial for engineers and architects as it directly impacts the safety and durability of a structure.In essence, the truss web is a series of beams or bars arranged in a specific geometric pattern. The use of triangles in the design is particularly important because they are inherently strong shapes that can support heavy loads without deforming. When forces are applied to a truss, the truss web helps to evenly distribute these forces throughout the entire structure, preventing any one part from becoming overloaded. This is why trusses are often used in large spans where traditional beam construction would be insufficient.One of the most common applications of a truss web is in roof systems. Many modern buildings utilize trussed roofs to create open spaces without the need for interior columns. The truss web allows for large, unobstructed areas, which can be advantageous for various purposes, including auditoriums, gymnasiums, and warehouses. By using a truss web, architects can achieve both aesthetic appeal and functional efficiency.Moreover, the design of a truss web can vary significantly depending on the specific requirements of a project. There are different types of trusses, such as Pratt, Warren, and Howe trusses, each with its unique configuration of the truss web. Engineers must carefully select the appropriate type of truss based on factors like load requirements, span length, and material availability. This selection process is critical to ensuring that the truss web will perform effectively under expected conditions.Another important aspect of the truss web is its role in modern construction techniques. With advancements in materials such as steel and engineered wood, the efficiency of truss web designs has improved dramatically. These materials allow for lighter and stronger trusses, which can lead to more sustainable building practices by reducing the amount of raw materials needed. Additionally, the prefabrication of truss webs in factories means that construction times can be shortened, leading to cost savings and quicker project completion.In conclusion, the truss web is a fundamental element in the design and construction of many structures. Its ability to provide strength and stability while optimizing material use makes it a preferred choice for architects and engineers alike. By understanding the principles behind the truss web, professionals in the field can create innovative designs that meet the demands of modern architecture while ensuring safety and efficiency. As we continue to push the boundaries of architectural design, the importance of the truss web will undoubtedly remain a key factor in shaping the structures of the future.

“桁架网”这一概念在结构工程和建筑领域中至关重要。“桁架网”指的是桁架的内部框架，旨在分配负载并为桥梁、屋顶和塔楼等结构提供稳定性。该框架由相互连接的构件组成，形成三角形形状，使桁架能够有效承受重量，同时最小化材料使用。理解“桁架网”的重要性对工程师和建筑师至关重要，因为它直接影响到结构的安全性和耐久性。从本质上讲，“桁架网”是一系列以特定几何图案排列的梁或杆。设计中三角形的使用尤为重要，因为它们是固有的强形状，能够在不变形的情况下支撑重负荷。当力施加到桁架上时，“桁架网”帮助将这些力量均匀分配到整个结构中，防止任何一部分过载。这就是为什么桁架常用于传统梁结构不足的大跨度场合。“桁架网”最常见的应用之一是在屋顶系统中。许多现代建筑利用桁架屋顶来创造没有内部柱子的开放空间。“桁架网”允许大型无障碍区域，这在各种用途上都具有优势，包括礼堂、体育馆和仓库。通过使用“桁架网”，建筑师可以实现美学吸引力和功能效率。此外，“桁架网”的设计可以根据项目的具体要求显著变化。存在不同类型的桁架，如普拉特桁架、沃伦桁架和霍威桁架，每种桁架都有其独特的“桁架网”配置。工程师必须根据负载要求、跨度长度和材料可用性仔细选择适当类型的桁架。这个选择过程对于确保“桁架网”在预期条件下有效运行至关重要。“桁架网”的另一个重要方面是其在现代施工技术中的作用。随着钢材和工程木材等材料的进步，“桁架网”的设计效率显著提高。这些材料允许更轻、更强的桁架，从而通过减少所需原材料的数量来促进更可持续的建筑实践。此外，在工厂预制的桁架网意味着施工时间可以缩短，从而节省成本并加快项目完成。总之，“桁架网”是许多结构设计和施工中的基本要素。它在优化材料使用的同时提供强度和稳定性的能力使其成为建筑师和工程师的首选。通过理解“桁架网”背后的原则，专业人士可以创造出满足现代建筑需求的创新设计，同时确保安全性和效率。随着我们不断推动建筑设计的界限，“桁架网”的重要性无疑将继续成为塑造未来结构的关键因素。