gusset plate

简明释义

节点板

英英释义

例句

1.A triangular gusset plate can provide additional stability to the structure.

三角形的连接板可以为结构提供额外的稳定性。

2.During the inspection, we found that the gusset plate was improperly welded.

在检查中，我们发现连接板焊接不当。

3.We need to replace the damaged gusset plate before proceeding with the construction.

在继续施工之前，我们需要更换损坏的连接板。

4.The engineer specified a thicker gusset plate to reinforce the joint between the beams.

工程师指定使用更厚的连接板来加固梁之间的接头。

5.The architect designed an innovative frame using gusset plates for better load distribution.

建筑师设计了一个创新的框架，使用连接板以更好地分配负载。

作文

In the world of structural engineering, the term gusset plate refers to a flat piece of material, typically made from steel or other strong metals, that is used to connect and reinforce various structural components. These plates are often triangular or rectangular in shape and are strategically placed at joints where beams, trusses, or other structural elements meet. The primary purpose of a gusset plate is to distribute loads evenly across the connected members, enhancing the overall stability and strength of the structure. The use of gusset plates can be traced back to ancient architecture, but they have become increasingly important in modern construction. Engineers utilize these plates to ensure that structures can withstand various forces, such as wind, seismic activity, and the weight of the materials used in construction. By providing additional support at critical junctions, gusset plates help prevent structural failure and extend the lifespan of buildings and bridges.One of the most common applications of gusset plates is in bridge construction. Bridges are subjected to dynamic loads from vehicles and pedestrians, as well as static loads from their own weight. To address these challenges, engineers incorporate gusset plates into the design of truss bridges, which consist of interconnected triangular units. The gusset plates serve as vital connectors between the truss members, allowing for efficient load transfer and enhancing the overall rigidity of the structure.Additionally, gusset plates are frequently used in the construction of steel frames for commercial and industrial buildings. These frames rely on the strength and stability provided by gusset plates to support floors, roofs, and walls. In high-rise buildings, where lateral forces caused by wind can be significant, the role of gusset plates becomes even more critical. They help maintain the building's integrity and safety, ensuring it can withstand extreme weather conditions.The design and fabrication of gusset plates require careful consideration of several factors, including the size and shape of the plates, the materials used, and the specific loads they will bear. Engineers must calculate the appropriate thickness and dimensions of the plates to ensure they can effectively support the intended loads without compromising safety. This process often involves advanced software and simulations to predict how the gusset plates will perform under various conditions.In conclusion, gusset plates play a crucial role in modern structural engineering, providing essential support and stability to various constructions. Their ability to connect and reinforce structural elements makes them indispensable in the design of bridges, buildings, and other infrastructures. As engineering practices continue to evolve, the importance of gusset plates in ensuring the safety and longevity of structures will remain a fundamental aspect of construction projects worldwide.

撑板在结构工程领域中，指的是一种平坦的材料，通常由钢或其他强金属制成，用于连接和加固各种结构组件。这些板通常呈三角形或矩形，战略性地放置在梁、桁架或其他结构元件相交的接头处。撑板的主要目的是均匀分配连接成员之间的负载，从而增强结构的整体稳定性和强度。撑板的使用可以追溯到古代建筑，但在现代建筑中变得越来越重要。工程师利用这些板来确保结构能够承受各种力量，例如风、地震活动和建筑材料的重量。通过在关键接头处提供额外支持，撑板有助于防止结构失效，并延长建筑物和桥梁的使用寿命。撑板最常见的应用之一是在桥梁建设中。桥梁受到来自车辆和行人的动态负载，以及自身重量的静态负载。为了应对这些挑战，工程师在桁架桥的设计中纳入了撑板，这些桥由互联的三角单元组成。撑板作为桁架成员之间的重要连接器，允许有效的负载转移，并增强结构的整体刚度。此外，撑板还经常用于商业和工业建筑的钢框架施工。这些框架依赖于撑板提供的强度和稳定性来支撑楼层、屋顶和墙壁。在高层建筑中，风引起的横向力量可能会很大，因此撑板的作用变得更加关键。它们有助于保持建筑的完整性和安全性，确保其能够承受极端天气条件。撑板的设计和制造需要仔细考虑多个因素，包括板的大小和形状、所用材料以及它们将承受的特定负载。工程师必须计算出适当的厚度和尺寸，以确保它们能够有效地支撑预期负载而不妨碍安全。这个过程通常涉及先进的软件和模拟，以预测撑板在各种条件下的性能。总之，撑板在现代结构工程中发挥着至关重要的作用，为各种建筑提供必要的支持和稳定性。它们连接和加固结构元件的能力使其在桥梁、建筑和其他基础设施设计中不可或缺。随着工程实践的不断发展，撑板在确保结构安全和耐久性方面的重要性将始终是全球建设项目的基本方面。