girder with web

简明释义

带筋桁

英英释义

例句

1.Engineers analyzed the load distribution on the girder with web before finalizing the design.

工程师在最终确定设计之前分析了带肋的梁上的载荷分布。

2.A well-designed girder with web can reduce the overall weight of a structure while maintaining safety.

一个设计良好的带肋的梁可以在保持安全的同时减少结构的整体重量。

3.In modern skyscrapers, a girder with web is essential for supporting multiple floors.

在现代摩天大楼中，带肋的梁对于支撑多个楼层至关重要。

4.During the inspection, the architect pointed out that the girder with web was in excellent condition.

在检查过程中，建筑师指出带肋的梁状况良好。

5.The construction team decided to use a girder with web for the new bridge due to its strength.

施工团队决定在新桥上使用带肋的梁，因为它的强度很高。

作文

In the field of civil engineering and architecture, understanding the components of structures is crucial for designing safe and efficient buildings and bridges. One such important component is the girder with web, which plays a significant role in supporting loads and maintaining the integrity of a structure. A girder with web refers to a type of beam that has a web, or vertical element, connecting its top and bottom flanges. This design allows the girder to effectively distribute weight and resist bending forces. The concept of a girder with web is often illustrated in the construction of bridges. When engineers design a bridge, they must consider the various forces acting upon it, including the weight of vehicles, pedestrians, and environmental factors such as wind and earthquakes. The girder with web serves as a primary support element that helps to transfer these loads to the bridge's foundations. By utilizing a webbed girder, engineers can create a lighter yet stronger structure that can span greater distances without compromising safety.Moreover, the material used for constructing a girder with web can vary, with options including steel, concrete, or composite materials. Steel girders are particularly popular due to their high strength-to-weight ratio, making them ideal for large-scale projects. When designing a girder with web, engineers must also consider factors such as corrosion resistance, fatigue, and the overall durability of the materials chosen.In addition to bridges, girder with web systems are commonly used in buildings, especially in multi-story constructions. In these applications, the girders support floors and roofs, allowing for open spaces and flexible layouts. The webbing within the girder not only provides structural support but also contributes to the aesthetic appeal of modern architecture. Many contemporary buildings showcase exposed girders, highlighting their industrial design while ensuring safety and stability.Understanding the mechanics of a girder with web also involves grasping concepts related to load distribution and structural analysis. Engineers utilize various methods to calculate the loads that a girder will encounter throughout its lifespan. These calculations help determine the appropriate size and shape of the girder, ensuring that it can withstand the stresses it will face. Furthermore, advancements in technology have led to improved design software that allows engineers to simulate the performance of a girder with web under different conditions. This innovation has enhanced the ability to predict how a structure will behave over time, leading to safer and more efficient designs.In conclusion, the girder with web is a fundamental element in modern engineering that combines functionality with aesthetics. Its ability to support substantial loads while maintaining structural integrity makes it indispensable in the construction of bridges and buildings. As we continue to innovate in the field of architecture and engineering, the importance of understanding and utilizing girder with web systems will only grow, paving the way for future advancements in structural design.

在土木工程和建筑领域，理解结构的组成部分对于设计安全高效的建筑物和桥梁至关重要。其中一个重要组成部分是带腹板的梁，它在支撑负载和维护结构完整性方面发挥着重要作用。带腹板的梁指的是一种具有腹板（或垂直元素）连接其顶部和底部法兰的梁。这种设计使得梁能够有效地分配重量并抵抗弯曲力。带腹板的梁的概念通常在桥梁的建设中得到体现。当工程师设计一座桥时，他们必须考虑作用于桥上的各种力量，包括车辆、行人和环境因素，如风和地震的重量。带腹板的梁作为主要支撑元素，帮助将这些负载传递到桥的基础上。通过利用带腹板的梁，工程师可以创建更轻但更强的结构，能够在不妨碍安全的情况下跨越更大的距离。此外，构造带腹板的梁所用的材料可以有所不同，选择包括钢、混凝土或复合材料。由于其高强度与重量比，钢梁在大型项目中尤其受欢迎。在设计带腹板的梁时，工程师还必须考虑腐蚀抗性、疲劳和所选材料的整体耐用性。除了桥梁外，带腹板的梁系统还常用于建筑，特别是在多层建筑中。在这些应用中，梁支撑楼层和屋顶，允许开放空间和灵活布局。梁中的腹板不仅提供结构支撑，还为现代建筑的美学吸引力做出贡献。许多当代建筑展示了暴露的梁，突显其工业设计，同时确保安全和稳定。理解带腹板的梁的力学还涉及掌握负载分布和结构分析相关的概念。工程师利用各种方法计算梁在其生命周期内将遇到的负载。这些计算有助于确定梁的适当大小和形状，以确保它能够承受将要面临的压力。此外，技术的进步导致了改进的设计软件，使工程师能够模拟带腹板的梁在不同条件下的性能。这一创新增强了预测结构随时间变化的能力，从而导致更安全和更高效的设计。总之，带腹板的梁是现代工程中的一个基本元素，结合了功能性和美学。它支持大量负载的能力，同时保持结构完整性，使其在桥梁和建筑的建设中不可或缺。随着我们在建筑和工程领域的不断创新，理解和利用带腹板的梁系统的重要性只会增加，为未来的结构设计进步铺平道路。