compound girder

简明释义

合成梁

英英释义

例句

1.During the inspection, we found that the compound girder 复合梁 had some signs of wear and needed reinforcement.

在检查过程中，我们发现compound girder 复合梁有一些磨损迹象，需要加固。

2.The engineer explained that the compound girder 复合梁 would distribute the weight more evenly across the structure.

工程师解释说，compound girder 复合梁将更均匀地分配结构上的重量。

3.In modern architecture, a compound girder 复合梁 is often preferred for its strength and flexibility.

在现代建筑中，通常优先选择compound girder 复合梁，因为它的强度和灵活性。

4.Using a compound girder 复合梁 can significantly reduce the amount of material needed for construction.

使用compound girder 复合梁可以显著减少施工所需的材料量。

5.The construction team decided to use a compound girder 复合梁 for the bridge to enhance its load-bearing capacity.

施工队决定使用一个compound girder 复合梁来增强桥梁的承载能力。

作文

In the field of civil engineering and structural design, the term compound girder refers to a type of beam that is constructed from two or more materials or components. This design approach allows for the combination of different properties to achieve superior strength, stability, and performance. The use of a compound girder can significantly enhance the load-bearing capacity of structures, making it a popular choice for bridges, buildings, and other large-scale constructions. The concept of a compound girder is essential in modern engineering, as it enables engineers to optimize the materials used in construction. For instance, a typical compound girder may consist of a steel frame combined with concrete, taking advantage of the high tensile strength of steel and the compressive strength of concrete. This synergy not only improves the overall structural integrity but also reduces costs by minimizing the amount of material needed. One of the primary advantages of using a compound girder is its ability to span longer distances without the need for additional support columns. This characteristic is particularly beneficial in bridge construction, where clear spans are necessary for vehicle and pedestrian traffic. By employing a compound girder, engineers can create wider and more open spaces, enhancing both functionality and aesthetic appeal. Moreover, the design flexibility offered by compound girders allows for innovative architectural solutions. Architects can play with shapes and forms, knowing that the underlying structure will provide the necessary support. This versatility has led to some iconic structures around the world that utilize compound girders in their design. Another significant aspect to consider is the sustainability of using compound girders. With the growing emphasis on environmentally friendly construction practices, the ability to combine materials can lead to more sustainable building methods. For example, using recycled steel in a compound girder not only reduces waste but also lowers the carbon footprint of the construction process. However, the implementation of compound girders does come with its challenges. Engineers must carefully analyze the interaction between the different materials to ensure they perform well together under various load conditions. Additionally, the construction process may become more complex due to the need for precise fabrication and assembly of the components that make up the compound girder. In conclusion, the compound girder represents a significant advancement in structural engineering. Its ability to combine materials for enhanced performance, cost-effectiveness, and design flexibility makes it an invaluable asset in modern construction. As we continue to innovate and push the boundaries of what is possible in engineering, the compound girder will undoubtedly play a crucial role in shaping the future of our built environment.

在土木工程和结构设计领域，术语复合梁指的是由两种或多种材料或组件构成的一种梁。这种设计方法允许将不同的特性结合在一起，以实现更高的强度、稳定性和性能。使用复合梁可以显著增强结构的承载能力，使其成为桥梁、建筑物和其他大型建筑的热门选择。复合梁的概念在现代工程中至关重要，因为它使工程师能够优化建筑中使用的材料。例如，典型的复合梁可能由钢框架与混凝土结合而成，利用钢材的高抗拉强度和混凝土的抗压强度。这种协同作用不仅提高了整体结构的完整性，还通过最小化所需材料的数量来降低成本。使用复合梁的主要优点之一是它能够跨越更长的距离，而不需要额外的支撑柱。这一特性在桥梁建设中尤为重要，因为清晰的跨度对于车辆和行人交通是必要的。通过采用复合梁，工程师可以创造更宽敞和开放的空间，从而增强功能性和美观性。此外，复合梁所提供的设计灵活性也允许创新的建筑解决方案。建筑师可以玩转形状和形式，知道基础结构将提供必要的支持。这种多样性导致世界各地一些标志性建筑在设计中利用了复合梁。另一个需要考虑的重要方面是使用复合梁的可持续性。随着对环保建筑实践的日益重视，结合材料的能力可以导致更可持续的建筑方法。例如，在复合梁中使用回收钢材不仅减少了废物，还降低了建筑过程的碳足迹。然而，实施复合梁确实带来了挑战。工程师必须仔细分析不同材料之间的相互作用，以确保它们在各种负载条件下能够良好地协同工作。此外，由于需要精确的制造和组装构成复合梁的组件，施工过程可能变得更加复杂。总之，复合梁代表了结构工程的一项重大进步。它结合材料以增强性能、成本效益和设计灵活性的能力，使其成为现代建筑中不可或缺的资产。随着我们不断创新并推动工程可能性的边界，复合梁无疑将在塑造我们未来的建筑环境中发挥关键作用。