composite structural section

简明释义

1. 复合构造剖面; 2. 综合构造剖面;

英英释义

例句

1.The bridge was constructed with a composite structural section that allows for greater flexibility.

这座桥是用复合结构截面建造的，允许更大的灵活性。

2.Using a composite structural section can significantly lower construction costs.

使用复合结构截面可以显著降低施工成本。

3.The architect specified a composite structural section to improve the aesthetic appeal of the facade.

建筑师指定了一个复合结构截面以提高外立面的美观性。

4.In seismic zones, a composite structural section provides better resistance to earthquakes.

在地震带，复合结构截面提供更好的抗震能力。

5.The engineer designed a composite structural section to enhance the building's strength and reduce weight.

工程师设计了一个复合结构截面以增强建筑的强度并减轻重量。

作文

In modern engineering and architecture, the concept of a composite structural section is increasingly significant. A composite structural section refers to a structural element that combines two or more materials to achieve superior strength, durability, and efficiency compared to traditional materials used alone. This innovative approach has transformed the way we design buildings, bridges, and other infrastructures, making them not only more robust but also lighter and more economical.One of the primary advantages of using a composite structural section is the ability to optimize the properties of different materials. For instance, steel and concrete are often used together in construction because they complement each other's strengths. Steel has high tensile strength, while concrete excels in compression. By combining these materials into a single composite structural section, engineers can take advantage of both strengths, resulting in structures that can withstand greater loads and resist environmental factors like wind and earthquakes.Moreover, the use of composite structural sections can lead to significant cost savings during construction and maintenance. Lighter structures require less material, which can reduce both the initial costs and the long-term expenses associated with upkeep. Additionally, the reduced weight of composite sections can simplify the construction process, allowing for faster assembly and less labor. This efficiency is particularly valuable in large-scale projects where time and budget constraints are critical.Another important aspect of composite structural sections is their versatility. They can be designed to meet specific requirements for various applications, from residential buildings to industrial facilities. For example, in seismic regions, engineers can design composite structural sections that are flexible enough to absorb and dissipate energy during an earthquake, thus enhancing the safety of the structure. Similarly, in areas prone to heavy winds, these sections can be engineered to provide additional stability and resistance against lateral forces.The integration of technology in the design and analysis of composite structural sections has also revolutionized the field. Advanced software tools allow engineers to simulate the performance of different materials and configurations, enabling them to optimize designs before construction begins. This technological advancement not only improves the safety and reliability of structures but also allows for more creative architectural designs that were previously deemed impractical.In conclusion, the composite structural section represents a significant advancement in the field of engineering and architecture. By harnessing the unique properties of multiple materials, these sections enhance the performance, safety, and cost-effectiveness of structures. As we continue to face challenges such as climate change and urbanization, the adoption of composite structural sections will likely play a crucial role in creating sustainable and resilient infrastructure for the future. The ongoing research and development in this area promise even more innovative solutions that will shape the built environment for generations to come.

在现代工程和建筑中，复合结构截面 的概念越来越重要。复合结构截面 指的是结合两种或多种材料的结构元素，以实现比传统材料单独使用时更优越的强度、耐久性和效率。这种创新的方法改变了我们设计建筑、桥梁和其他基础设施的方式，使它们不仅更加坚固，而且更轻便、更经济。使用 复合结构截面 的主要优势之一是能够优化不同材料的特性。例如，钢材和混凝土常常在建筑中一起使用，因为它们互补各自的优点。钢材具有高拉伸强度，而混凝土在压缩方面表现出色。通过将这些材料结合成一个 复合结构截面，工程师可以利用这两种材料的优点，从而使结构能够承受更大的载荷，并抵抗风和地震等环境因素。此外，使用 复合结构截面 可以在施工和维护过程中带来显著的成本节约。较轻的结构需要更少的材料，这可以降低初始成本以及与维护相关的长期费用。此外，复合截面的减轻重量可以简化施工过程，从而加快组装速度，减少劳动力。这种效率在大型项目中尤为宝贵，因为时间和预算限制至关重要。复合结构截面 的另一个重要方面是它们的多功能性。它们可以根据各种应用的特定要求进行设计，从住宅建筑到工业设施。例如，在地震区域，工程师可以设计足够灵活的 复合结构截面，以在地震期间吸收和耗散能量，从而提高结构的安全性。同样，在风力较大的地区，这些截面可以设计得提供额外的稳定性和抵抗横向力的能力。技术在 复合结构截面 的设计和分析中的整合也彻底改变了这一领域。先进的软件工具使工程师能够模拟不同材料和配置的性能，使他们能够在施工开始之前优化设计。这种技术进步不仅提高了结构的安全性和可靠性，还允许更具创意的建筑设计，这在以前被认为是不切实际的。总之，复合结构截面 代表了工程和建筑领域的重要进展。通过利用多种材料的独特特性，这些截面增强了结构的性能、安全性和成本效益。随着我们继续面临气候变化和城市化等挑战，采用 复合结构截面 很可能在未来创造可持续和有韧性的基础设施中发挥关键作用。在这一领域的持续研究和发展承诺将带来更多创新解决方案，这些解决方案将塑造未来几代人的建筑环境。