concrete-filled steel tubular member

简明释义

钢管混凝土构件

英英释义

例句

1.The design team decided to incorporate concrete-filled steel tubular members in the framework for better seismic performance.

设计团队决定在框架中加入混凝土填充钢管构件以获得更好的抗震性能。

2.In high-rise buildings, concrete-filled steel tubular members are often used for columns due to their strength and stability.

在高层建筑中，混凝土填充钢管构件通常用于柱子，因为它们具有强度和稳定性。

3.During the inspection, the engineer noted that the concrete-filled steel tubular members were well-integrated into the overall structure.

在检查过程中，工程师注意到混凝土填充钢管构件与整体结构良好结合。

4.The construction of the bridge utilized several concrete-filled steel tubular members to enhance its load-bearing capacity.

这座桥的建设使用了几个混凝土填充钢管构件以增强其承载能力。

5.The use of concrete-filled steel tubular members can significantly reduce the weight of the structure while maintaining strength.

使用混凝土填充钢管构件可以显著减少结构的重量，同时保持强度。

作文

In modern construction, the use of advanced materials and innovative designs has revolutionized the way we build structures. One such advancement is the utilization of the concrete-filled steel tubular member, which combines the strength of steel with the compressive capabilities of concrete. This composite material not only enhances the structural integrity of buildings but also offers various benefits in terms of durability and resistance to environmental factors.The concrete-filled steel tubular member consists of a hollow steel tube that is filled with concrete. This unique combination allows for a high level of load-bearing capacity, making it suitable for a wide range of applications, including high-rise buildings, bridges, and industrial structures. The steel tube provides tensile strength, while the concrete adds compressive strength, creating a synergy that significantly improves the overall performance of the member.One of the primary advantages of using concrete-filled steel tubular members is their ability to withstand extreme conditions. These members exhibit excellent resistance to fire, corrosion, and seismic activities. For instance, during a fire, the concrete acts as an insulator, protecting the steel from reaching critical temperatures that could compromise its structural integrity. Similarly, in seismic zones, the flexibility of the steel combined with the rigidity of the concrete helps absorb and dissipate energy, reducing the risk of structural failure during an earthquake.Moreover, the construction process involving concrete-filled steel tubular members can be more efficient compared to traditional methods. The prefabrication of these members allows for quicker assembly on-site, minimizing labor costs and construction time. Additionally, their lightweight nature reduces the overall load on foundations, which can lead to savings in material and construction expenses.However, it is essential to consider the design and implementation of concrete-filled steel tubular members carefully. Engineers must ensure that the correct proportions of concrete and steel are used to achieve the desired structural performance. Furthermore, proper curing of the concrete is crucial to prevent any weaknesses that could arise from inadequate strength development.In conclusion, the concrete-filled steel tubular member represents a significant innovation in the field of construction. Its unique properties enable engineers to design safer, more durable, and cost-effective structures. As we continue to face challenges related to urbanization and environmental sustainability, the adoption of such advanced materials will play a vital role in shaping the future of construction. By leveraging the benefits of concrete-filled steel tubular members, we can create resilient infrastructures that meet the demands of modern society while ensuring safety and longevity.

在现代建筑中，先进材料和创新设计的使用彻底改变了我们的建筑方式。其中一个重要的进展是利用混凝土填充钢管构件，它将钢材的强度与混凝土的抗压能力相结合。这种复合材料不仅增强了建筑物的结构完整性，还在耐久性和抵御环境因素方面提供了各种好处。

混凝土填充钢管构件由一个空心钢管和填充其中的混凝土组成。这种独特的组合允许具有很高的承载能力，使其适用于高层建筑、桥梁和工业结构等广泛应用。钢管提供拉伸强度，而混凝土则增加抗压强度，形成一种协同效应，显著提高构件的整体性能。

使用混凝土填充钢管构件的主要优势之一是它们能够承受极端条件。这些构件表现出优异的耐火、耐腐蚀和抗震性能。例如，在火灾期间，混凝土作为绝缘体，保护钢材不达到可能危及其结构完整性的临界温度。同样，在地震区，钢材的灵活性与混凝土的刚性结合，有助于吸收和消散能量，减少地震期间结构失效的风险。

此外，涉及混凝土填充钢管构件的施工过程相比传统方法可以更加高效。这些构件的预制化使得现场组装更快，从而减少人工成本和施工时间。此外，它们的轻质特性降低了对基础的整体负荷，这可能会导致材料和施工费用的节省。

然而，必须仔细考虑混凝土填充钢管构件的设计和实施。工程师必须确保使用正确的混凝土和钢材比例，以实现所需的结构性能。此外，混凝土的适当养护对于防止因强度发展不足而产生的任何弱点至关重要。

总之，混凝土填充钢管构件代表了建筑领域的一项重大创新。其独特的属性使工程师能够设计出更安全、更耐用和更具成本效益的结构。随着我们继续面临城市化和环境可持续性相关的挑战，采用这些先进材料将在塑造建筑未来中发挥重要作用。通过利用混凝土填充钢管构件的优势，我们可以创造出符合现代社会需求的韧性基础设施，同时确保安全和持久性。