armored concrete

简明释义

配筋混凝土

英英释义

例句

1.The use of armored concrete in tunnels can significantly reduce maintenance costs over time.

在隧道中使用装甲混凝土可以显著降低长期维护成本。

2.Architects often recommend armored concrete for building foundations in flood-prone areas.

建筑师通常建议在易洪水地区的建筑基础中使用装甲混凝土。

3.The military base was built with armored concrete to withstand potential attacks.

这个军事基地采用装甲混凝土建造，以抵御潜在的攻击。

4.The construction of the new bridge will utilize armored concrete to enhance its durability.

新桥的建设将使用装甲混凝土以增强其耐用性。

5.In seismic zones, armored concrete is essential for maintaining structural integrity during earthquakes.

在地震带，装甲混凝土对于在地震期间保持结构完整性至关重要。

作文

In the realm of modern construction, materials play a pivotal role in ensuring the durability and safety of structures. One such innovative material that has gained significant attention is armored concrete. This type of concrete is designed to withstand extreme conditions, making it ideal for various applications, including military structures, bridges, and high-rise buildings. The term armored concrete refers to a composite material that integrates steel reinforcement bars or mesh within the concrete mix. This combination enhances the tensile strength of the concrete, allowing it to resist cracking and deformation under stress.The use of armored concrete can be traced back to the need for stronger and more resilient building materials in the face of natural disasters and man-made threats. Traditional concrete, while strong in compression, is weak in tension. By incorporating steel reinforcements, engineers have developed a solution that addresses this weakness. The steel bars or mesh provide additional support, enabling the concrete to bear heavier loads and endure seismic activities without collapsing.One of the most notable advantages of armored concrete is its ability to protect against external impacts. For instance, military installations often utilize this material to create bunkers and protective barriers that can withstand explosions and projectile impacts. The combination of concrete's mass and the tensile strength provided by the steel reinforcements creates a formidable defense mechanism. Similarly, in civil engineering, armored concrete is employed in the construction of bridges and overpasses, where the structural integrity is crucial for safety and longevity.Moreover, the versatility of armored concrete allows it to be customized for specific requirements. Engineers can adjust the ratio of concrete to steel, as well as the type of steel used, to meet the demands of different projects. For example, in areas prone to earthquakes, using a higher density of steel reinforcement can significantly improve the structure's ability to absorb and dissipate seismic energy. This adaptability makes armored concrete a preferred choice for architects and engineers worldwide.However, the implementation of armored concrete is not without its challenges. The increased use of steel can lead to higher costs and longer construction times. Additionally, if not properly designed and executed, the corrosion of steel reinforcements can compromise the integrity of the concrete over time. Therefore, it is essential for construction professionals to carefully consider the environmental factors and maintenance requirements associated with armored concrete structures.In conclusion, armored concrete represents a significant advancement in construction materials, offering enhanced strength and protection compared to traditional concrete. Its unique properties make it suitable for a wide range of applications, particularly in environments where safety and durability are paramount. As technology continues to evolve, the potential for armored concrete to revolutionize the construction industry remains promising, paving the way for safer and more resilient infrastructures in the future.

在现代建筑领域，材料在确保结构的耐久性和安全性方面发挥着关键作用。装甲混凝土是一种引起广泛关注的创新材料。这种混凝土旨在承受极端条件，使其非常适合各种应用，包括军事结构、桥梁和高层建筑。术语装甲混凝土指的是在混凝土混合物中集成钢筋或钢网的复合材料。这种组合增强了混凝土的抗拉强度，使其能够在应力下抵抗开裂和变形。装甲混凝土的使用可以追溯到面对自然灾害和人为威胁时对更强大、更具韧性建筑材料的需求。传统混凝土虽然在压缩方面强，但在拉伸方面较弱。通过加入钢筋，工程师们开发出一种解决方案，解决了这一弱点。钢筋或钢网提供额外支持，使混凝土能够承受更重的负载，并在地震活动中不至于倒塌。装甲混凝土最显著的优点之一是其能够保护免受外部冲击。例如，军事设施通常利用这种材料建造掩体和防护屏障，以承受爆炸和弹丸冲击。混凝土的质量与钢筋提供的抗拉强度结合，形成了一种强大的防御机制。同样，在土木工程中，装甲混凝土被用于桥梁和立交桥的建设，其中结构完整性对于安全和耐久性至关重要。此外，装甲混凝土的多功能性使其能够根据特定要求进行定制。工程师可以调整混凝土与钢材的比例，以及使用的钢材类型，以满足不同项目的需求。例如，在地震频发地区，使用更高密度的钢筋可以显著提高结构吸收和耗散地震能量的能力。这种适应性使得装甲混凝土成为全球建筑师和工程师的首选。然而，装甲混凝土的实施并非没有挑战。钢材的使用增加可能导致更高的成本和更长的施工时间。此外，如果设计和执行不当，钢筋的腐蚀可能会随着时间的推移损害混凝土的完整性。因此，建筑专业人士必须仔细考虑与装甲混凝土结构相关的环境因素和维护要求。总之，装甲混凝土代表了建筑材料的一项重大进步，与传统混凝土相比，提供了增强的强度和保护。其独特的特性使其适合广泛的应用，特别是在安全和耐久性至关重要的环境中。随着技术的不断发展，装甲混凝土革命化建筑行业的潜力仍然令人期待，为未来更安全、更有韧性的基础设施铺平了道路。