transversely distributed steelbar

简明释义

横向分布钢筋

英英释义

例句

1.In the new building design, the architect specified transversely distributed steelbars to provide better load distribution.

在新建筑设计中，建筑师指定了横向分布的钢筋以提供更好的荷载分配。

2.During the inspection, we found that the transversely distributed steelbars were not properly aligned.

在检查过程中，我们发现横向分布的钢筋没有正确对齐。

3.The use of transversely distributed steelbars is crucial in seismic zones to improve the resilience of buildings.

在抗震区域使用横向分布的钢筋对于提高建筑物的抗震能力至关重要。

4.The construction team installed a series of transversely distributed steelbars to enhance the structural integrity of the bridge.

施工团队安装了一系列横向分布的钢筋以增强桥梁的结构完整性。

5.The engineer recommended using transversely distributed steelbars for the floor slab to prevent cracking.

工程师建议在地板板中使用横向分布的钢筋以防止开裂。

作文

In modern construction, the use of reinforced concrete has become a standard practice due to its strength and durability. However, the effectiveness of reinforced concrete structures largely depends on how the steel bars are positioned within the concrete. One of the key methods of reinforcement involves the use of transversely distributed steelbar, which plays a crucial role in enhancing the structural integrity of various constructions. 横向分布的钢筋 refers to steel bars that are placed across the width of a concrete element, providing additional support against tensile forces. The importance of transversely distributed steelbar can be observed in various applications, such as slabs, beams, and walls. For instance, when constructing a concrete slab, having steel bars distributed transversely helps to distribute loads evenly across the surface. This is particularly critical in areas that experience high traffic or heavy machinery operations, where the risk of cracking is significantly increased. By incorporating transversely distributed steelbar, engineers can enhance the load-bearing capacity of the slab, ensuring it withstands the stresses imposed upon it.Moreover, the placement of transversely distributed steelbar is not merely about adding strength; it also contributes to the overall ductility of the structure. Ductility is the ability of a material to undergo significant plastic deformation before rupture, which is essential in seismic zones where buildings must endure dynamic forces. The presence of transversely distributed steelbar allows for better energy absorption during an earthquake, reducing the likelihood of catastrophic failure.In addition to its structural benefits, the use of transversely distributed steelbar can lead to cost savings in construction. By optimizing the arrangement of steel reinforcement, builders can reduce the amount of steel needed while still achieving the desired performance characteristics. This not only lowers material costs but also reduces labor expenses associated with the installation process.However, the successful implementation of transversely distributed steelbar requires careful planning and design. Engineers must consider factors such as the spacing, diameter, and grade of the steel bars to ensure they meet the specific requirements of the project. Additionally, proper detailing during the construction phase is vital to avoid issues such as corrosion or insufficient bonding between the steel and concrete.In conclusion, the use of transversely distributed steelbar is a fundamental aspect of modern concrete construction that enhances both strength and durability. By providing critical support against tensile forces, improving ductility, and offering potential cost savings, transversely distributed steelbar proves to be an invaluable component in the design and construction of resilient structures. As the construction industry continues to evolve, understanding and effectively utilizing transversely distributed steelbar will remain essential for engineers and builders alike.

在现代建筑中，由于其强度和耐久性，使用钢筋混凝土已成为一种标准做法。然而，钢筋在混凝土中的位置对钢筋混凝土结构的有效性影响很大。增强的一种关键方法涉及使用横向分布的钢筋，它在增强各种建筑的结构完整性方面发挥着至关重要的作用。横向分布的钢筋指的是横跨混凝土构件宽度放置的钢筋，为抗拉力提供额外支持。横向分布的钢筋的重要性可以在各种应用中观察到，例如板、梁和墙。例如，在建造混凝土板时，钢筋的横向分布有助于均匀分配表面上的荷载。这在经历高交通或重型机械操作的区域尤为关键，因为这些区域的开裂风险显著增加。通过加入横向分布的钢筋，工程师可以增强板的承载能力，确保其能够承受施加的应力。此外，横向分布的钢筋的放置不仅是为了增加强度；它还对结构的整体延展性做出贡献。延展性是材料在破裂前经历显著塑性变形的能力，这在需要承受动态力的地震区尤其重要。横向分布的钢筋的存在使得在地震期间更好地吸收能量，从而减少灾难性故障的可能性。除了结构上的好处，使用横向分布的钢筋还可以在施工中实现成本节约。通过优化钢筋的排列，建筑商可以减少所需钢材的数量，同时仍然达到所需的性能特征。这不仅降低了材料成本，还减少了与安装过程相关的人工费用。然而，成功实施横向分布的钢筋需要仔细的规划和设计。工程师必须考虑钢筋的间距、直径和等级等因素，以确保满足项目的具体要求。此外，在施工阶段的适当细节处理对于避免诸如腐蚀或钢筋与混凝土之间粘结不足等问题至关重要。总之，使用横向分布的钢筋是现代混凝土建筑的基本方面，它增强了强度和耐久性。通过提供抗拉力的关键支持、改善延展性和提供潜在的成本节约，横向分布的钢筋被证明是设计和建造坚固结构中不可或缺的组成部分。随着建筑行业的不断发展，理解和有效利用横向分布的钢筋将继续对工程师和建筑商至关重要。