spacing of stirrups

简明释义

箍筋间距

英英释义

例句

1.Incorrect spacing of stirrups can lead to serious safety issues in a building.

不正确的箍筋的间距可能会导致建筑物出现严重的安全问题。

2.For seismic design, the spacing of stirrups is critical to enhance the ductility of the structure.

在抗震设计中，箍筋的间距对增强结构的延展性至关重要。

3.The contractor adjusted the spacing of stirrups based on the load requirements outlined in the plans.

承包商根据计划中列出的荷载要求调整了箍筋的间距。

4.The engineer specified the spacing of stirrups to ensure the structural integrity of the beam.

工程师指定了箍筋的间距以确保梁的结构完整性。

5.During construction, the spacing of stirrups must be checked regularly for compliance with the design.

在施工过程中，必须定期检查箍筋的间距以确保符合设计要求。

作文

In the field of civil engineering, the design and construction of reinforced concrete structures are critical for ensuring safety and durability. One essential aspect of this design is the use of stirrups, which are small loops of steel that help hold the main reinforcement bars in place within a concrete beam or column. The proper spacing of stirrups (箍筋的间距) is vital for the overall strength of the structure. When engineers determine how far apart to place these stirrups, they must consider several factors, including the load that the structure will bear, the type of materials used, and the specific design requirements of the project.The spacing of stirrups (箍筋的间距) directly affects the shear strength of the concrete element. Shear strength refers to the ability of a material to resist sliding forces. If the spacing is too wide, there may not be enough support to prevent cracking or failure under load. Conversely, if the stirrups are placed too closely together, it can lead to unnecessary material usage and increased costs without significant benefits. Therefore, finding the right balance is crucial for both safety and efficiency in construction.Additionally, the spacing of stirrups (箍筋的间距) must comply with local building codes and standards, which are established to ensure that structures can withstand various loads and environmental conditions. These codes often provide guidelines on the maximum and minimum spacing allowed for stirrups based on the size of the beams or columns being constructed. Engineers must be well-versed in these regulations to ensure compliance and avoid costly rework or penalties.Another important consideration in determining the spacing of stirrups (箍筋的间距) is the type of loading that the structure will experience. For instance, structures subjected to high lateral loads, such as those in seismic regions, may require closer spacing to provide additional support and prevent failure during an earthquake. Similarly, structures designed to carry heavy vertical loads may also need adjustments to stirrup spacing to accommodate the increased stress on the concrete.Moreover, the manufacturing process of the stirrups themselves can influence the spacing of stirrups (箍筋的间距). Different types of stirrups, such as those made from high-strength steel, may allow for wider spacing due to their increased load-bearing capacity. Engineers must take these material properties into account when designing the reinforcement for a project.In conclusion, the spacing of stirrups (箍筋的间距) plays a crucial role in the structural integrity of reinforced concrete elements. It is a complex decision that involves careful consideration of load requirements, material properties, and compliance with building codes. By understanding the importance of this spacing, engineers can design safer and more efficient structures that meet the demands of modern construction. As the field of civil engineering continues to evolve, ongoing research and advancements in materials and design methods will further enhance our understanding of the optimal spacing of stirrups (箍筋的间距) for various applications, ultimately leading to safer and more resilient buildings and infrastructure.

在土木工程领域，钢筋混凝土结构的设计和施工对于确保安全和耐久性至关重要。这个设计的一个基本方面是使用箍筋，箍筋是帮助将主钢筋固定在混凝土梁或柱中的小钢环。正确的spacing of stirrups（箍筋的间距）对结构的整体强度至关重要。当工程师确定这些箍筋的间距时，他们必须考虑几个因素，包括结构所承受的荷载、使用的材料类型以及项目的具体设计要求。spacing of stirrups（箍筋的间距）直接影响混凝土构件的剪切强度。剪切强度是指材料抵抗滑动力的能力。如果间距过宽，可能没有足够的支撑来防止在荷载下开裂或失效。相反，如果箍筋放置得过于紧密，可能会导致不必要的材料使用和成本增加，而没有显著的好处。因此，找到合适的平衡对于施工的安全性和效率至关重要。此外，spacing of stirrups（箍筋的间距）必须符合当地建筑规范和标准，这些规范旨在确保结构能够承受各种荷载和环境条件。这些规范通常提供有关箍筋最大和最小间距的指导，具体取决于正在施工的梁或柱的大小。工程师必须熟悉这些规定，以确保合规并避免昂贵的返工或处罚。确定spacing of stirrups（箍筋的间距）时，另一个重要考虑因素是结构将经历的荷载类型。例如，受到高侧向荷载的结构，如地震区的建筑，可能需要更紧密的间距，以提供额外的支撑，并在地震期间防止失效。同样，设计用于承载重垂直荷载的结构也可能需要调整箍筋间距，以适应混凝土上的增加应力。此外，箍筋本身的制造过程也会影响spacing of stirrups（箍筋的间距）。不同类型的箍筋，例如由高强度钢制成的箍筋，可能允许更宽的间距，因为它们的承载能力更强。工程师在为项目设计加固时，必须考虑这些材料特性。总之，spacing of stirrups（箍筋的间距）在钢筋混凝土构件的结构完整性中发挥着至关重要的作用。这是一个复杂的决策，涉及对荷载要求、材料特性和建筑规范的仔细考虑。通过理解这一间距的重要性，工程师可以设计出更安全、更高效的结构，以满足现代建筑的需求。随着土木工程领域的不断发展，持续的研究和材料与设计方法的进步将进一步增强我们对各种应用中最佳spacing of stirrups（箍筋的间距）的理解，最终导致更安全、更具韧性的建筑和基础设施。