strutted sheet piling

简明释义

支撑的板桩

英英释义

例句

1.The city approved the use of strutted sheet piling as part of the flood defense system.

市政府批准在防洪系统中使用支撑式钢板桩。

2.During the project, we encountered challenges with the strutted sheet piling installation due to unexpected soil conditions.

在项目过程中，由于意外的土壤条件，我们在安装支撑式钢板桩时遇到了挑战。

3.To prevent soil collapse, engineers installed strutted sheet piling along the riverbank.

为了防止土壤塌方，工程师在河岸沿线安装了支撑式钢板桩。

4.The contractor specified strutted sheet piling for its durability and resistance to water pressure.

承包商指定使用支撑式钢板桩，因为它耐用且能抵抗水压。

5.The construction team decided to use strutted sheet piling to support the excavation site during the foundation work.

施工团队决定使用支撑式钢板桩来支撑基础工程的挖掘现场。

作文

In the field of civil engineering and construction, various techniques are employed to ensure the stability and safety of structures. One such technique is the use of strutted sheet piling, which plays a crucial role in retaining walls and excavation sites. The term strutted sheet piling refers to a method of installing vertical sheets of steel or other materials into the ground to create a barrier that can withstand lateral earth pressures. This method is particularly beneficial in areas where space is limited, and traditional retaining walls may not be feasible. The process begins with the installation of the sheet piles, which are driven into the ground using specialized equipment. These sheets interlock with one another, forming a continuous barrier. Once the sheet piling is in place, struts are added to provide additional support. Struts are horizontal beams that connect the sheet piles at intervals, transferring the loads from the soil and any additional forces to the piles. This configuration enhances the overall stability of the structure, allowing it to resist the pressures exerted by the surrounding earth. One of the primary advantages of using strutted sheet piling is its ability to minimize soil movement during excavation. In many construction projects, especially in urban environments, maintaining the integrity of adjacent structures is paramount. The use of strutting systems helps to prevent soil collapse and protects nearby buildings and infrastructure. Furthermore, this method allows for deeper excavations without compromising safety, making it ideal for projects such as basements, tunnels, and underground facilities. Another important aspect of strutted sheet piling is its versatility. It can be used in a variety of soil conditions, including sandy, clayey, and rocky terrains. Engineers can design the strutting system to accommodate specific site conditions, ensuring that it meets the necessary safety standards. Additionally, the materials used for sheet piling can vary, with options including steel, vinyl, and composite materials, each offering different benefits in terms of durability and environmental impact. Moreover, the installation of strutted sheet piling can be completed relatively quickly compared to other methods of soil retention. This efficiency is particularly valuable in time-sensitive projects, where delays can lead to increased costs. With advancements in technology and equipment, the driving of sheet piles and the installation of struts have become more streamlined, allowing for faster project completion. In conclusion, strutted sheet piling is an essential technique in modern construction that provides effective soil retention and stability. Its ability to minimize soil movement, accommodate various soil conditions, and expedite the construction process makes it a preferred choice among engineers and contractors. As urban development continues to expand, the demand for innovative and efficient construction methods like strutted sheet piling will undoubtedly grow, contributing to safer and more sustainable building practices.

在土木工程和建筑领域，采用各种技术以确保结构的稳定性和安全性。其中一种技术是使用支撑式钢板桩，它在挡土墙和挖掘现场中发挥着至关重要的作用。术语支撑式钢板桩指的是一种将垂直的钢板或其他材料安装到地下以创建一个能够承受侧向土压力的屏障的方法。这种方法在空间有限且传统挡土墙不可行的地区尤其有益。 这一过程始于安装钢板桩，这些桩通过专用设备驱入地下。这些钢板相互咬合，形成一个连续的屏障。一旦钢板桩就位，就会添加支撑，以提供额外的支持。支撑是连接钢板桩的水平梁，间隔一定距离，将土壤和任何附加力量的负荷转移到桩上。这种配置增强了结构的整体稳定性，使其能够抵御周围土壤施加的压力。 使用支撑式钢板桩的主要优点之一是能够在挖掘过程中最小化土壤移动。在许多建筑项目中，尤其是在城市环境中，保持邻近结构的完整性至关重要。支撑系统的使用有助于防止土壤塌陷，并保护附近的建筑物和基础设施。此外，这种方法允许更深的挖掘而不妨碍安全，非常适合地下室、隧道和地下设施等项目。 支撑式钢板桩的另一个重要方面是其多功能性。它可以用于各种土壤条件，包括沙质、粘土和岩石地形。工程师可以根据特定的场地条件设计支撑系统，确保其符合必要的安全标准。此外，用于钢板桩的材料可以变化，包括钢、乙烯基和复合材料，每种材料在耐久性和环境影响方面都有不同的优点。 此外，与其他土壤保持方法相比，安装支撑式钢板桩可以相对快速完成。这种效率在时间敏感的项目中特别有价值，因为延误可能导致成本增加。随着技术和设备的进步，钢板桩的驱动和支撑的安装变得更加流畅，从而加快了项目的完成速度。 总之，支撑式钢板桩是现代建筑中一种重要的技术，提供有效的土壤保持和稳定性。它能够最小化土壤移动、适应各种土壤条件并加快施工过程，使其成为工程师和承包商的首选。随着城市发展不断扩大，对创新和高效建筑方法如支撑式钢板桩的需求无疑将增长，从而促进更安全、更可持续的建筑实践。