deep-arc piling

简明释义

拱形板桩

英英释义

例句

1.During the project, we encountered challenges with deep-arc piling 深弧桩基 due to unexpected groundwater levels.

在项目中，由于意外的地下水位，我们在使用深弧桩基时遇到了挑战。

2.We completed the deep-arc piling 深弧桩基 installation ahead of schedule, which impressed the client.

我们提前完成了深弧桩基的安装，令客户印象深刻。

3.The use of deep-arc piling 深弧桩基 significantly reduced the risk of settlement in the high-rise building.

使用深弧桩基显著降低了高层建筑沉降的风险。

4.The construction team decided to use deep-arc piling 深弧桩基 to ensure stability in the soft soil conditions.

施工团队决定使用深弧桩基以确保在软土条件下的稳定性。

5.The engineer recommended deep-arc piling 深弧桩基 for the new bridge to enhance load distribution.

工程师建议为新桥使用深弧桩基以增强荷载分布。

作文

In the field of civil engineering, various techniques are employed to ensure the stability and durability of structures. One such technique is known as deep-arc piling, which plays a crucial role in foundation construction. The term deep-arc piling refers to a method of deep foundation installation that utilizes curved piles to provide enhanced load-bearing capacity and resistance against lateral forces. This innovative approach is particularly beneficial in areas with challenging soil conditions or where traditional piling methods may not suffice.The process of deep-arc piling begins with the careful assessment of the site. Engineers analyze soil properties, groundwater levels, and potential load requirements to determine the optimal design for the piles. Once the design is finalized, specialized equipment is used to drill deep into the ground, creating arcs that follow the contours of the underlying geology. This curvature allows the piles to distribute loads more evenly, reducing stress on the surrounding soil and improving overall stability.One of the primary advantages of deep-arc piling is its ability to withstand significant lateral forces, which are often encountered in seismic regions or areas prone to high winds. The arch shape of the piles helps to absorb and transfer these forces, minimizing the risk of structural failure. Additionally, this method can be particularly effective in soft or unstable soils, where traditional straight piles might experience buckling or shifting.Moreover, deep-arc piling can also contribute to environmental sustainability. By utilizing advanced materials and techniques, engineers can reduce the amount of concrete and steel required for construction, thereby lowering the carbon footprint of the project. Furthermore, the minimized disturbance to the surrounding ecosystem during installation makes it a more environmentally friendly option compared to other piling methods.Despite its numerous benefits, deep-arc piling is not without challenges. The complexity of the installation process requires skilled labor and advanced machinery, which can increase project costs and timelines. Additionally, thorough planning and precise execution are essential to ensure that the piles are installed at the correct angles and depths, as any deviations could compromise the integrity of the foundation.In conclusion, deep-arc piling represents a significant advancement in foundation engineering. Its unique design and construction methodology offer enhanced stability and load-bearing capabilities, making it an ideal choice for various construction projects. As the demand for resilient and sustainable infrastructure continues to grow, the adoption of innovative techniques like deep-arc piling will undoubtedly play a vital role in shaping the future of civil engineering. Understanding and mastering this technique can lead to safer and more efficient building practices, ultimately benefiting both the industry and society as a whole.

在土木工程领域，各种技术被用来确保结构的稳定性和耐久性。其中一种技术被称为深弧桩，它在基础建设中发挥着至关重要的作用。术语深弧桩指的是一种深基础安装方法，利用弯曲的桩提供增强的承载能力和抵御侧向力的能力。这种创新的方法在土壤条件复杂或传统桩基方法可能不足的地区特别有益。深弧桩的过程始于对现场的仔细评估。工程师分析土壤特性、地下水位和潜在的负荷要求，以确定桩的最佳设计。一旦设计最终确定，专业设备就会被用来深钻地下，创建遵循地下地质轮廓的弧形。这种曲线形状使得桩能够更均匀地分配负荷，从而减少对周围土壤的压力，提高整体稳定性。深弧桩的主要优势之一是它能够承受显著的侧向力，这些力通常出现在地震区域或高风地区。桩的拱形帮助吸收和转移这些力量，最小化结构失效的风险。此外，这种方法在软或不稳定的土壤中也特别有效，在这些地方，传统的直桩可能会经历屈曲或位移。此外，深弧桩还可以促进环境可持续性。通过采用先进的材料和技术，工程师可以减少施工所需的混凝土和钢材，从而降低项目的碳足迹。此外，在安装过程中对周围生态系统的干扰最小，使其成为比其他桩基方法更环保的选择。尽管有众多好处，深弧桩也并非没有挑战。安装过程的复杂性需要熟练的劳动力和先进的机械设备，这可能会增加项目的成本和时间。此外，彻底的规划和精确的执行对于确保桩以正确的角度和深度安装至关重要，因为任何偏差都可能危及基础的完整性。总之，深弧桩代表了基础工程的一项重大进步。其独特的设计和施工方法提供了增强的稳定性和承载能力，使其成为各种建设项目的理想选择。随着对韧性和可持续基础设施需求的不断增长，像深弧桩这样的创新技术的采用无疑将在塑造土木工程的未来中发挥重要作用。理解和掌握这一技术可以导致更安全、更高效的建筑实践，最终使行业和整个社会受益。