tension pile

简明释义

受拉桩

英英释义

例句

1.In areas with unstable soil, engineers often recommend using tension piles for better stability.

在土壤不稳定的地区，工程师通常建议使用拉力桩以获得更好的稳定性。

2.The construction team decided to use a tension pile to support the bridge's heavy load.

施工团队决定使用拉力桩来支撑桥梁的重负荷。

3.The tension pile installation process requires careful planning and execution.

安装拉力桩的过程需要仔细的规划和执行。

4.Due to the high water table, the project relied heavily on tension piles to prevent sinking.

由于水位较高，该项目严重依赖拉力桩以防止下沉。

5.They used tension piles to anchor the foundation of the skyscraper in the soft ground.

他们使用拉力桩将摩天大楼的基础固定在软土中。

作文

In modern civil engineering, the use of advanced techniques and materials has become essential for constructing stable and durable structures. One such technique involves the use of a tension pile, which plays a critical role in ensuring the stability of buildings, bridges, and other infrastructure. A tension pile is a type of deep foundation element that is designed to resist tensile forces, which are forces that tend to pull the structure apart. These piles are typically installed vertically into the ground and are anchored to a stable layer of soil or rock below. The primary purpose of a tension pile is to provide support for structures that experience uplift forces, such as those caused by wind load, seismic activity, or changes in soil conditions. For instance, in coastal areas where buildings may be subjected to strong winds and potential flooding, tension piles can help secure the foundation against these forces, preventing structural failure. When designing a foundation system that incorporates tension piles, engineers must consider various factors, including soil properties, load requirements, and environmental conditions. The installation process typically involves drilling or driving the piles into the ground to the required depth. Once in place, the piles are connected to the superstructure of the building or bridge, transferring loads effectively and ensuring stability. One significant advantage of using tension piles is their ability to minimize settlement and heave, which are common issues in foundation engineering. By anchoring the structure deep into the ground, these piles can effectively distribute loads and reduce the risk of differential settlement. This is particularly important in areas with expansive soils or where the water table fluctuates significantly. Moreover, tension piles also contribute to the overall safety of a structure. In regions prone to earthquakes, for example, these piles can help maintain the integrity of buildings by providing additional resistance against lateral forces. This is crucial for protecting both the occupants of the structure and the investment made in construction. In conclusion, the incorporation of tension piles in foundation design represents a significant advancement in civil engineering practices. Their ability to resist tensile forces and enhance the stability of structures makes them an invaluable asset in modern construction. As we continue to face challenges related to climate change, urbanization, and population growth, the use of innovative solutions like tension piles will be essential for building safe and resilient infrastructure for future generations.

在现代土木工程中，使用先进技术和材料对于构建稳定和耐用的结构至关重要。其中一种技术涉及使用拉力桩，它在确保建筑物、桥梁和其他基础设施的稳定性方面发挥着关键作用。拉力桩是一种深基础元素，旨在抵抗拉伸力，即倾向于将结构撕裂的力量。这些桩通常垂直安装到地下，并锚定在下面稳定的土壤或岩石层上。拉力桩的主要目的是为经历向上拉力的结构提供支持，这些拉力可能由风载荷、地震活动或土壤条件变化引起。例如，在沿海地区，建筑物可能受到强风和潜在洪水的影响，拉力桩可以帮助固定基础，以抵御这些力量，从而防止结构失效。在设计包含拉力桩的基础系统时，工程师必须考虑各种因素，包括土壤特性、载荷要求和环境条件。安装过程通常涉及将桩钻入或打入地下至所需深度。一旦就位，桩会连接到建筑物或桥梁的上部结构，有效传递载荷并确保稳定性。使用拉力桩的一大优势是能够最小化沉降和隆起，这是基础工程中的常见问题。通过将结构锚定到地下深处，这些桩可以有效分配载荷，降低差异沉降的风险。这在膨胀土或水位波动显著的地区尤为重要。此外，拉力桩还提高了结构的整体安全性。在地震多发地区，这些桩可以通过提供额外的侧向抵抗来帮助保持建筑物的完整性。这对于保护结构的居住者和对建设投资至关重要。总之，在基础设计中纳入拉力桩代表了土木工程实践的重大进步。它们抵抗拉伸力和增强结构稳定性的能力使它们成为现代建筑中不可或缺的资产。随着我们继续面临与气候变化、城市化和人口增长相关的挑战，使用像拉力桩这样的创新解决方案将对为未来几代人建设安全和韧性基础设施至关重要。