pile framing

简明释义

桩框架

英英释义

例句

1.In areas prone to flooding, pile framing is essential for elevating structures above potential water levels.

在易洪水地区，桩框架对于将结构提升到潜在水位之上至关重要。

2.The contractor explained how pile framing would enhance the durability of the new commercial building.

承包商解释了如何通过桩框架来增强新商业建筑的耐久性。

3.The construction team used pile framing to support the new bridge, ensuring it could withstand heavy traffic.

施工团队采用了桩框架来支撑新桥，确保其能够承受重型交通。

4.During the foundation work, the engineers focused on the pile framing to provide stability to the building.

在基础工程中，工程师们专注于桩框架以为建筑提供稳定性。

5.The architect recommended pile framing for the coastal property to prevent damage from rising sea levels.

建筑师建议对沿海物业使用桩框架以防止因海平面上升而造成的损害。

作文

In the world of construction and architecture, the term pile framing refers to a structural system that utilizes piles as a foundational support mechanism. This method is particularly advantageous in areas with soft soil or where the ground is unstable. By driving piles deep into the earth, engineers can create a solid base for buildings, bridges, and other structures, ensuring their stability and longevity. The concept of pile framing is not just about physical support; it also involves careful planning and design to accommodate the unique challenges presented by different environments.One of the primary benefits of pile framing is its ability to distribute loads effectively. When a structure is built on a soft or unstable surface, traditional foundations may not provide adequate support. However, by using piles, which are often made of concrete or steel, the weight of the building is transferred down to more stable soil layers. This load distribution minimizes the risk of settling or shifting, which can lead to structural damage over time.Moreover, pile framing is often employed in coastal areas or regions prone to flooding. In such locations, the elevation provided by piles can protect buildings from water damage. For instance, many homes built along coastlines use this technique to ensure they remain above potential floodwaters. This not only preserves the integrity of the structure but also enhances safety for its occupants.The construction process of pile framing involves several steps, beginning with site assessment and soil testing. Engineers must evaluate the type of soil present and determine the appropriate depth and type of piles needed for the project. Once this assessment is complete, piles are driven into the ground using specialized equipment. The installation process can vary depending on the type of pile used, whether it be driven piles, drilled shafts, or helical piles.After the piles are in place, they are typically capped with a beam or slab that connects them and provides a platform for the rest of the structure. This capping process is crucial, as it ensures that the loads from the building are evenly distributed across all piles. The final result is a robust foundation that can withstand various environmental factors, making pile framing an essential technique in modern construction.In conclusion, pile framing is a vital aspect of civil engineering that addresses the challenges posed by less-than-ideal soil conditions. Its ability to provide stability and safety for structures in various environments cannot be overstated. As urban development continues to expand into areas with complex geological conditions, the importance of understanding and implementing pile framing techniques will only grow. Through innovative engineering solutions and careful planning, we can ensure that our buildings are not only functional but also resilient against the forces of nature.

在建筑和建筑领域，术语桩框架指的是一种利用桩作为基础支撑机制的结构系统。这种方法在软土或地面不稳定的地区特别有利。通过将桩深埋入地下，工程师可以为建筑、桥梁和其他结构创建坚固的基础，从而确保其稳定性和持久性。桩框架的概念不仅仅是关于物理支撑；它还涉及到仔细的规划和设计，以适应不同环境所带来的独特挑战。桩框架的主要好处之一是它能够有效地分配负荷。当一栋建筑建在软或不稳定的表面上时，传统基础可能无法提供足够的支持。然而，通过使用桩（通常由混凝土或钢制成），建筑的重量被转移到底层更稳定的土壤。这种负荷分配最小化了沉降或位移的风险，这可能导致结构随时间的推移而受损。此外，桩框架通常用于沿海地区或易受洪水影响的地区。在这些地方，桩提供的高度可以保护建筑免受水损害。例如，许多沿海地区的房屋使用这种技术，以确保它们保持在潜在洪水之上。这不仅保护了结构的完整性，还增强了居住者的安全。桩框架的施工过程包括几个步骤，首先是现场评估和土壤测试。工程师必须评估存在的土壤类型，并确定项目所需的桩的适当深度和类型。一旦完成评估，桩就会使用专业设备打入地下。安装过程可能会因所用桩的类型而有所不同，无论是驱动桩、钻孔桩还是螺旋桩。桩安装后，通常会用梁或板将它们封顶，连接它们并为结构的其余部分提供平台。这个封顶过程至关重要，因为它确保建筑的负荷均匀分布在所有桩上。最终结果是一个坚固的基础，可以承受各种环境因素，这使得桩框架成为现代建筑中的一种重要技术。总之，桩框架是土木工程的一个重要方面，它解决了不理想土壤条件所带来的挑战。它为各种环境中的结构提供稳定性和安全性的能力不可低估。随着城市发展继续扩展到具有复杂地质条件的地区，理解和实施桩框架技术的重要性只会增加。通过创新的工程解决方案和仔细的规划，我们可以确保我们的建筑不仅功能齐全，而且能够抵御自然力量的侵袭。