pile row

简明释义

桩列

英英释义

例句

1.She decided to organize her craft supplies into a pile row for easier access.

她决定将手工艺材料整理成一堆排，以便更容易取用。

2.At the recycling center, different types of materials were sorted into pile rows for processing.

在回收中心，不同类型的材料被分类成堆排以便处理。

3.The construction workers stacked the materials in a pile row to keep the site organized.

建筑工人将材料堆放在堆排中，以保持工地整洁。

4.During the inventory check, we found several items in a pile row that needed to be restocked.

在库存检查中，我们发现有几个物品在堆排中需要补货。

5.The books were arranged in a pile row on the floor while the shelves were being cleaned.

书籍在地板上以堆排的形式摆放，等待架子清理。

作文

In the world of construction and engineering, various terms are used to describe specific techniques and structures. One such term is pile row, which refers to a series of piles driven into the ground in a straight line to provide support for structures such as bridges, buildings, and retaining walls. The use of pile row systems is crucial in areas where the soil is not adequate to support the weight of the structure on its own. By distributing the load over a larger area, pile row techniques help to stabilize the foundation and prevent settling or shifting. The process of creating a pile row involves several steps. First, engineers conduct soil tests to determine the type of piles needed and the appropriate depth for installation. This is essential because different soils have varying capacities to bear loads. Once the necessary data is collected, construction crews prepare the site by clearing any obstacles and marking the locations where the piles will be placed. Next, the piles are driven into the ground using specialized equipment. Piles can be made from various materials, including wood, steel, or concrete, depending on the requirements of the project. The choice of material impacts the durability and strength of the pile row. For instance, steel piles are often used in environments where corrosion is a concern, while concrete piles may be preferred for their longevity and load-bearing capabilities. After the piles are installed, they are typically connected at the top with a cap or beam, which helps to distribute the weight of the structure evenly across the entire pile row. This capping process is vital for ensuring that the structural integrity is maintained, especially in heavy-load scenarios. Engineers must carefully calculate the load each pile will bear and ensure that the entire pile row can accommodate these stresses without failure. The advantages of using a pile row system are numerous. It allows for construction in challenging environments, such as areas with poor soil conditions or near bodies of water. Additionally, pile row foundations can be designed to minimize the impact on the surrounding environment, making them a popular choice for eco-friendly building practices. Furthermore, pile row systems can be installed relatively quickly compared to traditional foundation methods, which can save time and reduce overall project costs. However, there are also challenges associated with pile row installations. For instance, improper installation can lead to uneven settling, which can compromise the safety and stability of the structure. Therefore, it is essential for engineers and construction teams to follow best practices and adhere to safety regulations throughout the installation process. In conclusion, understanding the concept of pile row is fundamental for professionals in the construction and engineering fields. This technique plays a vital role in ensuring the stability and safety of various structures, especially in difficult soil conditions. As technology advances, the methods and materials used for pile row installations continue to evolve, leading to even more efficient and sustainable building practices. Whether for residential homes or large-scale infrastructure projects, the significance of a well-executed pile row cannot be overstated.

在建筑和工程的世界中，使用各种术语来描述特定的技术和结构。其中一个术语是桩行，它指的是一系列以直线方式打入地下的桩，以为桥梁、建筑物和挡土墙等结构提供支持。桩行系统的使用在土壤不足以单独支撑结构重量的地区至关重要。通过将负载分布到更大的区域，桩行技术有助于稳定基础，防止沉降或位移。创建桩行的过程涉及几个步骤。首先，工程师进行土壤测试，以确定所需的桩类型和安装的适当深度。这一点至关重要，因为不同的土壤具有不同的承载能力。一旦收集到必要的数据，施工队就会通过清除任何障碍物并标记桩将放置的位置来准备现场。接下来，使用专业设备将桩打入地下。桩可以由多种材料制成，包括木材、钢材或混凝土，具体取决于项目的要求。材料的选择影响桩行的耐久性和强度。例如，钢桩通常用于腐蚀问题严重的环境，而混凝土桩可能因其耐用性和承载能力而受到青睐。桩安装后，通常在顶部用帽子或梁连接，这有助于将结构的重量均匀分配到整个桩行上。这个加盖过程对于确保结构完整性至关重要，特别是在重载情况下。工程师必须仔细计算每根桩所承受的负载，并确保整个桩行能够承受这些压力而不发生故障。使用桩行系统的优势是众多的。它允许在困难环境中施工，例如土壤条件差或靠近水体的地区。此外，桩行基础可以设计成最小化对周围环境的影响，使其成为环保建筑实践的热门选择。此外，与传统基础方法相比，桩行系统的安装速度相对较快，可以节省时间并降低整体项目成本。然而，桩行安装也面临一些挑战。例如，不当安装可能导致不均匀沉降，从而危及结构的安全性和稳定性。因此，工程师和施工团队必须在整个安装过程中遵循最佳实践并遵守安全法规。总之，理解桩行的概念对于建筑和工程领域的专业人士至关重要。这项技术在确保各种结构的稳定性和安全性方面发挥着重要作用，尤其是在困难的土壤条件下。随着技术的进步，用于桩行安装的方法和材料不断发展，导致更高效和可持续的建筑实践。无论是住宅还是大型基础设施项目，成功执行的桩行的重要性都不容小觑。