driven pile

简明释义

打入桩

英英释义

例句

1.During the foundation work, we encountered several obstacles while placing the driven piles.

在基础施工过程中，我们在放置打入桩时遇到了几个障碍。

2.The construction team used a series of driven piles to support the new bridge structure.

施工团队使用了一系列打入桩来支撑新的桥梁结构。

3.In areas with soft soil, engineers often recommend using driven piles for better stability.

在软土区域，工程师通常建议使用打入桩以获得更好的稳定性。

4.The use of driven piles helped to reduce settlement issues in the high-rise building.

使用打入桩有助于减少高层建筑的沉降问题。

5.The driven piles were installed quickly, allowing the project to stay on schedule.

这些打入桩安装迅速，使项目能够按计划进行。

作文

In the field of civil engineering, the term driven pile refers to a type of deep foundation that is created by driving a long, slender column of material into the ground. This method is commonly used in construction projects where the soil conditions are not suitable for shallow foundations. The process involves using a pile driver, which is a machine that hammers the pile into the earth until it reaches a stable layer of soil or bedrock. The use of driven piles is particularly advantageous in areas with high water tables or loose, sandy soils, as they provide increased stability and load-bearing capacity.One of the primary benefits of using driven piles is their ability to transfer loads from structures to deeper, more stable soil layers. When a building or infrastructure project is constructed, it is essential to ensure that the foundation can support the weight of the structure without settling or shifting over time. By utilizing driven piles, engineers can effectively anchor the foundation in place, minimizing the risk of structural failure.Moreover, driven piles can be made from various materials, including concrete, steel, and timber. Each material has its unique properties, making it suitable for different types of projects. For instance, concrete driven piles are often used in larger construction projects due to their durability and strength, while timber piles may be preferred for smaller residential buildings due to their cost-effectiveness and ease of installation.The installation process of driven piles is relatively quick compared to other foundation methods. Once the site is prepared, the pile driver can begin driving the piles into the ground, often completing the installation in a matter of hours or days, depending on the number of piles required. This efficiency can significantly reduce construction time and costs, making driven piles an attractive option for many builders.However, there are some challenges associated with the use of driven piles. One major concern is the potential for noise and vibration during the installation process. The pounding of the pile driver can create disturbances in the surrounding area, which may affect nearby structures or residents. To mitigate these issues, engineers often conduct thorough site assessments and may employ vibration monitoring techniques to ensure that the installation does not cause any damage.In addition, the design of driven piles must take into account factors such as soil composition, load requirements, and environmental conditions. Engineers must carefully calculate the size and length of each pile to ensure that it can adequately support the intended structure. This level of precision requires a deep understanding of geotechnical engineering principles and soil mechanics.In conclusion, driven piles are a vital component of modern construction practices, providing reliable and efficient deep foundation solutions. Their ability to adapt to various soil conditions and support heavy loads makes them an essential choice for engineers and builders alike. As construction technology continues to advance, the use of driven piles is likely to remain a popular and effective method for ensuring the stability and longevity of structures worldwide.

在土木工程领域，短语driven pile指的是一种深基础，通过将长而细的材料柱打入地下来创建。这种方法通常用于土壤条件不适合浅基础的建筑项目。该过程涉及使用桩机，这是一种将桩锤入土壤的机器，直到它达到稳定的土层或基岩。使用driven piles在高水位或松散沙土地区特别有利，因为它们提供了更高的稳定性和承载能力。使用driven piles的主要好处之一是它们能够将负载从结构转移到更深的、更稳定的土层。当建筑或基础设施项目建成时，确保基础能够支持结构的重量而不会随时间沉降或移动是至关重要的。通过利用driven piles，工程师可以有效地将基础固定在适当的位置，最小化结构失效的风险。此外，driven piles可以由多种材料制成，包括混凝土、钢材和木材。每种材料都有其独特的特性，使其适合不同类型的项目。例如，混凝土driven piles通常用于较大的建设项目，因为它们的耐用性和强度，而木桩可能因其成本效益和安装便利性而更适合较小的住宅建筑。driven piles的安装过程相对较快，与其他基础方法相比。现场准备好后，桩机可以开始将桩打入地下，通常在几小时或几天内完成安装，具体取决于所需桩的数量。这种效率可以显著减少施工时间和成本，使driven piles成为许多建筑商的吸引选择。然而，使用driven piles也存在一些挑战。一个主要问题是在安装过程中可能产生的噪音和振动。桩机的敲击声可能会对周围地区造成干扰，影响附近的建筑物或居民。为了减轻这些问题，工程师通常会进行彻底的现场评估，并可能采用振动监测技术，以确保安装不会造成任何损害。此外，driven piles的设计必须考虑土壤成分、负载要求和环境条件等因素。工程师必须仔细计算每个桩的大小和长度，以确保其能够充分支撑预期的结构。这种精确度要求对岩土工程原理和土壤力学有深刻的理解。总之，driven piles是现代建筑实践的重要组成部分，提供可靠且高效的深基础解决方案。它们适应各种土壤条件并支持重负载的能力使其成为工程师和建筑商的必选方案。随着建筑技术的不断进步，使用driven piles很可能仍将是一种受欢迎且有效的方法，以确保全球结构的稳定性和持久性。