submerged piling

简明释义

沉桩

英英释义

例句

1.During the construction of the bridge, they had to install submerged piling to support the structure.

在桥梁建设过程中，他们必须安装沉入水中的桩基来支撑结构。

2.Environmental assessments were conducted to evaluate the impact of the submerged piling on marine life.

进行了环境评估，以评估沉入水中的桩基对海洋生物的影响。

3.The submerged piling was designed to withstand strong currents and protect the waterfront.

该沉入水中的桩基旨在承受强流并保护海滨。

4.The contractor faced challenges while placing the submerged piling due to poor visibility underwater.

由于水下能见度差，承包商在放置沉入水中的桩基时面临挑战。

5.The engineers conducted a thorough analysis of the submerged piling to ensure its stability under water.

工程师对沉入水中的桩基进行了彻底分析，以确保其在水下的稳定性。

作文

In the field of civil engineering and construction, various techniques are utilized to ensure the stability and durability of structures. One such technique that has gained significant importance is the use of submerged piling. This method involves driving piles into the ground beneath water bodies, which can be rivers, lakes, or even coastal areas. The primary purpose of submerged piling is to provide a strong foundation for buildings, bridges, and other infrastructures that are built in or near water. The process of implementing submerged piling begins with careful planning and surveying of the site. Engineers must assess the soil conditions, water depth, and potential environmental impacts before proceeding. Once the site is deemed suitable, specialized equipment is employed to drive the piles into the submerged soil. These piles are typically made of concrete, steel, or timber, and their length and diameter vary depending on the specific requirements of the project. One of the main advantages of submerged piling is its ability to resist lateral forces, such as those caused by waves or currents. This is particularly important for structures like bridges or piers that must withstand the dynamic forces of water. Additionally, submerged piling can help mitigate the effects of erosion, providing a stable base that prevents the surrounding soil from being washed away. Moreover, submerged piling is often chosen for its environmental benefits. By utilizing this method, engineers can minimize the disturbance to the aquatic ecosystem. Traditional excavation methods can lead to significant habitat destruction, but submerged piling allows for greater preservation of the underwater environment. This is crucial in maintaining biodiversity and protecting sensitive species that inhabit these areas. However, the implementation of submerged piling is not without its challenges. The underwater environment can present unique obstacles, such as limited visibility and the presence of debris. Engineers must be equipped with advanced technology, including sonar and remotely operated vehicles, to navigate these difficulties effectively. Furthermore, the costs associated with submerged piling can be higher than traditional piling methods, primarily due to the specialized equipment and expertise required. In conclusion, submerged piling is a vital technique in modern civil engineering, particularly for projects located in aquatic environments. Its ability to provide stability and reduce environmental impact makes it a preferred choice for many engineers. As technology continues to advance, we can expect further innovations in submerged piling techniques, leading to even more efficient and sustainable construction practices in the future.

在土木工程和建筑领域，使用各种技术来确保结构的稳定性和耐久性。其中一种日益重要的方法是使用潜水桩。这种方法涉及将桩驱入水体下方的地面，这些水体可以是河流、湖泊甚至沿海地区。潜水桩的主要目的是为在水中或靠近水建造的建筑物、桥梁和其他基础设施提供坚固的基础。实施潜水桩的过程始于对现场的仔细规划和勘测。工程师必须评估土壤条件、水深以及潜在的环境影响，然后才能继续。一旦现场被认为适合，就会使用专业设备将桩驱入水下土壤。这些桩通常由混凝土、钢材或木材制成，其长度和直径根据项目的具体要求而有所不同。潜水桩的主要优势之一是其抵抗横向力的能力，例如波浪或水流造成的力。这对于像桥梁或码头这样的结构尤为重要，因为它们必须承受水的动态力量。此外，潜水桩可以帮助减轻侵蚀的影响，提供一个稳定的基础，防止周围土壤被冲走。此外，潜水桩通常因其环境效益而被选择。通过利用这种方法，工程师可以最大限度地减少对水生生态系统的干扰。传统的挖掘方法可能导致显著的栖息地破坏，但潜水桩允许更好地保护水下环境。这对于维护生物多样性和保护生活在这些区域的敏感物种至关重要。然而，实施潜水桩并非没有挑战。水下环境可能会带来独特的障碍，例如能见度有限和存在碎片。工程师必须配备先进的技术，包括声纳和遥控潜水器，以有效应对这些困难。此外，与传统桩基方法相比，潜水桩的成本可能更高，主要是由于所需的专业设备和专业知识。总之，潜水桩是现代土木工程中的一项重要技术，特别是对于位于水域环境中的项目。它提供稳定性和减少环境影响的能力使其成为许多工程师的首选。随着技术的不断进步，我们可以期待在潜水桩技术方面进一步的创新，从而在未来实现更高效和可持续的建筑实践。