floating caisson

简明释义

浮箱式坞门

英英释义

例句

1.The construction team decided to use a floating caisson 浮筒沉箱 to create a stable foundation for the bridge.

施工团队决定使用一个浮筒沉箱 floating caisson 来为桥梁创建一个稳定的基础。

2.Using a floating caisson 浮筒沉箱 allows for greater flexibility in marine construction projects.

使用浮筒沉箱 floating caisson 使海洋建设项目具有更大的灵活性。

3.Engineers designed the floating caisson 浮筒沉箱 to withstand strong currents in the river.

工程师设计了这个浮筒沉箱 floating caisson 以抵御河流中的强水流。

4.The floating caisson 浮筒沉箱 was towed to the construction site before being anchored in place.

这个浮筒沉箱 floating caisson 在锚定之前被拖到施工现场。

5.During high tide, the floating caisson 浮筒沉箱 was submerged, allowing the workers to install it more easily.

在高潮期间，浮筒沉箱 floating caisson 被淹没，使工人们更容易安装。

作文

In the field of civil engineering and construction, innovative techniques and materials play a crucial role in developing structures that can withstand various environmental challenges. One such technique involves the use of a floating caisson, which is a type of underwater structure used primarily for foundation work in marine environments. A floating caisson is designed to be buoyant, allowing it to float on the water's surface before being submerged to its intended depth. This method provides several advantages over traditional methods of foundation construction, particularly in challenging locations such as harbors, riverbanks, and offshore platforms.The concept of a floating caisson is rooted in the principles of buoyancy and stability. When constructing a bridge or a large building near water, engineers often face the challenge of creating a stable foundation that can support substantial loads. Traditional methods may require extensive excavation and the use of heavy machinery, which can be both time-consuming and costly. In contrast, a floating caisson can be constructed on land, floated to the desired location, and then sunk to the seabed, significantly reducing the need for heavy equipment and minimizing disruption to the surrounding environment.One of the key benefits of utilizing a floating caisson is its ability to adapt to varying water levels. In areas where tides fluctuate significantly, a floating caisson can remain stable and secure, providing a reliable foundation regardless of changing water conditions. This adaptability makes it an ideal choice for projects in coastal regions or near rivers where water levels can rise and fall dramatically.Moreover, the construction of a floating caisson allows for greater precision in placement. Engineers can carefully control the sinking process, ensuring that the caisson is positioned exactly where it needs to be. This precision is critical in maintaining the structural integrity of the project and ensuring that it meets safety standards. Additionally, the design of a floating caisson can be customized to suit specific project requirements, including size, shape, and material composition.Another significant advantage of a floating caisson is its environmental impact. By reducing the need for extensive excavation and heavy machinery, this method minimizes disruption to marine ecosystems. Traditional construction methods can lead to sediment displacement and harm to aquatic life. However, with a floating caisson, the construction process is less invasive, allowing for a more sustainable approach to building in sensitive environments.In conclusion, the use of a floating caisson represents a remarkable advancement in civil engineering practices, particularly for projects involving water. Its ability to float, adapt to changing water levels, and minimize environmental impact makes it a preferred choice for many engineers. As we continue to innovate and seek sustainable solutions in construction, the floating caisson will undoubtedly play a vital role in shaping the future of infrastructure development in aquatic settings.

在土木工程和建筑领域，创新技术和材料在开发能够承受各种环境挑战的结构中起着至关重要的作用。其中一种技术涉及使用浮筒基础，这是一种主要用于海洋环境基础工程的水下结构。浮筒基础设计为具有浮力，允许其在水面上漂浮，然后沉入其预定深度。这种方法相较于传统的基础建设方法在挑战性地点（如港口、河岸和海上平台）提供了多项优势。浮筒基础的概念根植于浮力和稳定性的原理。当在水边建造桥梁或大型建筑时，工程师常常面临创造一个能够支撑大量负荷的稳定基础的挑战。传统方法可能需要广泛的挖掘和使用重型机械，这既耗时又昂贵。相比之下，浮筒基础可以在陆地上建造，漂浮到所需位置，然后沉入海底，从而显著减少对重型设备的需求，并最小化对周围环境的干扰。使用浮筒基础的关键好处之一是其适应不同水位的能力。在潮汐波动显著的地区，浮筒基础可以保持稳定和安全，无论水位变化如何，都能提供可靠的基础。这种适应性使其成为沿海地区或靠近水流的项目的理想选择，因为这些地方的水位可能会剧烈升降。此外，浮筒基础的建设允许更高的放置精度。工程师可以仔细控制沉没过程，确保基础正好放置在需要的位置。这种精确性对于维护项目的结构完整性和确保其符合安全标准至关重要。此外，浮筒基础的设计可以根据特定项目要求进行定制，包括大小、形状和材料组成。浮筒基础的另一个显著优势是其对环境的影响。通过减少对广泛挖掘和重型机械的需求，这种方法最小化了对海洋生态系统的干扰。传统的施工方法可能导致沉积物位移和对水生生物的伤害。然而，使用浮筒基础，施工过程不那么具有侵入性，允许在敏感环境中采用更可持续的建筑方法。总之，使用浮筒基础代表了土木工程实践的显著进步，特别是对于涉及水的项目。它能够浮动、适应变化的水位并最小化环境影响，使其成为许多工程师的首选。随着我们继续创新并寻求可持续的建筑解决方案，浮筒基础无疑将在水域基础设施发展的未来中发挥重要作用。