rolling caisson

简明释义

滚动坞门

英英释义

例句

1.Engineers designed a new rolling caisson to improve efficiency in deep water drilling.

工程师设计了一种新的滚动沉箱以提高深水钻探的效率。

2.The rolling caisson allows for easier movement across uneven terrain during construction.

滚动沉箱使得在施工过程中更容易在不平坦的地形上移动。

3.The construction team used a rolling caisson to create a stable foundation for the bridge.

施工团队使用滚动沉箱为桥梁打下坚实的基础。

4.Using a rolling caisson can significantly reduce the time required for underwater installations.

使用滚动沉箱可以显著减少水下安装所需的时间。

5.During the underwater excavation, the rolling caisson helped maintain the integrity of the site.

在水下挖掘过程中，滚动沉箱帮助保持了工地的完整性。

作文

The construction of bridges and large structures often involves complex engineering techniques. One such technique is the use of a rolling caisson, which is a floating structure used to create underwater foundations. The rolling caisson method allows engineers to build deep foundations in a controlled manner, ensuring stability and safety. This is particularly important in areas where the ground conditions are challenging or where water levels fluctuate significantly.A rolling caisson is typically constructed on land and then floated to the desired location. Once in position, it is ballasted with water or other materials to sink it to the required depth. This method reduces the risks associated with traditional piling methods, as it minimizes vibrations and disturbances to the surrounding environment. Moreover, the rolling caisson can be used in various marine environments, making it a versatile choice for many projects.One of the key advantages of using a rolling caisson is its ability to accommodate different soil types. Whether the substrate is soft clay, sandy soil, or rocky terrain, the rolling caisson can be designed to penetrate through these layers effectively. This adaptability is crucial for engineers who must consider the geological characteristics of the site before construction begins.Furthermore, the construction process involving a rolling caisson is often more efficient than traditional methods. Since the caisson is built on land, workers can complete much of the preparation and assembly in a controlled environment. This minimizes delays caused by weather or other external factors that can affect construction timelines when working directly in water.Once the rolling caisson has been positioned and sunk to the appropriate depth, it can be filled with concrete to form a solid foundation. This process not only provides the necessary support for the structure being built but also ensures that the foundation is resistant to environmental stresses such as currents and erosion. The durability of a rolling caisson foundation makes it an ideal choice for constructing piers, docks, and even offshore wind turbines.In summary, the rolling caisson represents a significant advancement in marine construction techniques. Its ability to provide stable and durable foundations in challenging environments sets it apart from traditional methods. As engineers continue to innovate and improve construction practices, the rolling caisson will likely play an increasingly important role in future infrastructure projects, particularly in coastal and underwater applications. By leveraging this technology, we can ensure that our bridges and buildings stand the test of time, providing safe passage and shelter for generations to come.

桥梁和大型结构的建设通常涉及复杂的工程技术。其中一种技术是使用滚动沉箱，这是一种用于创建水下基础的浮动结构。滚动沉箱方法允许工程师以受控的方式建立深基础，确保稳定性和安全性。这在地面条件具有挑战性或水位显著波动的地区尤为重要。滚动沉箱通常在陆地上建造，然后漂浮到所需位置。一旦到位，它就会通过水或其他材料进行加重，以沉入所需深度。这种方法降低了传统打桩方法相关的风险，因为它最小化了对周围环境的振动和干扰。此外，滚动沉箱可以在各种海洋环境中使用，使其成为许多项目的多功能选择。使用滚动沉箱的一个关键优势是它能够适应不同的土壤类型。无论基底是软粘土、沙土还是岩石地形，滚动沉箱都可以被设计有效地穿透这些层。这种适应性对于工程师在施工开始前必须考虑现场的地质特征至关重要。此外，涉及滚动沉箱的施工过程通常比传统方法更高效。由于沉箱是在陆地上建造的，工人可以在受控环境中完成大部分准备和组装工作。这最小化了由天气或其他外部因素造成的延误，这些因素可能会影响直接在水中工作的施工时间表。一旦滚动沉箱被定位并沉到适当的深度，它可以用混凝土填充，以形成坚固的基础。这个过程不仅提供了所建结构所需的支持，还确保基础能够抵御环境压力，如水流和侵蚀。滚动沉箱基础的耐用性使其成为建造码头、栈桥甚至海上风力涡轮机的理想选择。总之，滚动沉箱代表了海洋施工技术的重大进步。它在具有挑战性的环境中提供稳定和耐用基础的能力使其与传统方法截然不同。随着工程师继续创新和改进施工实践，滚动沉箱在未来基础设施项目中，特别是在沿海和水下应用中，可能会发挥越来越重要的作用。通过利用这一技术，我们可以确保我们的桥梁和建筑经得起时间的考验，为未来几代人提供安全的通行和庇护。