cylinder caisson

简明释义

沉井

英英释义

例句

1.During the excavation, they discovered that the cylinder caisson was much deeper than initially planned.

在挖掘过程中，他们发现圆柱沉箱比最初计划的要深得多。

2.A cylinder caisson is often used in underwater construction to prevent water from entering the work area.

在水下施工中，通常使用圆柱沉箱以防止水进入作业区域。

3.Engineers designed a new cylinder caisson to improve the stability of the offshore platform.

工程师设计了一种新的圆柱沉箱以提高海上平台的稳定性。

4.The cylinder caisson method is preferred for its efficiency in deep water projects.

在深水项目中，圆柱沉箱法因其效率而受到青睐。

5.The construction team used a cylinder caisson to create a stable foundation for the bridge.

施工队使用了一个圆柱沉箱来为桥梁打下稳定的基础。

作文

The construction industry has always been at the forefront of innovation, constantly seeking new methods to improve the efficiency and safety of building structures. One such innovative technique is the use of a cylinder caisson, which plays a crucial role in foundation engineering. A cylinder caisson (圆筒沉箱) is a type of deep foundation that is typically used in underwater construction or in areas where soil conditions are not suitable for traditional foundations. It is essentially a large, hollow cylinder that is sunk into the ground or water to provide stability and support for structures above it.The design of a cylinder caisson allows it to be filled with concrete or other materials once it is positioned correctly. This filling process adds weight and strength, ensuring that the caisson can withstand the forces exerted by the structure it supports. The use of a cylinder caisson is particularly advantageous in locations with high water tables or soft soils, where conventional footings might fail.One of the most notable advantages of using a cylinder caisson is its ability to be installed in challenging environments. For example, when constructing bridges over rivers or harbors, engineers often face the dilemma of how to create a stable foundation in deep water. The cylinder caisson offers a solution by allowing workers to construct the caisson on land, then float it to the desired location before sinking it into place. This method not only simplifies the construction process but also minimizes the environmental impact associated with traditional pile driving techniques.Moreover, the cylinder caisson can be designed to accommodate various loads and conditions, making it a versatile choice for different types of projects. Whether it’s supporting a massive bridge or providing stability for offshore wind turbines, the adaptability of the cylinder caisson makes it an essential component in modern engineering.In addition to its structural benefits, the cylinder caisson also contributes to the longevity of buildings and infrastructures. By providing a solid foundation that resists shifting and settling, it helps prevent damage that can occur over time due to soil movement or erosion. This durability is particularly important in coastal areas or regions prone to seismic activity, where traditional foundations may struggle to maintain their integrity.Despite its many advantages, the use of a cylinder caisson does come with challenges. The installation process requires careful planning and execution to ensure that the caisson is properly positioned and secured. Engineers must take into account factors such as water depth, soil composition, and environmental regulations when designing and implementing a cylinder caisson system.In conclusion, the cylinder caisson (圆筒沉箱) is a vital element in contemporary construction practices, offering solutions to some of the most pressing challenges faced by engineers today. Its unique design and versatility make it an ideal choice for various applications, particularly in difficult environments. As the construction industry continues to evolve, the importance of innovative techniques like the cylinder caisson will undoubtedly grow, paving the way for safer and more efficient building practices in the future.

建筑行业一直处于创新的前沿，不断寻求改进建筑结构效率和安全性的新方法。cylinder caisson（圆筒沉箱）就是这样一种创新技术，在基础工程中发挥着至关重要的作用。cylinder caisson是一种深基础，通常用于水下施工或土壤条件不适合传统基础的地区。它本质上是一个大型的空心圆柱，沉入地下或水中，为其上方的结构提供稳定性和支撑。cylinder caisson的设计使其在定位正确后可以填充混凝土或其他材料。这个填充过程增加了重量和强度，确保沉箱能够承受其所支撑结构施加的力量。在高水位或软土地区，使用cylinder caisson特别有利，因为传统基础可能会失败。使用cylinder caisson的一个显著优势是它能够在具有挑战性的环境中安装。例如，在河流或港口上建造桥梁时，工程师常常面临如何在深水中创建稳定基础的难题。cylinder caisson通过允许工人在陆地上建造沉箱，然后将其漂浮到所需位置再沉入到位，提供了解决方案。这种方法不仅简化了施工过程，还最小化了与传统打桩技术相关的环境影响。此外，cylinder caisson可以设计以适应各种负荷和条件，使其成为不同项目的多功能选择。无论是支撑大型桥梁还是为海上风电涡轮机提供稳定性，cylinder caisson的适应性使其成为现代工程中的重要组成部分。除了结构上的好处，cylinder caisson还为建筑和基础设施的耐久性做出了贡献。通过提供一个坚固的基础，抵御移动和沉降，它帮助防止由于土壤运动或侵蚀而导致的损坏。这种耐久性在沿海地区或易发生地震活动的地区尤为重要，传统基础可能难以保持其完整性。尽管有许多优点，但使用cylinder caisson也面临挑战。安装过程需要仔细的规划和执行，以确保沉箱正确定位和固定。工程师在设计和实施cylinder caisson系统时，必须考虑水深、土壤成分和环境法规等因素。总之，cylinder caisson（圆筒沉箱）是当代建筑实践中的重要元素，为工程师今天面临的一些最紧迫的挑战提供了解决方案。其独特的设计和多功能性使其成为各种应用的理想选择，特别是在困难的环境中。随着建筑行业的不断发展，像cylinder caisson这样的创新技术的重要性无疑会增加，为未来更安全、更高效的建筑实践铺平道路。