traversing caisson

简明释义

过桥坞门

英英释义

例句

1.The traversing caisson was crucial for the bridge's foundation, allowing workers to access deep areas safely.

该穿越沉箱对桥梁基础至关重要，使工人能够安全地进入深层区域。

2.During the project, the crew faced difficulties with the traversing caisson due to unexpected water levels.

在项目期间，由于意外的水位，工作人员在使用穿越沉箱时遇到了困难。

3.By employing a traversing caisson, the engineers were able to navigate through the challenging soil conditions.

通过采用穿越沉箱，工程师能够在复杂的土壤条件下进行导航。

4.The construction team used a traversing caisson to ensure stability while digging underwater.

施工团队使用穿越沉箱确保在水下挖掘时的稳定性。

5.Using a traversing caisson allowed for efficient excavation without disturbing the surrounding environment.

使用穿越沉箱可以高效挖掘而不干扰周围环境。

作文

The concept of a traversing caisson is integral to modern engineering, particularly in the construction of bridges and tunnels. A traversing caisson can be defined as a large, watertight structure used in underwater construction projects, allowing workers to safely excavate and build below the waterline. This innovative design not only enhances safety but also increases efficiency in various construction tasks. In recent years, the application of traversing caissons has gained popularity due to the growing demand for infrastructure development in urban areas. As cities expand, there is an increasing need for robust transportation systems, which often require the construction of bridges and tunnels. The use of traversing caissons allows engineers to create stable foundations in challenging underwater environments, where traditional methods may prove inadequate.One of the key advantages of using a traversing caisson is its ability to provide a controlled environment for construction workers. When working underwater, various challenges arise, including high water pressure and the potential for flooding. However, with a traversing caisson, workers can operate in a dry, pressurized chamber, significantly reducing the risks associated with underwater construction. This controlled environment not only protects the workers but also ensures that the construction process remains efficient and uninterrupted.Moreover, traversing caissons are designed to be movable, which allows them to be repositioned as construction progresses. This mobility is crucial in large-scale projects where multiple sections of a bridge or tunnel are being constructed simultaneously. Engineers can easily adjust the position of the traversing caisson to access different areas, making it a versatile tool in the construction arsenal.In addition to their practical applications, traversing caissons also represent a significant advancement in engineering technology. The design and construction of these structures require a deep understanding of hydrodynamics and material science. Engineers must carefully consider factors such as buoyancy, stability, and structural integrity when designing a traversing caisson. This level of expertise contributes to the overall success and safety of underwater construction projects.As we look to the future, the importance of traversing caissons in infrastructure development cannot be overstated. With the ongoing challenges posed by climate change and rising sea levels, engineers are increasingly tasked with building resilient structures that can withstand harsh environmental conditions. The adaptability and effectiveness of traversing caissons make them an essential component in the toolkit of modern civil engineering.In conclusion, the traversing caisson is a remarkable innovation that has transformed underwater construction. Its ability to provide a safe and efficient working environment for engineers and construction workers alike has made it a vital asset in the development of bridges and tunnels. As urban areas continue to grow and evolve, the role of traversing caissons will undoubtedly become even more significant, paving the way for a new era of infrastructure development that prioritizes safety, efficiency, and sustainability.

“traversing caisson”的概念在现代工程中至关重要，特别是在桥梁和隧道的建设中。“traversing caisson”可以定义为一种大型的、密闭的结构，用于水下建设项目，使工人能够安全地在水线以下进行挖掘和建造。这种创新设计不仅增强了安全性，还提高了各种建设任务的效率。近年来，由于城市基础设施发展的需求日益增长，“traversing caissons”的应用越来越受到欢迎。随着城市的扩展，对坚固交通系统的需求不断增加，这通常需要桥梁和隧道的建设。使用“traversing caissons”使工程师能够在具有挑战性的水下环境中创建稳定的基础，而传统方法可能不足以应对。使用“traversing caisson”的一个主要优点是它能够为建设工人提供一个受控的环境。在水下工作时，会出现各种挑战，包括高水压和洪水的潜在风险。然而，借助“traversing caisson”，工人可以在一个干燥、加压的舱室内操作，显著降低与水下建设相关的风险。这个受控的环境不仅保护了工人，也确保了建设过程的高效和不间断。此外，“traversing caissons”被设计为可移动的，这使得它们可以在建设过程中重新定位。这种灵活性在大型项目中至关重要，因为桥梁或隧道的多个部分可能同时在建设中。工程师可以轻松调整“traversing caisson”的位置，以便访问不同的区域，使其成为建设工具箱中的多功能工具。除了实际应用之外，“traversing caissons”还代表了工程技术的重大进步。这些结构的设计和建造需要对流体动力学和材料科学有深入的理解。工程师在设计“traversing caisson”时必须仔细考虑浮力、稳定性和结构完整性等因素。这种专业知识的水平有助于水下建设项目的整体成功和安全。展望未来，“traversing caissons”在基础设施发展中的重要性不容小觑。面对气候变化和海平面上升带来的持续挑战，工程师越来越多地被要求建设能够承受恶劣环境条件的韧性结构。“traversing caissons”的适应性和有效性使其成为现代土木工程工具箱中的重要组成部分。总之，“traversing caisson”是一项了不起的创新，改变了水下建设。它为工程师和建设工人提供了一个安全、高效的工作环境，使其成为桥梁和隧道建设中不可或缺的资产。随着城市地区的不断增长和演变，“traversing caissons”的作用无疑会变得更加重要，为优先考虑安全、高效和可持续性的基础设施发展开辟新的时代。