floating link span

简明释义

浮动栈桥

英英释义

例句

1.The architect proposed a design that features a floating link span for better aesthetic appeal.

建筑师提出了一种设计，采用浮动连接跨距以提升美观性。

2.In marine construction, a floating link span is essential for connecting floating platforms.

在海洋施工中，浮动连接跨距对于连接浮动平台至关重要。

3.Using a floating link span can significantly reduce stress on the supporting structures during seismic events.

使用浮动连接跨距可以显著减少在地震事件中对支撑结构的压力。

4.The floating link span allows for greater flexibility in the movement of the structure.

浮动连接跨距使得结构的运动更加灵活。

5.The engineers designed a new bridge with a floating link span to accommodate the rising water levels.

工程师们设计了一座新的桥，采用了浮动连接跨距以适应水位上升。

作文

In the realm of engineering and architecture, the concept of a floating link span is both fascinating and practical. A floating link span refers to a structural element that connects two points while allowing for movement and flexibility. This design is particularly useful in areas where environmental factors such as water currents, seismic activity, or temperature fluctuations can affect stability. The innovative nature of a floating link span allows it to adapt to changing conditions without compromising the integrity of the structure it supports.One of the most notable applications of a floating link span can be seen in modern bridge construction. Engineers often face the challenge of designing bridges that can withstand various forces while remaining functional over time. A floating link span offers a solution by providing a flexible connection between bridge segments. This flexibility is crucial in areas prone to earthquakes, as it allows the bridge to absorb and dissipate seismic energy, thereby reducing the risk of catastrophic failure.Moreover, the aesthetic appeal of a floating link span cannot be overlooked. Architects are increasingly incorporating this design into their projects, creating visually striking structures that also serve a functional purpose. The elegance of a floating link span enhances the overall appearance of a building or bridge, making it not only a feat of engineering but also a work of art.Another significant advantage of using a floating link span is its impact on maintenance and longevity. Traditional rigid connections often require more frequent inspections and repairs due to the stress they endure. In contrast, a floating link span minimizes these stresses by allowing for movement, which can lead to longer-lasting structures with reduced maintenance costs. This characteristic is particularly beneficial in remote areas where access for repairs can be challenging.In addition to bridges, floating link spans are finding applications in various other fields, including offshore oil platforms and wind turbine installations. These structures must withstand harsh marine conditions, and the flexibility offered by a floating link span makes them ideal for such environments. By allowing for movement and adaptation to wave action, these designs enhance the safety and operational efficiency of offshore facilities.As we look to the future, the importance of sustainable design practices cannot be overstated. The incorporation of floating link spans into new projects aligns with the growing emphasis on sustainability in construction. By creating structures that are resilient and adaptable, engineers can contribute to a more sustainable built environment. This adaptability not only extends the lifespan of structures but also reduces the need for resource-intensive repairs and replacements.In conclusion, the floating link span is a remarkable innovation in the field of engineering that combines functionality, aesthetics, and sustainability. Its ability to provide flexible connections in various applications makes it an invaluable tool for engineers and architects alike. As we continue to face challenges related to climate change and urbanization, the role of floating link spans will undoubtedly become even more critical in creating resilient infrastructures that can withstand the test of time.

在工程和建筑领域，浮动连接跨度的概念既迷人又实用。浮动连接跨度指的是一种结构元素，它连接两个点，同时允许运动和灵活性。这种设计在水流、地震活动或温度波动等环境因素可能影响稳定性的区域尤其有用。浮动连接跨度的创新性质使其能够适应不断变化的条件，而不损害其所支持结构的完整性。浮动连接跨度最显著的应用之一可以在现代桥梁建设中看到。工程师们常常面临设计能够承受各种力量的桥梁的挑战，同时保持长期功能性。浮动连接跨度通过提供桥段之间的灵活连接，提供了解决方案。这种灵活性在易发生地震的地区至关重要，因为它允许桥梁吸收和消散地震能量，从而降低灾难性故障的风险。此外，浮动连接跨度的美学吸引力也不容忽视。建筑师越来越多地将这种设计融入他们的项目中，创造出视觉上引人注目的结构，同时也具有功能性。浮动连接跨度的优雅增强了建筑或桥梁的整体外观，使其不仅是一项工程壮举，而且还是一件艺术作品。使用浮动连接跨度的另一个显著优势是对维护和耐久性的影响。传统的刚性连接由于承受的压力，通常需要更频繁的检查和维修。相比之下，浮动连接跨度通过允许运动来最小化这些压力，这可以导致结构的更长使用寿命和减少的维护成本。这一特性在偏远地区尤其有利，因为在这些地方，维修的通行能力可能会受到挑战。除了桥梁之外，浮动连接跨度还在其他各个领域找到了应用，包括海上石油平台和风力涡轮机安装。这些结构必须承受恶劣的海洋条件，而浮动连接跨度所提供的灵活性使其非常适合这种环境。通过允许运动和适应波浪作用，这些设计增强了海上设施的安全性和操作效率。展望未来，可持续设计实践的重要性不容小觑。将浮动连接跨度纳入新项目与日益强调可持续建筑的趋势相一致。通过创建具有韧性和适应性的结构，工程师可以为更可持续的建筑环境做出贡献。这种适应性不仅延长了结构的使用寿命，还减少了对资源密集型维修和更换的需求。总之，浮动连接跨度是工程领域的一项显著创新，它结合了功能、美学和可持续性。它在各种应用中提供灵活连接的能力，使其成为工程师和建筑师不可或缺的工具。随着我们继续面临与气候变化和城市化相关的挑战，浮动连接跨度的作用无疑将在创建能够经受时间考验的韧性基础设施方面变得更加重要。