air supported structure

简明释义

气璃承结构物

英英释义

例句

1.The new sports complex features an innovative air supported structure, allowing for large open spaces without internal columns.

新的体育综合体采用了创新的气撑结构，可以在没有内部柱子的情况下实现大开间。

2.Many modern exhibition halls utilize air supported structures for their versatility and spacious interiors.

许多现代展览厅利用气撑结构，因其多功能性和宽敞的内部空间。

3.The festival tent was designed as an air supported structure to withstand strong winds.

这个节日帐篷被设计为气撑结构，以抵御强风。

4.During the winter, the air supported structure over the skating rink keeps the area warm and inviting.

冬季，滑冰场上的气撑结构保持该区域温暖宜人。

5.Engineers are exploring the use of air supported structures for temporary event venues due to their quick assembly.

工程师们正在探索使用气撑结构作为临时活动场地，因为它们可以快速组装。

作文

The concept of an air supported structure has gained significant attention in recent years due to its innovative design and practical applications. An air supported structure is a type of building or enclosure that relies on air pressure to maintain its shape and stability. Unlike traditional structures that use solid materials such as steel and concrete, air supported structures utilize large, inflatable membranes that are filled with air. This unique approach not only reduces the amount of material needed for construction but also allows for greater flexibility in design.One of the most notable advantages of air supported structures is their lightweight nature. Because they are primarily composed of fabric and air, these structures can be constructed quickly and efficiently. This makes them ideal for temporary installations, such as sports arenas, exhibition halls, and event spaces. For instance, during major sporting events, air supported structures can be erected in a matter of days to accommodate large crowds, providing shelter and comfort without the lengthy construction times associated with traditional buildings.Moreover, air supported structures offer excellent insulation properties. The air trapped within the membranes acts as a natural insulator, helping to regulate temperature and reduce energy consumption. This is particularly beneficial in regions with extreme weather conditions, where maintaining a comfortable indoor environment can be challenging. By minimizing the reliance on heating and cooling systems, air supported structures contribute to sustainability and lower operational costs.In addition to their practical benefits, air supported structures also present unique aesthetic opportunities. The fluid shapes and forms that can be achieved with inflatable materials allow architects and designers to create visually striking buildings that stand out in their environments. These structures can be designed to blend seamlessly with natural landscapes or to serve as eye-catching landmarks in urban settings. For example, the famous Eden Project in the UK features geodesic domes that utilize air supported structures, showcasing how this technology can enhance both functionality and beauty.Furthermore, air supported structures can be easily relocated or modified, making them a versatile solution for various applications. Organizations that require temporary facilities, such as disaster relief agencies or touring exhibitions, can benefit from the portability of these structures. They can be deflated and transported to new locations quickly, allowing for rapid response in emergency situations or the ability to adapt to changing needs.Despite their many advantages, there are also challenges associated with air supported structures. For instance, maintaining consistent air pressure is crucial for the integrity of the structure. Any leaks or punctures in the membrane can compromise its stability. Therefore, regular maintenance and monitoring are essential to ensure the safety and longevity of these buildings. Additionally, while air supported structures are generally cost-effective, the initial investment in high-quality materials and technology can be significant.In conclusion, air supported structures represent a fascinating intersection of engineering, architecture, and sustainability. Their lightweight design, energy efficiency, and aesthetic potential make them an attractive option for various applications. As technology continues to advance, it is likely that we will see even more innovative uses for air supported structures in the future, further demonstrating their value in modern construction and design. The growing interest in sustainable building practices only adds to the relevance of air supported structures in today's world, highlighting the importance of exploring new approaches to meet the demands of our changing environment.

“气压支撑结构”的概念近年来引起了人们的广泛关注，原因在于其创新的设计和实际应用。“气压支撑结构”是一种依靠空气压力来维持形状和稳定性的建筑或围护结构。与使用钢和混凝土等固体材料的传统结构不同，“气压支撑结构”利用充满空气的大型充气膜。这种独特的方法不仅减少了建筑所需材料的数量，还允许设计上的更大灵活性。“气压支撑结构”的一个显著优势是其轻巧的特性。由于它们主要由织物和空气组成，这些结构可以快速高效地建造。因此，它们非常适合临时安装，例如体育场馆、展览大厅和活动空间。例如，在重大体育赛事期间，可以在几天内搭建“气压支撑结构”，以容纳大量观众，为他们提供庇护和舒适，而无需传统建筑所需的漫长施工时间。此外，“气压支撑结构”还具有优良的绝缘性能。膜内被困的空气作为天然绝缘体，有助于调节温度并减少能耗。这在极端天气条件的地区尤其有利，因为保持舒适的室内环境可能具有挑战性。通过最小化对供暖和制冷系统的依赖，“气压支撑结构”有助于可持续发展并降低运营成本。除了实用好处外，“气压支撑结构”还提供了独特的美学机会。充气材料可以实现的流线型形状和形式使建筑师和设计师能够创造出视觉上引人注目的建筑，在其环境中脱颖而出。这些结构可以设计得与自然景观无缝融合，或作为城市环境中的引人注目的地标。例如，英国著名的伊登项目就采用了利用“气压支撑结构”的几何穹顶，展示了这一技术如何增强功能性和美感。此外，“气压支撑结构”可以轻松迁移或修改，使其成为各种应用的多功能解决方案。需要临时设施的组织，例如灾难救援机构或巡回展览，可以从这些结构的便携性中受益。它们可以迅速放气并运输到新地点，从而在紧急情况下快速响应或适应变化的需求。尽管有许多优点，但“气压支撑结构”也面临一些挑战。例如，保持一致的空气压力对结构的完整性至关重要。膜中的任何泄漏或穿孔都可能影响其稳定性。因此，定期维护和监测对于确保这些建筑的安全性和耐久性至关重要。此外，尽管“气压支撑结构”通常具有成本效益，但高质量材料和技术的初始投资可能相当可观。总之，“气压支撑结构”代表了工程、建筑和可持续性之间的迷人交汇点。它们的轻量设计、能效和美学潜力使其成为各种应用的吸引人选择。随着技术的不断进步，我们可能会看到未来对“气压支撑结构”的更多创新应用，进一步展示其在现代建筑和设计中的价值。对可持续建筑实践的日益关注只增加了“气压支撑结构”在当今世界中的相关性，强调了探索新方法满足我们不断变化的环境需求的重要性。