cable suspended structure

简明释义

悬酸构

英英释义

例句

1.The cable suspended structure allows for longer spans without the need for many support columns.

这个索悬结构允许更长的跨度，而无需许多支撑柱。

2.Tourists often admire the skyline where the cable suspended structure stands out prominently.

游客们常常赞叹天际线，其中的索悬结构显得格外突出。

3.The architect chose a cable suspended structure for the new exhibition hall to create an open space.

建筑师为新的展览大厅选择了索悬结构，以创造一个开放的空间。

4.The new bridge is a remarkable example of a cable suspended structure that spans the river beautifully.

这座新桥是一个令人瞩目的索悬结构的例子，优雅地跨越了河流。

5.Engineers designed the cable suspended structure to withstand strong winds and heavy loads.

工程师们设计了这个索悬结构，以承受强风和重负荷。

作文

The world of architecture and engineering is filled with incredible designs that push the boundaries of creativity and functionality. One such design is the cable suspended structure, which has revolutionized the way we think about bridges, buildings, and other large constructions. A cable suspended structure (缆索悬挂结构) utilizes cables to support the weight of the structure, allowing for large spans without the need for extensive support columns. This innovative approach not only enhances aesthetic appeal but also optimizes material usage, making it a popular choice in modern construction.One of the most iconic examples of a cable suspended structure is the Golden Gate Bridge in San Francisco. Completed in 1937, this engineering marvel features massive towers that hold up the main cables, which in turn support the roadway. The graceful arcs of the cables create a visually striking silhouette against the backdrop of the bay. The use of a cable suspended structure allows the bridge to span over a mile while maintaining stability and strength, demonstrating the effectiveness of this design.In addition to bridges, cable suspended structures are also used in buildings and roofs. For instance, the Millennium Dome in London showcases a remarkable cable suspended structure that supports its vast, tent-like roof. The cables are arranged in a radial pattern, creating an open interior space that can host various events. This type of design not only provides structural integrity but also allows for natural light to flood the interior, enhancing the overall experience for visitors.The advantages of cable suspended structures extend beyond aesthetics and space utilization. They are often more cost-effective than traditional construction methods because they require fewer materials and less labor. The reduced amount of concrete and steel needed for foundations and supports translates to lower costs and a smaller environmental footprint. Furthermore, the lightweight nature of these structures allows for quicker assembly and disassembly, which is particularly beneficial in temporary installations such as exhibition spaces or concert venues.However, designing a cable suspended structure is not without its challenges. Engineers must carefully calculate the forces acting on the cables and ensure that the materials used can withstand these loads. Wind, seismic activity, and other environmental factors play a crucial role in the design process. Advanced computer modeling and simulation techniques have become essential tools for engineers to predict how these structures will perform under various conditions.In conclusion, the cable suspended structure (缆索悬挂结构) represents a significant advancement in architectural and engineering design. Its ability to span great distances while maintaining elegance and functionality makes it a preferred choice for many projects worldwide. As technology continues to evolve, we can expect to see even more innovative applications of cable suspended structures in the future. These designs not only enhance our urban landscapes but also pave the way for sustainable construction practices that respect our environment.

建筑和工程的世界充满了令人难以置信的设计，这些设计突破了创造力和功能性的界限。其中一个这样的设计是缆索悬挂结构，它彻底改变了我们对桥梁、建筑物和其他大型建筑的思考。缆索悬挂结构利用缆索来支撑结构的重量，使得在没有大量支撑柱的情况下实现大跨度。这种创新的方法不仅增强了美学吸引力，还优化了材料的使用，使其成为现代建筑中一种受欢迎的选择。缆索悬挂结构最具标志性的例子之一是旧金山的金门大桥。该桥于1937年完工，是一项工程奇迹，设有巨大的塔楼来支撑主缆，而主缆又支撑着车道。缆索的优雅弧线在海湾的背景下创造出引人注目的轮廓。缆索悬挂结构的使用使得这座桥能够跨越超过一英里，同时保持稳定性和强度，展示了这种设计的有效性。除了桥梁，缆索悬挂结构还用于建筑物和屋顶。例如，伦敦的千年穹顶展示了一种显著的缆索悬挂结构，支撑着其广阔的帐篷状屋顶。缆索以放射状排列，创造出一个开放的内部空间，可以举办各种活动。这种类型的设计不仅提供了结构完整性，还允许自然光涌入内部，增强了访客的整体体验。缆索悬挂结构的优点不仅限于美学和空间利用。与传统建筑方法相比，它们通常更具成本效益，因为所需的材料和劳动力较少。基础和支撑所需的混凝土和钢材减少，意味着成本降低，环境足迹也变小。此外，这些结构的轻质特性使得快速组装和拆卸成为可能，这在临时安装（例如展览空间或音乐会场地）中特别有利。然而，设计缆索悬挂结构并非没有挑战。工程师必须仔细计算作用在缆索上的力，并确保所使用的材料能够承受这些负荷。风、地震活动和其他环境因素在设计过程中起着至关重要的作用。先进的计算机建模和仿真技术已成为工程师预测这些结构在各种条件下表现的必备工具。总之，缆索悬挂结构（缆索悬挂结构）代表了建筑和工程设计的重要进步。它在保持优雅和功能性的同时能够跨越巨大距离，使其成为全球许多项目的首选。随着技术的不断发展，我们可以期待在未来看到更多缆索悬挂结构的创新应用。这些设计不仅增强了我们的城市景观，还为尊重环境的可持续建筑实践铺平了道路。