suspended span

简明释义

悬跨

英英释义

例句

1.The suspended span of the new pedestrian bridge is designed to withstand heavy winds.

新的人行天桥的悬挂跨距设计能够承受强风。

2.In construction, a suspended span can help reduce the amount of material needed.

在建筑中，悬挂跨距可以帮助减少所需材料的数量。

3.The suspended span of the cable car allows it to glide smoothly over the valley.

缆车的悬挂跨距使其能够平稳地滑过山谷。

4.The architect designed a bridge with a suspended span to minimize the use of supports.

建筑师设计了一座桥，采用了悬挂跨距以最小化支撑的使用。

5.During the inspection, the engineer noted that the suspended span was in excellent condition.

在检查中，工程师注意到悬挂跨距的状况非常良好。

作文

In the realm of engineering and architecture, the term suspended span refers to a structural design where a load is carried by cables or rods that are anchored at either end. This concept is most commonly seen in bridges, where the main deck is suspended from a series of cables, allowing for longer distances to be crossed without the need for numerous supporting pillars. The suspended span system not only provides aesthetic appeal but also showcases the ingenuity of modern engineering. One of the most iconic examples of a suspended span structure is the Golden Gate Bridge in San Francisco. Completed in 1937, this bridge features a main span of 4,200 feet, making it one of the longest suspension bridges in the world at the time. The cables that hold the roadway are anchored into massive concrete blocks on either side of the bay, allowing the bridge to withstand high winds and heavy traffic. The suspended span design minimizes the number of supports required, which is particularly advantageous in areas with deep water or challenging terrain.The advantages of a suspended span design extend beyond aesthetics and distance. These structures can distribute loads more evenly, reducing stress on individual components. This is particularly important in regions prone to seismic activity, as the flexibility of a suspended span can help absorb shocks during an earthquake. Engineers have developed various techniques to enhance the stability and durability of these structures, utilizing advanced materials and innovative construction methods.However, the construction of a suspended span bridge is not without challenges. The initial costs can be significantly higher than traditional bridge designs due to the complexity of the materials and construction processes involved. Additionally, maintaining the integrity of the cables and ensuring their longevity requires ongoing inspection and upkeep. Despite these challenges, many cities and countries continue to invest in suspended span technology, recognizing its potential for future infrastructure projects.In conclusion, the suspended span represents a remarkable achievement in engineering that combines functionality with beauty. As urban areas grow and the demand for efficient transportation increases, the role of suspended span structures will likely become even more prominent. By embracing innovation and pushing the boundaries of design, engineers can create bridges that not only serve practical purposes but also become iconic landmarks in their own right. The future of suspended span architecture holds great promise, paving the way for sustainable and visually stunning structures that will stand the test of time.

在工程和建筑领域，术语悬挂跨距指的是一种结构设计，其中负载由两端固定的电缆或杆承载。这个概念最常见于桥梁中，主桥面通过一系列电缆悬挂，从而允许跨越更长的距离，而无需众多支撑柱。悬挂跨距系统不仅提供了美学吸引力，还展示了现代工程的独创性。悬挂跨距结构的一个标志性例子是位于旧金山的金门大桥。该桥于1937年完工，主跨为4200英尺，使其成为当时世界上最长的悬索桥之一。承载车道的电缆锚固在海湾两侧的巨大混凝土块中，使桥梁能够承受强风和重交通。悬挂跨距设计最大限度地减少了所需支撑的数量，这在深水或地形复杂的地区尤为有利。悬挂跨距设计的优势不仅限于美学和距离。这些结构可以更均匀地分配负载，减少对单个组件的压力。这在地震活动频繁的地区尤其重要，因为悬挂跨距的灵活性可以在地震期间帮助吸收冲击。工程师们开发了各种技术来增强这些结构的稳定性和耐用性，利用先进的材料和创新的施工方法。然而，建造悬挂跨距桥梁并非没有挑战。由于所涉及材料和施工过程的复杂性，初始成本可能显著高于传统桥梁设计。此外，维护电缆的完整性并确保其使用寿命需要持续的检查和保养。尽管面临这些挑战，许多城市和国家仍然继续投资于悬挂跨距技术，认识到其在未来基础设施项目中的潜力。总之，悬挂跨距代表了工程领域的一项卓越成就，它将功能与美观结合在一起。随着城市区域的增长和对高效交通的需求增加，悬挂跨距结构的作用可能会变得更加突出。通过拥抱创新并推动设计的边界，工程师们可以创造不仅服务于实用目的的桥梁，还能成为具有标志性的地标。悬挂跨距建筑的未来充满希望，为可持续和视觉惊艳的结构铺平了道路，这些结构将经受住时间的考验。