yielding arch

简明释义

可缩性拱形支架

英英释义

例句

1.The new design features a yielding arch that flexes under load, enhancing durability.

新设计采用了一个在负载下会弯曲的可变形拱，增强了耐久性。

2.Engineers often utilize a yielding arch in bridge construction to increase stability.

工程师们常常在桥梁建设中使用可变形拱以增加稳定性。

3.In architecture, a yielding arch can help distribute weight more evenly across a structure.

在建筑学中，可变形拱可以帮助更均匀地分配结构的重量。

4.The ancient bridge was designed with a yielding arch to withstand the pressure of heavy traffic.

这座古老的桥梁设计了一个可变形拱以承受重型交通的压力。

5.The yielding arch allowed the building to sway gently during the earthquake, preventing major damage.

这个可变形拱使建筑在地震中轻微摇摆，从而防止了重大损坏。

作文

In the field of architecture and engineering, the concept of a yielding arch plays a crucial role in understanding how structures can distribute loads effectively. A yielding arch is characterized by its ability to deform under pressure while maintaining its overall integrity. This property allows the arch to absorb and redistribute forces, making it an essential element in various constructions, from bridges to buildings. The flexibility of a yielding arch means that it can adapt to changes in load and environmental conditions, which is particularly important in areas prone to seismic activity or heavy winds.Historically, arches have been used since ancient times, with the Romans being among the first to master their construction. They understood that the shape of the arch could help in distributing weight more evenly, thereby reducing the risk of collapse. The introduction of the yielding arch concept further advanced this understanding, allowing architects to design structures that could withstand greater forces without failing.One of the most notable features of a yielding arch is its ability to flex. Unlike rigid structures, which can crack or break under stress, a yielding arch can bend and shift. This is particularly advantageous in modern architectural designs where aesthetics and functionality must coexist. For instance, in the design of sports stadiums, the use of yielding arches allows for expansive roofs that can cover large areas without the need for numerous supporting columns. This creates unobstructed views for spectators and enhances the overall experience.Moreover, the environmental benefits of using yielding arches cannot be overlooked. By optimizing material usage through intelligent design, architects can create lighter structures that require less energy to produce and transport. This aligns with contemporary sustainability goals, as the construction industry seeks to reduce its carbon footprint. Utilizing yielding arches can lead to more efficient buildings that are not only visually appealing but also environmentally responsible.In conclusion, the yielding arch represents a significant advancement in architectural design and engineering principles. Its ability to flex and adapt under pressure makes it a vital component in creating safe, sustainable, and aesthetically pleasing structures. As we continue to innovate in the field of construction, the principles behind the yielding arch will undoubtedly inspire future generations of architects and engineers to push the boundaries of what is possible in building design. Embracing such concepts will help us create resilient infrastructures that can withstand the challenges posed by nature and human activity alike.

在建筑和工程领域，yielding arch的概念在理解结构如何有效分配载荷方面发挥着至关重要的作用。yielding arch的特点是能够在压力下变形，同时保持整体的完整性。这种特性使得拱能够吸收和重新分配力量，使其成为各种建筑物中的重要元素，从桥梁到建筑物。yielding arch的灵活性意味着它可以适应负载和环境条件的变化，这在易发生地震或强风的地区尤为重要。历史上，自古以来就使用拱形结构，罗马人是最早掌握其建造的民族之一。他们理解拱的形状可以帮助更均匀地分配重量，从而降低倒塌的风险。yielding arch概念的引入进一步推进了这一理解，使建筑师能够设计出能够承受更大力量而不失效的结构。yielding arch最显著的特点之一是其弯曲能力。与刚性结构不同，刚性结构在压力下可能会开裂或断裂，而yielding arch可以弯曲和移动。这在现代建筑设计中尤为有利，因为美学和功能必须共存。例如，在体育场馆的设计中，使用yielding arches可以实现覆盖大面积的宽阔屋顶，而无需众多支撑柱。这为观众创造了无障碍的视野，增强了整体体验。此外，使用yielding arches的环境效益也不容忽视。通过智能设计优化材料使用，建筑师可以创建更轻的结构，这些结构在生产和运输时需要更少的能量。这与当代可持续发展目标相一致，因为建筑行业寻求减少其碳足迹。利用yielding arches可以导致更高效的建筑，这些建筑不仅在视觉上令人愉悦，而且在环境上也负责任。总之，yielding arch代表了建筑设计和工程原则的重要进展。其在压力下弯曲和适应的能力使其成为创建安全、可持续和美观的结构的关键组成部分。随着我们在建筑领域不断创新，yielding arch背后的原则无疑将激励未来几代建筑师和工程师推动建筑设计的可能性。拥抱这样的概念将帮助我们创造能够抵御自然和人类活动带来的挑战的韧性基础设施。