yieldable arch

简明释义

可缩性拱形支架

英英释义

例句

1.Engineers are testing a new material for the yieldable arch to improve its performance.

工程师正在测试一种新材料用于可变拱门以提高其性能。

2.The architect designed a bridge with a yieldable arch to absorb shock during earthquakes.

建筑师设计了一座带有可变拱门的桥，以在地震期间吸收冲击。

3.The yieldable arch in the stadium allows it to withstand strong winds without damage.

体育场中的可变拱门使其能够承受强风而不受损害。

4.In modern construction, a yieldable arch can enhance the durability of structures under heavy loads.

在现代建筑中，可变拱门可以增强结构在重载下的耐久性。

5.The use of a yieldable arch in the design allows for greater flexibility in response to environmental changes.

在设计中使用可变拱门允许对环境变化做出更大的灵活反应。

作文

In the field of architecture and engineering, the concept of a yieldable arch is gaining increasing attention due to its innovative design and structural capabilities. A yieldable arch refers to an arch structure that can deform or yield under certain loads without losing its overall stability. This property allows the arch to adapt to varying stress conditions, making it a versatile choice for modern construction projects. As urban environments become more complex, architects and engineers are seeking solutions that not only meet aesthetic criteria but also provide functional resilience against dynamic forces such as earthquakes, wind, and other environmental impacts.One of the primary advantages of a yieldable arch is its ability to distribute loads more evenly across its structure. Traditional arches are often rigid and can suffer catastrophic failure if subjected to loads beyond their designed capacity. In contrast, a yieldable arch can flex and adjust, allowing it to absorb and dissipate energy more effectively. This characteristic is particularly valuable in regions prone to seismic activity, where buildings must withstand sudden shocks without collapsing.The design of a yieldable arch often incorporates materials and shapes that promote flexibility. Engineers may use advanced composite materials or innovative geometrical configurations to enhance the arch's yieldability. For instance, incorporating elements like tension cables or flexible joints can significantly improve the arch's performance under stress. This adaptability not only enhances safety but also reduces the need for extensive retrofitting or reinforcement, thereby lowering construction costs and time.Moreover, the aesthetic appeal of a yieldable arch cannot be overlooked. Architects are increasingly drawn to the fluid lines and dynamic forms that these structures can create. A well-designed yieldable arch can serve as a focal point in a building, blending functionality with artistic expression. It allows for open spaces and large spans, which can transform the way people interact with their environment.As we move towards a more sustainable future, the role of a yieldable arch becomes even more critical. With the growing emphasis on eco-friendly construction practices, utilizing materials that allow for flexibility and resilience aligns with the principles of sustainable architecture. By minimizing the impact of natural forces on buildings, we can reduce maintenance costs and extend the lifespan of structures, contributing to a more sustainable built environment.In conclusion, the yieldable arch represents a significant advancement in architectural design and engineering. Its ability to adapt under load while maintaining structural integrity opens new possibilities for innovative construction practices. As the industry continues to evolve, embracing such concepts will be essential in creating safe, sustainable, and aesthetically pleasing structures that can withstand the challenges of the modern world. The yieldable arch is not just a technical innovation; it is a testament to the creative potential of architects and engineers working together to shape our built environment for the better.

在建筑和工程领域，可屈曲拱的概念正越来越受到关注，因为它具有创新的设计和结构能力。可屈曲拱是指一种在特定负载下能够变形或屈服而不失去整体稳定性的拱结构。这一特性使得拱能够适应不同的应力条件，成为现代建筑项目中一种多功能的选择。随着城市环境变得越来越复杂，建筑师和工程师正在寻求不仅满足美学标准而且能在地震、风和其他环境影响等动态力量面前提供功能性韧性的解决方案。可屈曲拱的主要优势之一是其能够更均匀地分配负载。传统拱通常是刚性的，如果承受超过设计能力的负载，可能会遭受灾难性的失败。相比之下，可屈曲拱可以弯曲和调整，从而更有效地吸收和消散能量。这一特性在地震活动频繁的地区尤为宝贵，建筑物必须在不倒塌的情况下承受突然的冲击。可屈曲拱的设计通常结合了促进灵活性的材料和形状。工程师可能使用先进的复合材料或创新的几何构型来增强拱的可屈曲性。例如，结合张力电缆或灵活的接头可以显著改善拱在应力下的表现。这种适应性不仅增强了安全性，还减少了对广泛加固或增强的需求，从而降低了施工成本和时间。此外，可屈曲拱的美学吸引力也不容忽视。建筑师越来越被这些结构所能创造的流畅线条和动态形态所吸引。一个设计良好的可屈曲拱可以作为建筑的焦点，将功能与艺术表现结合起来。它允许开放空间和大跨度，这可以改变人们与环境互动的方式。随着我们朝着更可持续的未来迈进，可屈曲拱的角色变得更加重要。随着对环保建筑实践的日益重视，利用允许灵活性和韧性的材料符合可持续建筑的原则。通过最小化自然力量对建筑物的影响，我们可以减少维护成本并延长结构的使用寿命，为更可持续的建筑环境做出贡献。总之，可屈曲拱代表了建筑设计和工程的一项重大进步。它在负载下适应的能力，同时保持结构的完整性，为创新建筑实践开辟了新的可能性。随着行业的不断发展，拥抱这样的概念将对创建安全、可持续和美观的建筑至关重要，这些建筑能够抵御现代世界的挑战。可屈曲拱不仅是一项技术创新；它是建筑师和工程师共同努力塑造我们建筑环境的创造潜力的证明。