double hinged arch

简明释义

双铰拱

英英释义

例句

1.In the construction of the bridge, the team decided to implement a double hinged arch to allow for greater flexibility.

在桥梁的建设中，团队决定实施双铰拱以允许更大的灵活性。

2.Architects often choose a double hinged arch for large open spaces because it provides an unobstructed view.

建筑师常常选择双铰拱用于大型开放空间，因为它提供了无障碍的视野。

3.The museum's entrance features a stunning double hinged arch that draws visitors' attention immediately.

博物馆的入口有一个惊艳的双铰拱，立刻吸引了游客的注意。

4.The double hinged arch design minimizes the stress on the structure while maximizing its load-bearing capacity.

这种双铰拱设计在最大化承载能力的同时，最小化了结构上的应力。

5.The engineer proposed a design that utilized a double hinged arch to enhance stability during high winds.

工程师提出了一种设计，采用了双铰拱以增强在强风中的稳定性。

作文

The concept of a double hinged arch is an innovative structural design that has been employed in various engineering projects. This design incorporates two hinges at both ends of the arch, allowing for greater flexibility and movement under load. The double hinged arch offers significant advantages over traditional fixed arches, as it can accommodate changes in temperature and other environmental factors without compromising structural integrity.One of the most prominent features of the double hinged arch is its ability to distribute loads evenly across its structure. When weight is applied, the hinges allow the arch to pivot, which reduces stress on any one point. This characteristic makes it particularly useful in large-scale constructions such as bridges and stadiums, where heavy loads are common. By utilizing a double hinged arch, engineers can design structures that are not only strong but also lightweight, leading to more efficient use of materials.In addition to its structural benefits, the double hinged arch also provides aesthetic appeal. Many architects appreciate the graceful curves and lines that this design creates, allowing for visually striking buildings and infrastructure. For instance, the famous Sydney Harbour Bridge employs a variation of the double hinged arch, showcasing how functionality can blend seamlessly with beauty.The design process for a double hinged arch involves careful calculations and considerations. Engineers must take into account the materials used, the expected load, and the environmental conditions. Advanced computer modeling techniques are often employed to simulate how the arch will behave under various scenarios. This ensures that the final structure will not only be safe but also perform optimally throughout its lifespan.Moreover, the double hinged arch is versatile and can be adapted for different uses. It can be found in pedestrian walkways, sports arenas, and even residential designs. The flexibility of the hinges allows for creative architectural solutions that can meet specific needs while maintaining stability and strength.In conclusion, the double hinged arch represents a remarkable achievement in engineering and architecture. Its unique design allows for enhanced load distribution, aesthetic appeal, and adaptability to various environments. As we continue to explore new technologies and materials, the potential for the double hinged arch will undoubtedly expand, leading to even more innovative structures in the future. Understanding the principles behind this design can inspire future engineers and architects to think creatively about how they can utilize similar concepts in their own work.

“双铰拱”的概念是一种创新的结构设计，已被应用于各种工程项目中。该设计在拱的两端设置了两个铰链，允许在承载下具有更大的灵活性和运动。“双铰拱”相比传统的固定拱具有显著的优势，因为它可以在不损害结构完整性的情况下适应温度变化和其他环境因素。“双铰拱”的一个显著特征是其能够均匀分配负载。当施加重量时，铰链允许拱进行旋转，从而减少任何一个点的压力。这一特性使其在大型建筑如桥梁和体育场中尤为有用，因为这些地方常常需要承受重负荷。通过利用“双铰拱”，工程师可以设计出不仅强大而且轻便的结构，从而更有效地使用材料。除了结构上的好处外，“双铰拱”还提供了美学吸引力。许多建筑师欣赏这种设计所创造的优雅曲线和线条，使得建筑和基础设施在视觉上引人注目。例如，著名的悉尼海港大桥就采用了“双铰拱”的变体，展示了功能与美感的无缝融合。“双铰拱”的设计过程涉及细致的计算和考虑。工程师必须考虑所用材料、预期负荷和环境条件。通常会采用先进的计算机建模技术来模拟拱在各种情景下的表现。这确保了最终结构不仅安全，而且在其生命周期内表现最佳。此外，“双铰拱”具有多样性，可以适应不同的用途。它可以在行人通道、体育场，甚至住宅设计中找到身影。铰链的灵活性允许创造性的建筑解决方案，以满足特定需求，同时保持稳定性和强度。总之，“双铰拱”代表了工程和建筑领域的显著成就。其独特的设计允许增强的负载分配、美学吸引力以及对各种环境的适应性。随着我们继续探索新技术和材料，“双铰拱”的潜力无疑将扩大，未来会出现更多创新的结构。理解这一设计背后的原理，可以激励未来的工程师和建筑师在自己的工作中创造性地利用类似的概念。