curved grillage

简明释义

扭曲格栅

英英释义

例句

1.The artist incorporated a curved grillage into her sculpture to create an illusion of movement.

这位艺术家在她的雕塑中融入了曲线格栅，以创造出运动的错觉。

2.Using a curved grillage can significantly reduce the weight of the overall framework.

使用曲线格栅可以显著减少整体框架的重量。

3.The architect designed a stunning roof with a curved grillage to enhance the building's aesthetics.

建筑师设计了一个令人惊叹的屋顶，采用了曲线格栅来提升建筑的美感。

4.The curved grillage system allows for better load distribution across the structure.

该曲线格栅系统能够更好地分配结构上的负载。

5.During the construction, the team faced challenges in installing the curved grillage due to its complex shape.

在施工过程中，由于形状复杂，团队在安装曲线格栅时遇到了挑战。

作文

The concept of a curved grillage is often encountered in the fields of architecture and civil engineering. Essentially, a curved grillage refers to a structural framework that is designed with a curved shape, typically used to support various loads in a more efficient manner than traditional flat frameworks. This innovative design allows for the distribution of weight and stress across a broader area, which can be particularly beneficial in applications such as bridge construction or large-scale building projects.In recent years, the use of a curved grillage has gained popularity due to advancements in materials and construction techniques. Engineers are now able to create more complex and aesthetically pleasing designs while maintaining structural integrity. For instance, in the design of modern bridges, a curved grillage can provide both visual appeal and functional strength, allowing for longer spans and reduced material usage.Moreover, the implementation of a curved grillage can also enhance the overall performance of a structure. By utilizing geometric principles, engineers can optimize the layout of the grillage to minimize deflection and vibration, which are critical factors in ensuring the longevity and safety of a structure. This optimization process often involves sophisticated modeling software that simulates various load conditions and helps engineers make informed decisions during the design phase.One notable example of a successful application of a curved grillage is the Sydney Harbour Bridge in Australia. The bridge features a series of arches and supports that exemplify the effectiveness of curved structures in handling immense loads while providing an iconic silhouette against the skyline. The engineering behind this masterpiece showcases how a curved grillage can not only serve a functional purpose but also contribute to the aesthetic value of public infrastructure.In addition to bridges, curved grillages are also commonly found in the design of roofs and other architectural elements. For instance, a sports arena may utilize a curved grillage to create a sweeping roofline that enhances acoustics and sightlines for spectators. This approach not only improves the functionality of the space but also elevates the overall experience for attendees.Furthermore, sustainability is becoming an increasingly important consideration in modern construction practices. The use of a curved grillage can lead to more efficient use of materials, reducing waste and minimizing the environmental impact of building projects. As architects and engineers strive to create greener buildings, the incorporation of innovative designs like the curved grillage will play a crucial role in achieving these goals.In conclusion, the curved grillage represents a significant advancement in structural engineering and architecture. Its ability to combine functionality with aesthetic appeal makes it a valuable tool for modern designers. As technology continues to evolve, we can expect to see even more creative applications of the curved grillage in future construction projects, pushing the boundaries of what is possible in the built environment.

“弯曲格栅”的概念通常出现在建筑和土木工程领域。基本上，“弯曲格栅”指的是一种设计成弯曲形状的结构框架，通常用于以比传统平面框架更有效的方式支撑各种负载。这种创新设计允许在更广泛的区域内分配重量和应力，这在桥梁建设或大规模建筑项目等应用中尤其有益。近年来，由于材料和施工技术的进步，“弯曲格栅”的使用变得越来越流行。工程师现在能够在保持结构完整性的同时创造出更复杂和美观的设计。例如，在现代桥梁的设计中，“弯曲格栅”可以提供视觉吸引力和功能强度，使得跨度更长且材料使用更少。此外，“弯曲格栅”的实施还可以增强结构的整体性能。通过利用几何原理，工程师可以优化格栅的布局，以最小化挠度和振动，这些都是确保结构耐久性和安全性的重要因素。这个优化过程通常涉及复杂的建模软件，该软件模拟各种负载条件，并帮助工程师在设计阶段做出明智的决策。一个成功应用“弯曲格栅”的显著例子是澳大利亚的悉尼海港大桥。该桥拥有一系列拱形和支撑，体现了弯曲结构在承受巨大负载时的有效性，同时为天际线提供了标志性的轮廓。这项工程的背后展示了“弯曲格栅”如何不仅服务于功能目的，还能为公共基础设施的美学价值做出贡献。除了桥梁，“弯曲格栅”还常见于屋顶和其他建筑元素的设计中。例如，体育场可能会利用“弯曲格栅”来创建一个优美的屋顶线条，从而改善观众的声学效果和视线。这种方法不仅提高了空间的功能性，还提升了与会者的整体体验。此外，可持续性在现代建筑实践中正变得越来越重要。使用“弯曲格栅”可以更有效地利用材料，减少浪费并最小化建筑项目对环境的影响。随着建筑师和工程师努力创造更环保的建筑，像“弯曲格栅”这样的创新设计将在人们实现这些目标的过程中发挥关键作用。总之，“弯曲格栅”代表了结构工程和建筑学的一项重要进展。它将功能性与美学吸引力相结合，使其成为现代设计师的宝贵工具。随着技术的不断发展，我们可以期待在未来的建筑项目中看到更多创意应用“弯曲格栅”，推动建筑环境可能性的边界。