hyperbolic shell

简明释义

双曲线薄壳

英英释义

例句

1.Engineers often utilize a hyperbolic shell structure for its strength and stability in bridge designs.

工程师们常常利用双曲面壳体结构在桥梁设计中获得强度和稳定性。

2.The use of a hyperbolic shell in the pavilion design allows for excellent acoustics.

在亭子设计中使用双曲面壳体可以实现出色的声学效果。

3.The architect designed a stunning roof using a hyperbolic shell to create an open and airy feeling in the auditorium.

建筑师设计了一个令人惊叹的屋顶，使用了双曲面壳体，以营造出礼堂内开放和通透的感觉。

4.The artist created a sculpture that resembles a hyperbolic shell, showcasing fluidity and movement.

艺术家创作了一件雕塑，形似双曲面壳体，展示了流动性和动态感。

5.In mathematics, a hyperbolic shell can be modeled to understand complex surfaces.

在数学中，可以对双曲面壳体进行建模，以理解复杂的表面。

作文

The concept of a hyperbolic shell has intrigued architects and mathematicians alike for its unique properties and aesthetic appeal. A hyperbolic shell is a three-dimensional structure that is formed by the rotation of a hyperbola around its axis. This creates a surface that is both strong and lightweight, making it an ideal choice for various applications in modern architecture and engineering. The beauty of a hyperbolic shell lies not only in its form but also in its ability to efficiently distribute loads, which is crucial for the stability of large structures.In architecture, the use of hyperbolic shells can be seen in many iconic buildings around the world. For instance, the Sydney Opera House is often cited as an example of how complex geometrical forms can be transformed into functional spaces. The sails of the opera house resemble hyperbolic shells, demonstrating how these shapes can inspire innovative designs. The curvature of the hyperbolic shell allows for natural light to enter the building while also providing acoustic benefits, enhancing the overall experience for visitors.One of the most significant advantages of using hyperbolic shells in construction is their structural efficiency. The geometry of a hyperbolic shell allows it to withstand external forces such as wind and snow, making it a practical choice for large-span roofs. Engineers have studied the mechanics of hyperbolic shells extensively, leading to advancements in materials and construction techniques that further enhance their performance.Moreover, the aesthetic qualities of hyperbolic shells cannot be overlooked. Their smooth curves and sleek lines create visually striking forms that captivate the imagination. Artists and designers often draw inspiration from the elegant shapes of hyperbolic shells, incorporating them into sculptures, furniture, and other creative works. This interplay between art and science exemplifies how mathematical concepts can transcend their theoretical origins and manifest in tangible, beautiful structures.In recent years, the application of hyperbolic shells has expanded beyond traditional architecture. In the field of sustainable design, architects are exploring how these structures can be used to create energy-efficient buildings. The aerodynamic shape of a hyperbolic shell can reduce wind resistance and improve natural ventilation, contributing to a building's overall sustainability. Furthermore, the lightweight nature of these shells can lead to reduced material usage, aligning with the principles of green building practices.As we look to the future, the potential for hyperbolic shells in architecture and engineering seems limitless. With advancements in technology and materials science, we are likely to see even more innovative applications of this fascinating geometric form. The challenge lies in balancing functionality with aesthetic appeal, ensuring that hyperbolic shells continue to inspire and serve practical purposes in our built environment. In conclusion, the hyperbolic shell represents a harmonious blend of mathematics, art, and engineering, showcasing the power of geometry in shaping our world.

“双曲壳”的概念吸引了建筑师和数学家，因为它具有独特的特性和美学吸引力。“双曲壳”是一个三维结构，通过围绕其轴旋转双曲线形成。这创造了一种既强大又轻便的表面，使其成为现代建筑和工程中各种应用的理想选择。“双曲壳”的美不仅在于其形态，还在于它能够有效分配负荷，这对于大型结构的稳定性至关重要。在建筑中，世界各地许多标志性建筑都可以看到“双曲壳”的使用。例如，悉尼歌剧院常被引用为复杂几何形状如何转变为功能空间的例子。歌剧院的帆看起来像“双曲壳”，展示了这些形状如何激发创新设计。“双曲壳”的曲率允许自然光进入建筑，同时提供声学效果，增强游客的整体体验。使用“双曲壳”进行建筑的一大显著优势是其结构效率。“双曲壳”的几何形状使其能够承受风和雪等外部力量，使其成为大跨度屋顶的实用选择。工程师们对“双曲壳”的力学进行了广泛研究，导致材料和施工技术的进步，进一步增强了其性能。此外，“双曲壳”的美学特征也不容忽视。其光滑的曲线和流线型的线条创造出引人注目的视觉形态，吸引着人们的想象力。艺术家和设计师常常从优雅的“双曲壳”形状中汲取灵感，将其融入雕塑、家具和其他创意作品中。这种艺术与科学之间的相互作用体现了数学概念如何超越其理论起源，并在有形的、美丽的结构中表现出来。近年来，“双曲壳”的应用超越了传统建筑。在可持续设计领域，建筑师正在探索如何利用这些结构来创建节能建筑。“双曲壳”的空气动力学形状可以减少风阻并改善自然通风，从而有助于建筑的整体可持续性。此外，这些壳体的轻量特性可以减少材料使用，符合绿色建筑实践的原则。展望未来，“双曲壳”在建筑和工程中的潜力似乎是无限的。随着技术和材料科学的进步，我们可能会看到这种迷人的几何形状的更多创新应用。挑战在于平衡功能与美学，确保“双曲壳”继续激励并在我们的建筑环境中发挥实用作用。总之，“双曲壳”代表了数学、艺术和工程的和谐结合，展示了几何在塑造我们世界中的力量。