shell structure

简明释义

薄壳结构

英英释义

例句

1.The dome of the stadium is an excellent example of a shell structure that can withstand heavy loads.

体育场的圆顶是一个优秀的壳体结构示例，能够承受重载。

2.The architect designed a stunning building with a unique shell structure that enhances its aesthetic appeal.

建筑师设计了一座独特的建筑，采用了引人注目的壳体结构，增强了其美学吸引力。

3.In engineering, a shell structure is often used to create lightweight and strong components.

在工程中，壳体结构通常用于创建轻巧而坚固的部件。

4.Many modern bridges utilize a shell structure for better stability and reduced material usage.

许多现代桥梁利用壳体结构来提高稳定性并减少材料使用。

5.The shell structure of the spacecraft is designed to protect it from extreme temperatures during re-entry.

宇宙飞船的壳体结构旨在保护其在再入过程中免受极端温度的影响。

作文

The concept of shell structure is fundamental in both architecture and engineering, representing a design that maximizes strength while minimizing material use. A shell structure is typically a thin, curved form that can efficiently distribute loads across its surface. This innovative design approach has led to the creation of various iconic buildings and structures around the world. One of the most notable examples is the Sydney Opera House, which showcases the beauty and functionality of shell structures. The unique sail-like design not only serves an aesthetic purpose but also provides structural stability, demonstrating how a well-designed shell structure can withstand environmental forces such as wind and rain.In addition to aesthetics, the engineering principles behind shell structures are rooted in mathematics and physics. The curvature of a shell structure allows for the distribution of stress and strain evenly across the surface, making it less susceptible to failure. This is particularly important in large-span constructions, where traditional beam and column designs may not be feasible due to weight constraints or spatial limitations. As a result, architects and engineers often turn to shell structures for solutions that require both elegance and efficiency.Moreover, shell structures are not limited to grandiose buildings; they can also be found in everyday objects. For instance, the eggshell is a natural shell structure that protects the developing embryo inside while being lightweight and strong. This principle has inspired engineers to create similar structures in various applications, from aerospace to marine engineering. The study of shell structures has even led to advancements in materials science, as researchers seek to develop new materials that can mimic the properties of natural shells.The sustainability aspect of shell structures cannot be overlooked either. In an era where environmental concerns are paramount, using fewer materials without compromising strength is a significant advantage. By employing shell structures, builders can reduce waste and lower their carbon footprint. This not only benefits the environment but also contributes to cost savings in construction projects.In conclusion, the significance of shell structures in modern architecture and engineering cannot be overstated. They represent a harmonious blend of beauty, functionality, and sustainability. As we continue to explore innovative design solutions, the principles of shell structures will undoubtedly play a crucial role in shaping the future of our built environment. Understanding and mastering the concept of shell structure is essential for aspiring architects and engineers who wish to push the boundaries of design and construction while addressing the challenges of our time.

“壳体结构”的概念在建筑和工程中是基础性的，代表了一种最大化强度而最小化材料使用的设计。壳体结构通常是一种薄而弯曲的形状，可以有效地分配其表面上的负载。这种创新的设计方法导致了世界各地各种标志性建筑和结构的创建。其中一个最著名的例子是悉尼歌剧院，它展示了壳体结构的美丽和功能性。独特的帆船形状不仅具有美学目的，还提供了结构稳定性，证明了一个设计良好的壳体结构如何能够承受风和雨等环境力量。除了美学，壳体结构背后的工程原理根植于数学和物理学。壳体结构的曲率使得应力和应变能够均匀分布在表面上，从而使其不易发生故障。这在大跨度建筑中尤为重要，因为传统的梁柱设计可能由于重量限制或空间限制而不可行。因此，建筑师和工程师经常转向壳体结构，以寻找既优雅又高效的解决方案。此外，壳体结构并不限于宏伟的建筑；它们还可以在日常物品中找到。例如，蛋壳是一种自然的壳体结构，保护着内部发育中的胚胎，同时又轻巧而坚固。这一原理激励工程师在航空航天和海洋工程等各种应用中创造类似的结构。对壳体结构的研究甚至推动了材料科学的发展，研究人员寻求开发能够模仿自然壳体特性的材料。可持续性方面的壳体结构同样不可忽视。在环境问题至关重要的时代，减少材料使用而不影响强度是一个显著的优势。通过采用壳体结构，建筑商可以减少废物并降低碳足迹。这不仅有利于环境，还有助于建筑项目的成本节约。总之，壳体结构在现代建筑和工程中的重要性不容小觑。它们代表了美、功能和可持续性的和谐结合。随着我们继续探索创新的设计解决方案，壳体结构的原则无疑将在塑造我们未来的建筑环境中发挥关键作用。理解和掌握壳体结构的概念对于渴望推动设计和施工边界的建筑师和工程师来说至关重要，同时也能应对我们时代的挑战。