core tube supported structure

简明释义

核心筒悬挂结构

英英释义

例句

1.The new skyscraper features a core tube supported structure, allowing for greater flexibility in interior design.

这座新摩天大楼采用了核心管支撑结构，使室内设计更加灵活。

2.In urban areas, a core tube supported structure is often preferred due to its efficient use of space.

在城市地区，通常更喜欢使用核心管支撑结构，因为它有效利用空间。

3.The core tube supported structure minimizes the amount of materials needed while maximizing strength.

这种核心管支撑结构最小化了所需材料的数量，同时最大化了强度。

4.The architect explained that the core tube supported structure would allow for larger windows and better views.

建筑师解释说，核心管支撑结构将允许更大的窗户和更好的视野。

5.Engineers chose a core tube supported structure for the high-rise to ensure stability during earthquakes.

工程师为高层建筑选择了核心管支撑结构，以确保在地震期间的稳定性。

作文

In the field of architecture and structural engineering, various innovative designs have emerged to meet the challenges of modern building requirements. One such design is the core tube supported structure, which has gained popularity for its efficiency and stability. This type of structure primarily relies on a central core that provides support and houses essential services such as elevators, staircases, and utilities. The outer framework is then constructed around this core, allowing for greater flexibility in the layout of the building's interior spaces.The concept of a core tube supported structure can be traced back to some of the most iconic skyscrapers in the world. These buildings often feature a robust central core that not only supports the vertical loads but also resists lateral forces caused by wind and seismic activities. By concentrating the load-bearing elements in a central location, architects can design lighter and more open floor plans, which enhance the usability of the space.One of the primary advantages of the core tube supported structure is its ability to create large, unobstructed areas within a building. Unlike traditional designs that may require numerous columns throughout the space, this method allows for expansive views and increased natural light, significantly improving the occupants' experience. Furthermore, the central core can be designed to accommodate various mechanical systems, making it easier to maintain and service these critical components without disrupting the entire building.Another key benefit of this structural system is its efficiency in construction. The core tube supported structure can be erected rapidly, as the core is often built first, providing immediate stability for subsequent floors. This approach not only accelerates the construction timeline but also reduces costs associated with labor and materials. As cities continue to grow and the demand for high-rise buildings increases, the need for efficient construction methods becomes even more critical.However, designing a core tube supported structure is not without its challenges. Engineers must carefully consider factors such as load distribution, material selection, and the impact of environmental forces on the building's integrity. Additionally, the aesthetic design of the building must complement its structural components, ensuring that the final product is both functional and visually appealing.In conclusion, the core tube supported structure represents a significant advancement in architectural design and engineering. Its ability to provide stability, flexibility, and efficiency makes it an ideal choice for modern high-rise buildings. As technology continues to evolve and new materials are developed, we can expect to see even more innovative applications of this structural system in the future. The integration of sustainable practices and smart technologies will further enhance the performance of core tube supported structures, paving the way for a new era of urban development that prioritizes both functionality and environmental responsibility.

在建筑和结构工程领域，各种创新设计应运而生，以满足现代建筑要求的挑战。其中一种设计是核心管支撑结构，因其高效性和稳定性而受到欢迎。这种结构主要依赖一个中央核心来提供支撑，并容纳电梯、楼梯和公用设施等基本服务。然后，在这个核心周围构建外部框架，从而为建筑内部空间的布局提供更大的灵活性。核心管支撑结构的概念可以追溯到世界上一些最具标志性的摩天大楼。这些建筑通常具有坚固的中央核心，不仅支持垂直负荷，还能抵抗由风和地震活动引起的侧向力量。通过将承重元素集中在中央位置，建筑师可以设计更轻、更开放的平面图，从而增强空间的可用性。核心管支撑结构的主要优点之一是能够在建筑内部创造大型无障碍区域。与传统设计可能需要在空间内设置多个柱子不同，这种方法允许广阔的视野和增加的自然光，显著改善居住者的体验。此外，中央核心可以设计成容纳各种机械系统，使得维护和服务这些关键组件变得更加容易，而不会干扰整个建筑。这种结构系统的另一个关键好处是其施工效率。核心管支撑结构可以快速竖立，因为核心通常首先建造，为后续楼层提供立即的稳定性。这种方法不仅加快了施工时间表，还降低了与劳动力和材料相关的成本。随着城市的不断发展和对高层建筑需求的增加，对高效施工方法的需求变得更加重要。然而，设计核心管支撑结构并非没有挑战。工程师必须仔细考虑负载分布、材料选择以及环境力量对建筑完整性的影响。此外，建筑的美学设计必须与其结构组件相辅相成，确保最终产品既功能性又视觉吸引力。总之，核心管支撑结构代表了建筑设计和工程的重大进步。其提供稳定性、灵活性和效率的能力使其成为现代高层建筑的理想选择。随着技术的不断发展和新材料的开发，我们可以期待在未来看到这一结构系统的更多创新应用。可持续实践和智能技术的整合将进一步提升核心管支撑结构的性能，为优先考虑功能性和环境责任的城市发展新时代铺平道路。