enclosed superstructure

简明释义

封闭上层建筑

英英释义

例句

1.The enclosed superstructure of the stadium protects spectators from the elements.

体育场的封闭的上部结构保护观众免受天气影响。

2.The architect designed an enclosed superstructure to provide additional space for the community center.

建筑师设计了一个封闭的上部结构，以为社区中心提供额外的空间。

3.We need to ensure that the enclosed superstructure is properly insulated to maintain energy efficiency.

我们需要确保封闭的上部结构得到适当的绝缘，以保持能效。

4.In the new skyscraper, the enclosed superstructure allows for panoramic views from every floor.

在这座新摩天大楼中，封闭的上部结构使每一层都能享有全景视野。

5.The renovation included adding an enclosed superstructure to enhance the building's aesthetic appeal.

翻新工程包括添加一个封闭的上部结构以增强建筑的美学吸引力。

作文

The concept of an enclosed superstructure is often encountered in the fields of architecture and engineering. It refers to a structural framework that is not only designed to support a building but also serves to protect its internal environment from external elements. This dual purpose makes the enclosed superstructure a critical component in the design and functionality of modern buildings. In essence, it acts as a barrier against weather conditions, noise, and other environmental factors while providing the necessary support for the roof and upper floors. In architectural terms, the enclosed superstructure can be seen in various forms, such as high-rise buildings, residential homes, and commercial structures. For instance, skyscrapers utilize a robust enclosed superstructure to withstand high winds and seismic activities, ensuring the safety and comfort of their occupants. The materials used in constructing this superstructure are carefully chosen to provide strength and durability, such as steel and reinforced concrete. These materials not only contribute to the structural integrity of the building but also enhance its aesthetic appeal. Moreover, the enclosed superstructure plays a significant role in energy efficiency. By minimizing air leaks and maximizing insulation, it helps maintain a stable indoor climate, reducing the need for heating and cooling systems. This aspect is becoming increasingly important as more architects and builders strive to create sustainable and eco-friendly designs. Energy-efficient buildings reduce carbon footprints and promote a healthier living environment for their inhabitants. When discussing the enclosed superstructure, it is also important to consider the impact of technology on its design and construction. Advances in building information modeling (BIM) and prefabrication techniques allow for greater precision and efficiency in creating these structures. Architects can simulate how different materials and designs will perform under various conditions, leading to more informed decisions and better outcomes. As a result, the modern enclosed superstructure is not just a physical entity; it is a complex system that integrates technology, sustainability, and aesthetics. In conclusion, understanding the concept of an enclosed superstructure is vital for anyone involved in the construction and design industries. It embodies the intersection of functionality, safety, and sustainability in modern architecture. As we move forward, the importance of this structural element will continue to grow, especially as we face challenges related to climate change and urbanization. By focusing on innovative designs that prioritize the enclosed superstructure, we can create buildings that are not only visually stunning but also resilient and efficient, ultimately contributing to a better quality of life for all. In summary, the enclosed superstructure is a fundamental aspect of contemporary architecture, providing essential support and protection while promoting sustainability and efficiency. Its role cannot be understated, as it shapes the way we interact with our built environments and influences the future of architectural design.

“封闭的上部结构”这一概念通常在建筑和工程领域中出现。它指的是一种不仅旨在支撑建筑物，还能保护其内部环境免受外部元素影响的结构框架。这一双重目的使得“封闭的上部结构”成为现代建筑设计和功能中的关键组成部分。从本质上讲，它充当了抵御天气条件、噪音和其他环境因素的屏障，同时为屋顶和上层提供必要的支撑。在建筑术语中，“封闭的上部结构”可以在各种形式中看到，例如高层建筑、住宅和商业结构。例如，摩天大楼利用坚固的“封闭的上部结构”来抵御强风和地震活动，确保居民的安全和舒适。用于构建这种上部结构的材料被精心挑选，以提供强度和耐久性，如钢材和钢筋混凝土。这些材料不仅有助于建筑的结构完整性，还增强了其美学吸引力。此外，“封闭的上部结构”在能源效率方面也发挥着重要作用。通过最小化空气泄漏和最大化绝缘，它有助于维持稳定的室内气候，从而减少对供暖和制冷系统的需求。随着越来越多的建筑师和建筑商努力创造可持续和环保的设计，这一方面变得尤为重要。节能建筑减少了碳足迹，并为居民创造了更健康的生活环境。在讨论“封闭的上部结构”时，考虑技术对其设计和施工的影响也很重要。建筑信息建模（BIM）和预制技术的进步使得在创建这些结构时能够实现更大的精确度和效率。建筑师可以模拟不同材料和设计在各种条件下的表现，从而做出更明智的决策和更好的结果。因此，现代的“封闭的上部结构”不仅仅是一个物理实体；它是一个集成了技术、可持续性和美学的复杂系统。总之，理解“封闭的上部结构”这一概念对于任何参与建筑和设计行业的人来说都是至关重要的。它体现了现代建筑中功能、安全性和可持续性的交汇点。随着我们向前发展，这一结构元素的重要性将继续增长，尤其是在面对气候变化和城市化相关挑战时。通过专注于优先考虑“封闭的上部结构”的创新设计，我们可以创造出不仅视觉上令人惊叹，而且具有韧性和效率的建筑，最终为所有人提升生活质量。总而言之，“封闭的上部结构”是当代建筑的基本方面，提供必要的支撑和保护，同时促进可持续性和效率。它的作用不可低估，因为它塑造了我们与建筑环境的互动方式，并影响着建筑设计的未来。