shell envelope framing

简明释义

外板骨架

英英释义

例句

1.The use of shell envelope framing can significantly reduce thermal bridging in modern buildings.

使用外壳信封框架可以显著减少现代建筑中的热桥效应。

2.The architect emphasized the importance of shell envelope framing in ensuring the building's energy efficiency.

建筑师强调了外壳信封框架在确保建筑物能效方面的重要性。

3.The contractor explained that shell envelope framing is crucial for weatherproofing the building.

承包商解释说，外壳信封框架对于建筑的防风防雨至关重要。

4.In our design review, we discussed how shell envelope framing impacts the overall aesthetics of the structure.

在我们的设计评审中，我们讨论了外壳信封框架如何影响结构的整体美学。

5.During the construction process, the team focused on the shell envelope framing to provide structural integrity.

在施工过程中，团队专注于外壳信封框架以提供结构的完整性。

作文

The concept of shell envelope framing is crucial in the field of architecture and construction. It refers to a structural system that combines the outer shell of a building with its internal framework. This method not only enhances the aesthetic appeal of a structure but also improves its overall stability and energy efficiency. In essence, the shell envelope framing serves as the first line of defense against environmental elements, while providing a robust support system for the interior spaces.To understand the significance of shell envelope framing, it is essential to look at how modern buildings are designed. Traditionally, buildings relied heavily on solid walls and beams to provide support. However, with advancements in materials and technology, architects have begun to explore more innovative approaches. The shell envelope framing technique allows for larger open spaces within buildings, enabling creative layouts that were previously impossible.One of the primary advantages of shell envelope framing is its ability to improve energy efficiency. By creating a well-insulated outer shell, buildings can maintain comfortable indoor temperatures without excessive reliance on heating or cooling systems. This not only reduces energy consumption but also lowers utility costs for occupants. Furthermore, the use of sustainable materials in the shell envelope framing process contributes to environmentally friendly construction practices, which are increasingly important in today’s world.In addition to energy efficiency, shell envelope framing also provides enhanced durability. The outer shell acts as a protective barrier, shielding the internal framework from harsh weather conditions such as rain, wind, and snow. This results in a longer lifespan for the building and less frequent need for repairs. Moreover, the design flexibility offered by shell envelope framing allows architects to create structures that can withstand seismic activities, making them safer for inhabitants.The aesthetic possibilities of shell envelope framing are another compelling reason for its popularity. Architects can experiment with various shapes, materials, and finishes, resulting in visually stunning buildings that stand out in their environments. For instance, the use of glass in the outer shell can create a sense of openness and connection with the surrounding landscape, while still providing the necessary structural support.In conclusion, the concept of shell envelope framing represents a significant evolution in architectural design and construction methods. Its benefits, including improved energy efficiency, enhanced durability, and aesthetic flexibility, make it an attractive choice for modern buildings. As we move towards a more sustainable future, the adoption of shell envelope framing will likely continue to grow, paving the way for innovative and environmentally conscious architectural solutions.

“外壳封闭框架”的概念在建筑和施工领域至关重要。它指的是一种将建筑物的外部壳体与内部框架相结合的结构系统。这种方法不仅增强了结构的美观性，还提高了其整体稳定性和能效。本质上，外壳封闭框架作为抵御环境元素的第一道防线，同时为内部空间提供了强有力的支撑系统。要理解外壳封闭框架的重要性，有必要看看现代建筑是如何设计的。传统上，建筑物严重依赖坚固的墙壁和梁来提供支撑。然而，随着材料和技术的进步，建筑师开始探索更具创新性的方法。外壳封闭框架技术允许建筑内部拥有更大的开放空间，使得以前不可能的创意布局成为可能。外壳封闭框架的主要优点之一是其提高能效的能力。通过创建良好绝缘的外壳，建筑可以在不依赖过多供暖或制冷系统的情况下维持舒适的室内温度。这不仅减少了能源消耗，也降低了居住者的公用事业费用。此外，在外壳封闭框架过程中使用可持续材料有助于环保的建筑实践，这在当今世界变得越来越重要。除了能效外，外壳封闭框架还提供了增强的耐久性。外壳作为保护屏障，能够保护内部框架免受雨水、风雪等恶劣天气条件的侵袭。这使得建筑物的使用寿命更长，维修的频率也减少。此外，外壳封闭框架所提供的设计灵活性使建筑师能够创建能够承受地震活动的结构，从而使居民更加安全。外壳封闭框架的美学可能性是其流行的另一个令人信服的理由。建筑师可以尝试各种形状、材料和饰面，创造出在环境中脱颖而出的视觉惊艳建筑。例如，外壳中使用玻璃可以营造出开放感，与周围景观建立联系，同时仍然提供必要的结构支持。总之，外壳封闭框架的概念代表了建筑设计和施工方法的重要演变。它的好处包括改善能效、增强耐久性和美学灵活性，使其成为现代建筑的吸引选择。随着我们迈向更可持续的未来，外壳封闭框架的采用可能会继续增长，为创新和环保的建筑解决方案铺平道路。