buttress and frame system

简明释义

活动框架加固法

英英释义

例句

1.The historical church still stands thanks to its original buttress and frame system that was built centuries ago.

这座历史悠久的教堂依然屹立不倒，多亏了几个世纪前建造的原始支撑和框架系统。

2.In the renovation project, we had to reinforce the walls with a buttress and frame system for better support.

在翻新项目中，我们必须用支撑和框架系统加固墙壁，以提供更好的支撑。

3.Engineers often recommend a buttress and frame system when constructing tall buildings in earthquake-prone areas.

工程师们通常建议在地震多发地区建造高层建筑时使用支撑和框架系统。

4.The new sports arena features a modern buttress and frame system that allows for large open spaces.

新的体育馆采用了现代化的支撑和框架系统，可以容纳大开阔的空间。

5.The architect designed a new building using a buttress and frame system to enhance structural stability.

建筑师设计了一座新建筑，采用了支撑和框架系统以增强结构稳定性。

作文

The architectural world has always been a fascinating realm where creativity meets engineering. Among the various elements that contribute to the stability and aesthetics of buildings, the buttress and frame system stands out as a remarkable innovation. This system, which combines the strength of buttresses with the flexibility of frames, has revolutionized the way structures are designed and constructed.To understand the significance of the buttress and frame system, we must first look at its components. A buttress is a support structure that extends from the wall of a building to provide additional stability, especially in tall or heavy structures. It effectively transfers the lateral forces acting on the wall, such as wind or seismic activity, down to the ground. On the other hand, a frame is a skeletal structure made of beams and columns that supports the weight of the building and allows for open spaces within. By integrating these two elements, architects can create buildings that are not only strong but also visually appealing.Historically, the use of buttresses can be traced back to ancient Roman architecture, where they were employed to support massive stone walls. However, it was during the Gothic period that buttresses became more prominent, often seen in cathedrals with soaring heights and intricate designs. The introduction of the buttress and frame system allowed for even greater heights and more complex shapes, pushing the boundaries of architectural design.One of the greatest advantages of the buttress and frame system is its ability to distribute loads efficiently. For instance, in modern skyscrapers, this system enables engineers to design taller buildings without compromising safety. The frame carries the vertical loads, while the buttresses handle the lateral forces, allowing for slender and elegant designs that were once thought impossible.Moreover, the buttress and frame system offers flexibility in design. Architects can play with various materials, such as steel, concrete, and glass, to create unique facades and interior spaces. This versatility has led to iconic structures around the world, such as the Eiffel Tower in Paris and the Burj Khalifa in Dubai, which showcase the power of combining aesthetics with structural integrity.In addition to its aesthetic and structural benefits, the buttress and frame system also contributes to sustainability. By optimizing material usage and reducing the need for excessive foundations, this system minimizes the environmental impact of construction. As the world becomes increasingly aware of the need for sustainable practices, the buttress and frame system provides a viable solution for future architectural projects.In conclusion, the buttress and frame system represents a significant advancement in architectural design and engineering. Its ability to combine strength, flexibility, and aesthetic appeal has made it a fundamental element in modern construction. As we continue to explore new possibilities in architecture, the buttress and frame system will undoubtedly remain a key player in shaping the skylines of our cities and the spaces we inhabit. Understanding this system not only enriches our appreciation for architecture but also inspires future innovations in the field.

建筑界一直是一个迷人的领域，在这里创造力与工程相结合。在众多影响建筑稳定性和美观的元素中，支撑和框架系统作为一种卓越的创新脱颖而出。这个系统将支撑的强度与框架的灵活性结合在一起，彻底改变了建筑的设计和施工方式。要理解支撑和框架系统的重要性，我们首先必须了解其组成部分。支撑是一种从建筑物墙面延伸出来的支撑结构，提供额外的稳定性，特别是在高大或重型结构中。它有效地将作用于墙体的横向力量（如风或地震活动）转移到地面上。另一方面，框架是一种由梁和柱构成的骨架结构，支撑建筑物的重量，并允许内部开放空间。通过整合这两个元素，建筑师可以创建既坚固又美观的建筑。历史上，支撑的使用可以追溯到古罗马建筑，当时它们被用于支撑巨大的石墙。然而，在哥特式时期，支撑变得更加突出，常见于具有高耸高度和复杂设计的教堂中。支撑和框架系统的引入使得更高和更复杂的形状成为可能，推动了建筑设计的边界。支撑和框架系统的最大优势之一是其有效分配负载的能力。例如，在现代摩天大楼中，该系统使工程师能够设计更高的建筑，而不妨碍安全性。框架承载垂直荷载，而支撑处理横向力量，从而允许纤细而优雅的设计，这在以前被认为是不可能的。此外，支撑和框架系统在设计上也提供了灵活性。建筑师可以利用各种材料，如钢、混凝土和玻璃，创造独特的外立面和内部空间。这种多样性导致了世界各地标志性结构的出现，例如巴黎的埃菲尔铁塔和迪拜的哈利法塔，它们展示了将美学与结构完整性结合的力量。除了美学和结构上的好处，支撑和框架系统还促进了可持续性。通过优化材料使用和减少过度基础的需求，该系统最小化了建筑对环境的影响。随着世界越来越意识到可持续实践的必要性，支撑和框架系统为未来的建筑项目提供了一种可行的解决方案。总之，支撑和框架系统代表了建筑设计和工程的一项重要进展。它将强度、灵活性和美观结合的能力使其成为现代建筑的基本元素。随着我们继续探索建筑的新可能性，支撑和框架系统无疑将继续在塑造我们城市的天际线和我们所居住的空间中发挥关键作用。理解这一系统不仅丰富了我们对建筑的欣赏，也激发了该领域未来的创新。