buttress and frame system

简明释义

支柱和框架系统

英英释义

例句

1.The architect designed a new building using a buttress and frame system to enhance stability during earthquakes.

建筑师设计了一座新建筑，采用了支撑和框架系统以增强在地震中的稳定性。

2.The museum's design features a modern interpretation of the buttress and frame system.

博物馆的设计采用了对支撑和框架系统的现代诠释。

3.Using a buttress and frame system allows for larger windows without compromising the building's integrity.

使用支撑和框架系统可以在不影响建筑完整性的情况下设置更大的窗户。

4.The engineers proposed a buttress and frame system to reduce the load on the main structure.

工程师们建议采用支撑和框架系统来减轻主结构的负荷。

5.In medieval architecture, the buttress and frame system was crucial for supporting tall cathedrals.

在中世纪建筑中，支撑和框架系统对支撑高大的大教堂至关重要。

作文

The architectural world is filled with various systems and techniques that have evolved over centuries to support and enhance structures. One such system that has gained prominence in both historical and modern architecture is the buttress and frame system. This system combines the strength of buttresses with the flexibility of a frame, creating a robust structural solution that can withstand various forces, including wind and seismic activity.Historically, the use of buttresses dates back to ancient times, where they were primarily employed in Gothic architecture to support tall walls and allow for large windows. The buttress and frame system allows for greater height and more expansive spaces within buildings, as the buttresses provide the necessary support without the need for thick walls. This innovation not only improved the aesthetic appeal of structures but also enhanced their functionality.In modern architecture, the buttress and frame system continues to play a critical role. Architects and engineers utilize this system to create open floor plans and large, unobstructed interior spaces. By strategically placing buttresses, they can effectively distribute loads and manage stress points within a structure. This has made it possible to design iconic buildings that push the boundaries of traditional construction methods.Moreover, the buttress and frame system is particularly advantageous in areas prone to natural disasters. For instance, in earthquake-prone regions, the flexibility of the frame combined with the stability provided by the buttresses can significantly reduce the risk of structural failure. This adaptability makes it a preferred choice for many contemporary architects who prioritize safety alongside aesthetic considerations.In addition to its structural benefits, the buttress and frame system also allows for creative expression in architectural design. The visible buttresses can serve as decorative elements, contributing to the overall style of the building. This duality of function and form is essential in modern architecture, where the appearance of a structure can be just as important as its performance.Furthermore, the integration of sustainable materials within the buttress and frame system has opened new avenues for eco-friendly architecture. By using materials that are both strong and lightweight, architects can reduce the overall environmental impact of their projects. This aligns with the growing movement towards sustainability in construction, where minimizing resource consumption is paramount.In conclusion, the buttress and frame system represents a significant advancement in architectural design and engineering. Its ability to combine strength with flexibility has made it a staple in both historical and contemporary architecture. As we continue to face challenges related to urbanization, climate change, and sustainability, the principles underlying the buttress and frame system will undoubtedly remain relevant. Understanding and mastering this system is essential for future architects and engineers who aspire to create safe, functional, and beautiful structures that stand the test of time.

建筑界充满了各种各样的系统和技术，这些系统和技术经过几个世纪的发展，以支持和增强结构。其中一个在历史和现代建筑中都获得了显著地位的系统是扶壁框架系统。该系统将扶壁的强度与框架的灵活性结合在一起，创造了一种坚固的结构解决方案，能够承受包括风和地震活动在内的各种力量。历史上，扶壁的使用可以追溯到古代，当时它们主要用于哥特式建筑，以支持高墙并允许大窗户的存在。扶壁框架系统使建筑物能够更高、更宽敞，因为扶壁提供了必要的支持，而无需厚墙。这一创新不仅改善了结构的美观性，还增强了其功能性。在现代建筑中，扶壁框架系统继续发挥着重要作用。建筑师和工程师利用该系统创建开放的平面布局和大型无障碍室内空间。通过战略性地放置扶壁，他们可以有效地分配负载并管理结构内的应力点。这使得设计标志性建筑成为可能，这些建筑突破了传统施工方法的界限。此外，扶壁框架系统在自然灾害频发的地区特别有利。例如，在地震多发区域，框架的灵活性与扶壁提供的稳定性相结合，可以显著降低结构失效的风险。这种适应性使其成为许多当代建筑师的首选，建筑师优先考虑安全性与美学考量。除了其结构优势外，扶壁框架系统还允许建筑设计中的创意表达。可见的扶壁可以作为装饰元素，为建筑的整体风格做出贡献。这种功能与形式的双重性在现代建筑中至关重要，在现代建筑中，结构的外观可能与其性能同样重要。此外，在扶壁框架系统中整合可持续材料为生态友好型建筑开辟了新的途径。通过使用既强又轻的材料，建筑师可以减少项目的整体环境影响。这与建筑中日益增长的可持续性运动相一致，减少资源消耗是至关重要的。总之，扶壁框架系统代表了建筑设计和工程的一项重大进步。其将强度与灵活性结合的能力使其成为历史和当代建筑的基础。随着我们继续面临城市化、气候变化和可持续性等相关挑战，扶壁框架系统的基本原则无疑将保持相关性。理解和掌握这一系统对未来希望创造安全、功能齐全且美观的结构的建筑师和工程师至关重要，这些结构经得起时间的考验。