buttress braces

简明释义

垛间支撑

英英释义

例句

1.The structural integrity of the building was enhanced with buttress braces 支撑架 installed at key points.

通过在关键点安装buttress braces 支撑架，建筑的结构完整性得到了增强。

2.The old church required buttress braces 支撑架 to prevent further damage from settling.

这座古老的教堂需要buttress braces 支撑架以防止因沉降造成的进一步损坏。

3.In the renovation, we decided to install buttress braces 支撑架 to support the aging walls.

在翻新中，我们决定安装buttress braces 支撑架来支撑老化的墙壁。

4.Engineers recommended using buttress braces 支撑架 in the design of the new bridge to ensure safety.

工程师建议在新桥的设计中使用buttress braces 支撑架以确保安全。

5.The architect designed the building to include buttress braces 支撑架 for added stability against strong winds.

建筑师设计了这座建筑，包含了buttress braces 支撑架以增强抵御强风的稳定性。

作文

In the world of architecture, the term buttress braces refers to structural supports that provide stability and strength to buildings. These elements are crucial in ensuring that a structure can withstand various forces, including wind, earthquakes, and the weight of the materials used in construction. The use of buttress braces has been a fundamental aspect of architectural design for centuries, dating back to the Gothic cathedrals of Europe, where they were prominently featured to support towering walls and large stained glass windows.The function of buttress braces is not only to support the physical weight of the building but also to enhance its aesthetic appeal. They can be designed in various styles, from simple and functional to ornate and decorative, contributing to the overall beauty of the structure. For instance, the flying buttresses of Notre-Dame Cathedral in Paris are not only engineering marvels but also serve as iconic symbols of Gothic architecture. These buttress braces allow for higher ceilings and more expansive interior spaces, as they transfer the weight of the roof away from the walls, enabling the inclusion of large windows that flood the interior with light.In modern architecture, the principles behind buttress braces have evolved, yet their importance remains unchanged. Engineers and architects continue to utilize these supports in contemporary designs, adapting them to new materials and technologies. For example, in skyscrapers, buttress braces may be integrated into the framework to provide lateral support against strong winds and seismic activity. This innovative approach ensures that tall structures remain stable and safe while maximizing usable space within.Moreover, the concept of buttress braces extends beyond traditional buildings. In civil engineering, similar principles are applied to bridges and dams, where these supports play a vital role in maintaining integrity and safety. The design of a bridge, for instance, often incorporates buttress braces to counteract the forces exerted by vehicles and environmental factors. By distributing these forces more evenly, engineers can create safer and more durable infrastructure.Understanding the role of buttress braces in architecture and engineering is essential for appreciating the complexities involved in creating safe and functional spaces. As we continue to push the boundaries of design, the principles of stability and support represented by buttress braces will remain at the forefront of innovation. Whether in historic cathedrals or modern skyscrapers, these structural elements remind us of the balance between form and function, highlighting the artistry and science behind every successful building project.In conclusion, buttress braces are more than just functional components of a structure; they embody the harmony between strength and beauty in architectural design. Their evolution over time reflects advancements in engineering and materials, yet their fundamental purpose remains the same: to provide support and stability. As we look to the future of architecture, the legacy of buttress braces will undoubtedly influence how we design and build, ensuring that our creations stand the test of time.

在建筑领域，术语buttress braces指的是提供稳定性和强度的结构支撑。这些元素在确保建筑能够承受各种力量（包括风、地震和建筑材料的重量）方面至关重要。buttress braces的使用是建筑设计的基本方面，已有几个世纪的历史，可以追溯到欧洲的哥特式大教堂，在那里它们被显著地用来支撑高耸的墙壁和大型彩色玻璃窗。buttress braces的功能不仅是支撑建筑的物理重量，还提升其美学吸引力。它们可以设计成多种风格，从简单实用到华丽装饰，为整体结构的美观做出贡献。例如，巴黎圣母院的飞扶壁不仅是工程奇迹，也是哥特式建筑的标志性象征。这些buttress braces允许更高的天花板和更广阔的内部空间，因为它们将屋顶的重量转移离墙壁，使得可以包含大型窗户，充满光线。在现代建筑中，buttress braces背后的原则已经发展，但它们的重要性依然不变。工程师和建筑师继续在当代设计中利用这些支撑，将其适应于新材料和技术。例如，在摩天大楼中，buttress braces可能被整合到框架中，以提供对强风和地震活动的侧向支撑。这种创新的方法确保高层建筑保持稳定和安全，同时最大化可用空间。此外，buttress braces的概念超越了传统建筑。在土木工程中，类似的原理被应用于桥梁和大坝，这些支撑在保持完整性和安全性方面发挥着重要作用。例如，桥梁的设计通常会结合buttress braces，以抵消车辆和环境因素施加的力量。通过更均匀地分配这些力量，工程师可以创建更安全和更耐用的基础设施。理解buttress braces在建筑和工程中的作用对于欣赏创造安全和功能空间所涉及的复杂性至关重要。随着我们继续推动设计的边界，代表稳定性和支撑的buttress braces原则将始终处于创新的前沿。无论是在历史悠久的大教堂还是现代摩天大楼中，这些结构元素都提醒我们形式与功能之间的平衡，突显出每一个成功建筑项目背后的艺术性和科学性。总之，buttress braces不仅仅是结构的功能组成部分；它们体现了建筑设计中力量与美之间的和谐。它们随时间的演变反映了工程和材料的进步，但其基本目的仍然相同：提供支撑和稳定。展望建筑的未来，buttress braces的遗产无疑将影响我们的设计和建造方式，确保我们的创作经得起时间的考验。