cantilever girder

简明释义

悬臂梁

英英释义

例句

1.The architect designed a modern building with an exposed cantilever girder as a key aesthetic feature.

建筑师设计了一座现代建筑，采用裸露的悬臂梁作为关键的美学特征。

2.The bridge was supported by a strong cantilever girder, which allowed it to span the river without any columns in the water.

这座桥由一个坚固的悬臂梁支撑，使其能够在没有水中柱子的情况下跨越河流。

3.A cantilever girder is often used in parking garages to create open spaces without obstructions.

在停车场中，通常使用悬臂梁来创建没有障碍的开放空间。

4.During construction, the team carefully calculated the load on the cantilever girder to ensure safety.

在施工过程中，团队仔细计算了悬臂梁上的负载以确保安全。

5.Engineers decided to use a cantilever girder for the new overpass to minimize the land needed for supports.

工程师决定使用悬臂梁来建造新的立交桥，以减少对支撑所需的土地。

作文

The construction industry is filled with various terms that describe the different components and structures used in building projects. One such term is cantilever girder, which refers to a beam that is anchored at one end while the other end extends freely into space. This unique design allows for significant overhangs without the need for additional support, making it an essential element in many architectural and engineering applications. 悬臂梁的设计原理源于力学中的平衡和稳定性。在许多现代建筑中，cantilever girders are used to create balconies, bridges, and even entire buildings that appear to defy gravity. The ability of a cantilever girder to support weight while extending outward is a testament to the ingenuity of engineers and architects who strive to push the boundaries of what is possible.One of the most famous examples of a cantilever girder can be seen in the design of the Frank Lloyd Wright's Fallingwater house. The structure features several cantilevered balconies that extend over a waterfall, providing breathtaking views of the surrounding nature. The use of cantilever girders not only enhances the aesthetic appeal of the building but also demonstrates the practical application of this engineering concept in real-world scenarios. By utilizing cantilever girders, architects can create open spaces that allow for natural light and ventilation, contributing to a more sustainable living environment.When designing a cantilever girder, engineers must consider various factors, including the materials used, the load it will bear, and the environmental conditions it will face. Common materials for cantilever girders include steel, reinforced concrete, and wood. Each material has its advantages and disadvantages, depending on the specific requirements of the project. For instance, steel cantilever girders are known for their strength and durability, making them ideal for large-scale constructions such as bridges and high-rise buildings. On the other hand, wooden cantilever girders may be preferred for smaller structures due to their aesthetic qualities and ease of installation.In addition to their structural benefits, cantilever girders also play a role in modern design trends that emphasize minimalism and open spaces. The ability to create large overhangs without the need for supporting columns allows for more flexible layouts and innovative designs. This trend is particularly evident in contemporary architecture, where cantilever girders are often used to create dramatic effects that attract attention and enhance the overall visual impact of a building.In conclusion, understanding the concept of cantilever girders is crucial for anyone involved in the construction and design industries. These structural elements not only provide essential support but also contribute to the creativity and functionality of modern architecture. As we continue to explore new materials and technologies, the role of cantilever girders will undoubtedly evolve, leading to even more innovative solutions in the world of construction. Whether you are an engineer, architect, or simply someone interested in the built environment, appreciating the significance of cantilever girders can deepen your understanding of how we shape the spaces we inhabit.

建筑行业充满了各种术语，用于描述建筑项目中使用的不同组件和结构。其中一个术语是悬臂梁，指的是一端锚定而另一端自由伸展的梁。这种独特的设计允许在没有额外支撑的情况下实现显著的悬垂，使其成为许多建筑和工程应用中的基本元素。悬臂梁的设计原理源于力学中的平衡和稳定性。在许多现代建筑中，悬臂梁用于创建阳台、桥梁甚至整个看似违背重力的建筑。一根悬臂梁能够在向外延伸的同时承受重量，这证明了工程师和建筑师们努力突破可能性的界限所展现的聪明才智。悬臂梁最著名的例子之一可以在弗兰克·劳埃德·赖特的瀑布屋设计中看到。该结构设有多个悬臂阳台，延伸到瀑布上方，提供周围自然景观的壮丽视野。悬臂梁的使用不仅增强了建筑的美学吸引力，还展示了这一工程概念在现实场景中的实际应用。通过利用悬臂梁，建筑师可以创造开放的空间，使自然光和通风得以流通，从而有助于更可持续的生活环境。在设计悬臂梁时，工程师必须考虑各种因素，包括所用材料、承载的负荷以及面临的环境条件。悬臂梁的常见材料包括钢、钢筋混凝土和木材。每种材料都有其优缺点，具体取决于项目的要求。例如，钢制悬臂梁以其强度和耐久性而闻名，非常适合大型建筑，如桥梁和高层建筑。另一方面，木制悬臂梁可能因其美观性和易于安装而更适合较小的结构。除了结构优势外，悬臂梁还在现代设计趋势中发挥着作用，这些趋势强调极简主义和开放空间。能够在不需要支撑柱的情况下创建大悬垂，使得布局更加灵活，设计更加创新。这一趋势在当代建筑中尤为明显，悬臂梁常用于创造戏剧效果，吸引注意力并增强建筑的整体视觉冲击力。总之，理解悬臂梁的概念对于参与建筑和设计行业的任何人来说都是至关重要的。这些结构元素不仅提供必要的支撑，还为现代建筑的创造力和功能性做出了贡献。随着我们继续探索新材料和技术，悬臂梁的角色无疑会演变，导致建筑领域出现更具创新性的解决方案。无论您是工程师、建筑师，还是仅仅对建筑环境感兴趣的人，欣赏悬臂梁的重要性都能加深您对我们塑造居住空间的理解。