cage construction

简明释义

骨架结构

英英释义

例句

1.The new zoo features a state-of-the-art cage construction that ensures the safety of both animals and visitors.

新动物园采用了最先进的笼子结构，确保动物和游客的安全。

2.For the new exhibit, they designed a transparent cage construction to enhance visitor experience.

为了新的展览，他们设计了一种透明的笼子结构，以增强游客体验。

3.During the renovation, the architects focused on improving the cage construction to provide better living conditions for the birds.

在翻新期间，建筑师们专注于改善笼子结构，以提供更好的鸟类栖息环境。

4.The cage construction used in this facility is both durable and aesthetically pleasing.

该设施使用的笼子结构既耐用又美观。

5.The research team studied the effects of different materials used in cage construction on animal behavior.

研究小组研究了不同材料在笼子结构中对动物行为的影响。

作文

In the field of architecture and engineering, various construction methods have been developed to ensure the stability and durability of buildings. One such method is known as cage construction, which involves the use of a framework or skeleton structure to support the weight of the building. This technique has gained popularity due to its efficiency and effectiveness in creating strong and resilient structures. The concept of cage construction can be traced back to the early 20th century when architects began to experiment with steel and concrete materials. The basic idea behind this method is to create a 'cage' that holds the building together, allowing for greater flexibility in design and the ability to create taller buildings without compromising safety. One of the primary advantages of cage construction is its ability to distribute loads evenly across the structure. This is especially important in high-rise buildings where the weight of the upper floors can exert significant pressure on the lower levels. By utilizing a cage-like framework, engineers can ensure that the building can withstand various forces, including wind and seismic activity. Additionally, this construction method allows for the incorporation of large windows and open spaces, providing natural light and enhancing the aesthetic appeal of the building.Moreover, cage construction is often associated with modernist architectural movements, which emphasize functionality and simplicity. Many iconic skyscrapers around the world, such as the Willis Tower (formerly known as the Sears Tower) in Chicago, exemplify the principles of this construction technique. These buildings not only serve as functional spaces but also as symbols of innovation and progress in urban development.However, like any construction method, cage construction has its challenges. For instance, the initial cost of materials and labor can be higher compared to traditional building methods. Additionally, the construction process requires careful planning and skilled labor to ensure that the framework is properly aligned and secured. Any miscalculations during the construction phase can lead to structural weaknesses, which may pose risks to the safety of the occupants.Despite these challenges, the benefits of cage construction often outweigh the drawbacks. As cities continue to grow and the demand for vertical living spaces increases, this construction method will likely remain a vital part of modern architecture. Furthermore, advancements in technology and materials are continually improving the efficiency and safety of cage construction, making it an even more appealing option for future projects.In conclusion, cage construction represents a significant advancement in building techniques that has transformed the way we design and construct our urban environments. Its ability to create strong, flexible, and aesthetically pleasing structures makes it a preferred choice for many architects and engineers. As we look towards the future, it is essential to continue exploring and refining this construction method to meet the ever-evolving needs of our society and environment.

在建筑和工程领域，各种施工方法已经被开发出来，以确保建筑物的稳定性和耐久性。其中一种方法被称为笼式结构，它涉及使用框架或骨架结构来支撑建筑物的重量。这种技术因其在创建强大和韧性结构方面的高效性和有效性而受到欢迎。笼式结构的概念可以追溯到20世纪初，当时建筑师开始尝试使用钢铁和混凝土材料。该方法的基本思想是创建一个“笼子”，将建筑物连接在一起，从而允许在设计上有更大的灵活性，并能够在不妨碍安全的情况下建造更高的建筑。笼式结构的主要优点之一是它能够均匀分配负载。对于高层建筑来说，这一点尤其重要，因为上层的重量可能对下层施加显著压力。通过利用笼状框架，工程师可以确保建筑物能够承受各种力量，包括风力和地震活动。此外，这种施工方法还允许大窗户和开放空间的融入，提供自然光并增强建筑的美学吸引力。此外，笼式结构通常与现代主义建筑运动相关联，这些运动强调功能性和简约性。世界上许多标志性的摩天大楼，如芝加哥的威利斯大厦（前称西尔斯大厦），体现了这种建筑技术的原则。这些建筑不仅作为功能空间而存在，还作为城市发展的创新和进步的象征。然而，像任何建筑方法一样，笼式结构也面临着挑战。例如，与传统建筑方法相比，材料和劳动力的初始成本可能更高。此外，施工过程需要仔细规划和熟练的劳动力，以确保框架正确对齐和固定。在施工阶段的任何计算错误都可能导致结构弱点，从而对居住者的安全构成风险。尽管存在这些挑战，笼式结构的好处往往超过缺点。随着城市的不断发展和对垂直居住空间需求的增加，这种建筑方法可能仍然是现代建筑的重要组成部分。此外，科技和材料的进步正在不断提高笼式结构的效率和安全性，使其成为未来项目的更具吸引力的选择。总之，笼式结构代表了一种显著的建筑技术进步，改变了我们设计和建造城市环境的方式。它创造出强大、灵活且美观的结构，使其成为许多建筑师和工程师的首选。展望未来，继续探索和完善这种建筑方法以满足我们社会和环境日益变化的需求至关重要。