space frame structure

简明释义

立体框架结构

英英释义

例句

1.The exhibition hall is designed with a space frame structure 空间框架结构 to support heavy lighting and sound equipment.

展览厅的设计采用了空间框架结构 space frame structure，以支撑重型照明和音响设备。

2.A space frame structure 空间框架结构 provides excellent resistance to lateral forces, making it ideal for earthquake-prone areas.

由于具有出色的抗侧向力能力，空间框架结构 space frame structure非常适合地震频发地区。

3.Engineers are increasingly using space frame structures 空间框架结构 in modern architecture due to their strength and versatility.

由于其强度和多功能性，工程师们越来越多地在现代建筑中使用空间框架结构 space frame structures。

4.The new sports arena features a stunning space frame structure 空间框架结构 that allows for large open spaces without obstructing views.

新的体育场馆采用了令人惊叹的空间框架结构 space frame structure，可以在不阻挡视线的情况下实现大开间。

5.The roof of the airport terminal utilizes a large space frame structure 空间框架结构 to create a spacious and airy environment.

机场航站楼的屋顶采用了大型的空间框架结构 space frame structure，营造出宽敞通透的环境。

作文

The concept of a space frame structure has become increasingly important in modern architecture and engineering. A space frame structure is essentially a three-dimensional framework that consists of interconnected elements, usually made from materials like steel or aluminum. This type of structure is known for its ability to efficiently distribute loads across a wide area, making it an ideal choice for large buildings such as airports, stadiums, and exhibition halls.One of the primary advantages of a space frame structure is its lightweight nature. Unlike traditional solid structures, which can be heavy and cumbersome, a space frame structure utilizes a network of beams and nodes to create a stable system that minimizes material usage without sacrificing strength. This not only reduces construction costs but also makes the structure more environmentally friendly by lowering the amount of raw materials needed.In addition to being lightweight, space frame structures offer remarkable flexibility in design. Architects can create complex shapes and forms that would be difficult to achieve with conventional construction methods. The versatility of a space frame structure allows for innovative designs that can enhance the aesthetic appeal of a building while maintaining functionality. For instance, the iconic Eden Project in the UK features geodesic domes that are constructed using a space frame structure, showcasing how this technique can be applied to create visually stunning environments.Moreover, space frame structures are highly efficient in terms of load-bearing capabilities. The geometric arrangement of the framework allows for even distribution of forces, which means that these structures can withstand significant loads, including wind and seismic activity. This characteristic makes them particularly suitable for regions prone to natural disasters, as they can provide safety and stability even under extreme conditions.Another aspect worth mentioning is the ease of assembly and disassembly associated with space frame structures. Many of these frameworks can be prefabricated off-site and then transported to the construction location for quick assembly. This modular approach not only speeds up the construction process but also allows for easy relocation or expansion of the structure if necessary. For example, temporary structures for events or exhibitions often utilize space frame structures due to their adaptability and efficiency.However, it is essential to consider the challenges that come with designing and constructing a space frame structure. Engineers must carefully analyze the forces acting on the structure and ensure that all connections between the elements are secure and capable of handling the expected loads. Additionally, while the aesthetic possibilities are vast, there can be limitations based on local building codes and regulations that must be adhered to.In conclusion, the space frame structure represents a significant advancement in architectural and engineering practices. Its lightweight, flexible, and efficient characteristics make it a preferred choice for modern constructions, allowing for innovative designs that are both functional and visually appealing. As technology continues to evolve, we can expect to see even more creative applications of space frame structures in the future, pushing the boundaries of what is possible in building design and construction.

空间框架结构的概念在现代建筑和工程中变得越来越重要。空间框架结构本质上是一个三维框架，由相互连接的元素组成，通常由钢或铝等材料制成。这种类型的结构以其能够有效分配负载到广泛区域而闻名，使其成为大型建筑（如机场、体育场和展览馆）的理想选择。空间框架结构的主要优点之一是其轻量化特性。与传统的固体结构相比，后者可能笨重且不便，空间框架结构利用梁和节点的网络来创建一个稳定的系统，在不牺牲强度的情况下最大限度地减少材料使用。这不仅降低了施工成本，还通过减少所需原材料的数量使结构更加环保。除了轻量化之外，空间框架结构在设计上也提供了显著的灵活性。建筑师可以创造复杂的形状和形式，而这些在传统施工方法中可能难以实现。空间框架结构的多功能性允许创新设计，这可以增强建筑的美学吸引力，同时保持功能性。例如，英国的伊登项目具有使用空间框架结构建造的几何穹顶，展示了这一技术如何应用于创造视觉上令人惊叹的环境。此外，空间框架结构在承载能力方面非常高效。框架的几何排列允许力量的均匀分布，这意味着这些结构能够承受显著的负载，包括风和地震活动。这一特性使它们特别适合容易发生自然灾害的地区，因为它们即使在极端条件下也能提供安全和稳定。另一个值得一提的方面是与空间框架结构相关的组装和拆卸的便利性。许多这样的框架可以在工地外预制，然后运输到施工地点进行快速组装。这种模块化的方法不仅加快了施工过程，而且还允许在必要时轻松搬迁或扩展该结构。例如，临时活动或展览的结构通常利用空间框架结构，因为它们的适应性和效率。然而，设计和建造空间框架结构时必须考虑到一些挑战。工程师必须仔细分析作用于结构上的力，并确保所有元素之间的连接都是安全的，能够处理预期的负载。此外，虽然美学可能性很大，但可能会受到当地建筑规范和法规的限制，必须遵守。总之，空间框架结构代表了建筑和工程实践的重要进步。其轻量化、灵活和高效的特性使其成为现代建筑的首选，允许创造既实用又视觉上吸引人的创新设计。随着技术的不断发展，我们可以期待在未来看到更多空间框架结构的创造性应用，推动建筑设计和施工的可能性边界。