rigid frame construction

简明释义

刚架构造

英英释义

例句

1.The new warehouse was designed using rigid frame construction to ensure stability during heavy snow loads.

新仓库采用了刚性框架结构设计，以确保在大雪负荷下的稳定性。

2.The school gymnasium was built with rigid frame construction to withstand strong winds.

学校的体育馆采用了刚性框架结构，以抵御强风。

3.One of the advantages of rigid frame construction is its ability to provide open spaces without columns.

使用刚性框架结构的一个优点是能够提供没有柱子的开放空间。

4.The factory expansion utilized rigid frame construction for its quick assembly and cost-effectiveness.

工厂扩建利用了刚性框架结构，因其组装快速且具有成本效益。

5.Engineers prefer rigid frame construction for high-rise buildings due to its strength and durability.

工程师们更喜欢在高层建筑中使用刚性框架结构，因为它的强度和耐久性。

作文

In the field of civil engineering, various construction methods are employed to achieve strength and stability in buildings. One popular technique is known as rigid frame construction, which has gained significant attention due to its efficiency and durability. This method involves creating a framework of beams and columns that are rigidly connected to one another, allowing the structure to withstand various loads and forces. The primary advantage of rigid frame construction is its ability to distribute loads evenly across the entire structure, thereby enhancing its overall stability.To understand the significance of rigid frame construction, it is essential to consider the basic principles of structural engineering. Structures must be designed to resist forces such as gravity, wind, and seismic activity. In traditional construction methods, walls are often load-bearing, which can limit design flexibility. However, with rigid frame construction, the load is carried by the frame itself, allowing for more open spaces and creative architectural designs.Moreover, rigid frame construction is particularly advantageous in areas prone to earthquakes. The rigid connections between beams and columns provide enhanced resistance against lateral forces, making buildings safer in seismic zones. Engineers can design structures that not only meet safety regulations but also offer aesthetic appeal, demonstrating the versatility of this construction method.Another aspect to consider is the materials used in rigid frame construction. Commonly, steel and reinforced concrete are employed due to their high strength-to-weight ratios. Steel frames, in particular, allow for quicker construction times, as they can be prefabricated and assembled on-site. This efficiency not only reduces labor costs but also minimizes disruptions in urban areas where space is limited.However, like any construction method, rigid frame construction has its challenges. The initial costs can be higher than traditional methods, primarily due to the materials and engineering expertise required. Additionally, designing a rigid frame requires careful planning to ensure that all connections are adequately reinforced to handle potential loads.In conclusion, rigid frame construction represents a significant advancement in building technology, offering numerous benefits in terms of safety, design flexibility, and efficiency. As urbanization continues to rise, the demand for innovative construction methods will only increase. Understanding and implementing rigid frame construction can lead to safer, more resilient buildings that meet the needs of modern society. As engineers and architects continue to explore the possibilities within this framework, the future of construction looks promising, paving the way for more sustainable and aesthetically pleasing structures that can endure the test of time.

在土木工程领域，各种建筑方法被用来实现建筑物的强度和稳定性。一种流行的技术被称为刚性框架结构，由于其效率和耐用性而受到广泛关注。这种方法涉及创建一个梁和柱的框架，它们之间是刚性连接的，从而使结构能够承受各种载荷和力量。刚性框架结构的主要优点是能够均匀分配载荷到整个结构上，从而增强其整体稳定性。要理解刚性框架结构的重要性，有必要考虑结构工程的基本原理。结构必须设计成能够抵抗重力、风和地震等力量。在传统的建筑方法中，墙体通常是承重的，这可能限制设计的灵活性。然而，通过刚性框架结构，载荷由框架本身承载，从而允许更开放的空间和创造性的建筑设计。此外，刚性框架结构在地震频发地区尤其具有优势。梁和柱之间的刚性连接提供了对横向力量的增强抵抗，使建筑在地震区域更安全。工程师可以设计出不仅符合安全规定而且具有美学吸引力的结构，展示了这种建筑方法的多样性。另一个需要考虑的方面是刚性框架结构中使用的材料。通常，钢材和钢筋混凝土被采用，因为它们具有高的强度与重量比。特别是钢框架可以加快施工时间，因为它们可以在工厂预制并在现场组装。这种效率不仅降低了人工成本，还最小化了在城市地区有限空间内的干扰。然而，像任何建筑方法一样，刚性框架结构也面临挑战。初始成本可能高于传统方法，主要是由于所需的材料和工程专业知识。此外，设计刚性框架需要仔细规划，以确保所有连接都得到充分加固，以应对潜在载荷。总之，刚性框架结构代表了建筑技术的一项重大进步，在安全、设计灵活性和效率方面提供了众多好处。随着城市化的不断上升，对创新建筑方法的需求只会增加。理解和实施刚性框架结构可以导致更安全、更具韧性的建筑，满足现代社会的需求。随着工程师和建筑师继续探索这一框架内的可能性，建筑的未来看起来令人期待，为能够经受住时间考验的更可持续和美观的结构铺平了道路。