rigid construction

简明释义

刚性结构

英英释义

例句

1.In earthquake-prone areas, rigid construction is often avoided to allow for flexibility.

在地震多发地区，通常避免使用刚性结构以便于灵活应对。

2.The use of rigid construction materials can significantly increase the lifespan of a structure.

使用刚性结构材料可以显著延长建筑物的使用寿命。

3.The bridge was built with a rigid construction to withstand strong winds.

这座桥采用了刚性结构以抵御强风。

4.While rigid construction provides strength, it can also lead to cracking under pressure.

虽然刚性结构提供了强度，但在压力下也可能导致开裂。

5.The architect favored rigid construction for the new office building to ensure durability.

建筑师倾向于为新办公楼采用刚性结构以确保耐用性。

作文

In the world of architecture and engineering, the term rigid construction refers to a building technique that emphasizes structural integrity and stability through the use of inflexible materials and designs. This method is often contrasted with more flexible approaches that allow for movement and adaptation to environmental forces such as wind or seismic activity. The importance of rigid construction cannot be overstated, especially in regions where natural disasters are a common occurrence. For instance, buildings designed with rigid construction principles tend to withstand earthquakes better than those that are not. This is due to their ability to maintain their shape and resist deformation under stress.One of the primary advantages of rigid construction is its ability to provide a high level of safety for occupants. Structures that utilize this approach are often built with materials like reinforced concrete or steel, which are known for their strength and durability. These materials help to create a solid framework that can support heavy loads and endure harsh weather conditions. As a result, buildings constructed with rigid construction techniques are less likely to suffer from catastrophic failures, making them a preferred choice for schools, hospitals, and other critical infrastructure.However, the use of rigid construction is not without its drawbacks. One significant limitation is that it can lead to buildings that are less adaptable to change. For example, if a building needs to be modified to accommodate new technologies or changing usage patterns, the rigid nature of its construction may pose challenges. Additionally, rigid construction can sometimes result in higher costs during the initial building phase due to the need for specialized materials and engineering expertise.Despite these challenges, advancements in technology and materials science are helping to mitigate some of the downsides associated with rigid construction. Engineers are now able to design structures that incorporate elements of both rigidity and flexibility, allowing for safer buildings that can also adapt to changing conditions. Innovations such as base isolators and damping systems are being integrated into rigid construction designs to enhance their performance during seismic events.In conclusion, rigid construction plays a crucial role in modern architecture and engineering. Its focus on safety and structural integrity makes it an essential choice for many types of buildings, particularly in areas prone to natural disasters. While there are challenges associated with this approach, ongoing advancements in technology continue to improve its feasibility and effectiveness. As we move forward, finding the right balance between rigidity and adaptability will be key to creating resilient structures that can withstand the test of time and environmental pressures.

在建筑和工程领域，术语rigid construction指的是一种建筑技术，该技术通过使用不灵活的材料和设计来强调结构完整性和稳定性。这种方法通常与允许运动和适应环境力量（如风或地震活动）的更灵活的方法形成对比。尤其是在自然灾害频发的地区，rigid construction的重要性不容小觑。例如，采用rigid construction原理设计的建筑通常能比那些未采用此原理的建筑更好地抵御地震。这是因为它们能够保持形状并在压力下抵抗变形。rigid construction的主要优势之一是能够为居住者提供高水平的安全性。利用这种方法建造的结构通常采用钢筋混凝土或钢材等材料，这些材料以其强度和耐久性而闻名。这些材料有助于创建一个坚固的框架，可以承受重负荷并经受恶劣的天气条件。因此，采用rigid construction技术建造的建筑不太可能发生灾难性故障，使其成为学校、医院和其他关键基础设施的首选。然而，使用rigid construction并非没有缺点。一个显著的限制是，它可能导致建筑物不太适应变化。例如，如果需要修改建筑以适应新技术或变化的使用模式，其刚性结构可能会带来挑战。此外，由于需要专业材料和工程专业知识，rigid construction在初始建造阶段的成本有时会更高。尽管面临这些挑战，科技和材料科学的进步正在帮助缓解与rigid construction相关的一些缺点。工程师现在能够设计出将刚性和柔韧性相结合的结构，使其既安全又能适应变化的条件。基础隔离器和阻尼系统等创新正在被集成到rigid construction设计中，以增强其在地震事件中的表现。总之，rigid construction在现代建筑和工程中发挥着至关重要的作用。它关注安全性和结构完整性，使其成为许多类型建筑的必要选择，特别是在自然灾害频发的地区。尽管这种方法存在一些挑战，但技术的不断进步仍在改善其可行性和有效性。随着我们向前发展，找到刚性和适应性之间的正确平衡，将是创造能够经受时间考验和环境压力的韧性结构的关键。