aseismic joint

简明释义

防震缝;

英英释义

例句

1.The use of aseismic joints can significantly reduce the stress on structural components.

使用抗震缝可以显著减少结构组件上的压力。

2.During the renovation, the contractor added aseismic joints to comply with modern safety standards.

在翻修过程中，承包商添加了抗震缝以符合现代安全标准。

3.The building was designed with an aseismic joint to minimize damage during earthquakes.

这栋建筑设计了一个抗震缝以减少在地震期间的损害。

4.The seismic analysis showed that the aseismic joint would improve the building's performance.

地震分析显示，抗震缝将改善建筑的性能。

5.Engineers recommended installing aseismic joints in the bridge to enhance its stability.

工程师建议在桥梁中安装抗震缝以增强其稳定性。

作文

In the field of civil engineering, the design and construction of structures that can withstand seismic activities is of paramount importance. One critical element in this regard is the use of an aseismic joint, which is a specialized component designed to absorb and dissipate energy during an earthquake. This innovation not only enhances the safety and integrity of buildings but also minimizes damage, thereby protecting both human lives and property. Understanding the role of aseismic joints in modern architecture is essential for engineers and architects alike. The primary function of an aseismic joint is to allow for relative movement between different parts of a structure during seismic events. Buildings are often constructed with various materials, each having distinct properties and responses to stress. When an earthquake occurs, these materials can expand, contract, or shift, leading to potential structural failure. An aseismic joint acts as a buffer, accommodating these movements without compromising the overall stability of the building. Furthermore, the incorporation of aseismic joints into architectural designs is not merely a reactive measure; it is a proactive strategy aimed at enhancing resilience. For instance, in high-rise buildings, where the sway during an earthquake can be significant, the use of aseismic joints allows for controlled movement, preventing catastrophic failure. This aspect is particularly crucial in densely populated urban areas where the risk of seismic activity is heightened. Additionally, aseismic joints can be tailored to meet specific design requirements. Engineers can select from various types of joints, such as expansion joints, contraction joints, and isolation joints, depending on the anticipated seismic forces and the unique characteristics of the structure. This customization ensures that each building can effectively respond to the specific challenges posed by its environment. Another significant advantage of using aseismic joints is their contribution to the longevity of structures. By minimizing the stress and strain experienced by building components during seismic events, these joints help maintain the integrity of the materials used. This durability not only extends the lifespan of the buildings but also reduces maintenance costs over time. In conclusion, the integration of aseismic joints into building designs represents a vital aspect of modern engineering practices aimed at ensuring safety and resilience against earthquakes. As cities continue to grow and the threat of seismic activity remains, the importance of understanding and implementing aseismic joints cannot be overstated. It is imperative for engineers and architects to remain informed about advancements in this area, as the effective use of aseismic joints will undoubtedly play a crucial role in shaping the future of safe urban development.

在土木工程领域，设计和建造能够抵御地震活动的结构至关重要。一个关键的元素是使用抗震缝，这是一种专门设计的组件，旨在在地震期间吸收和耗散能量。这项创新不仅增强了建筑物的安全性和完整性，还最大限度地减少了损坏，从而保护人类生命和财产。理解抗震缝在现代建筑中的作用对工程师和建筑师来说都是至关重要的。抗震缝的主要功能是在地震事件期间允许结构不同部分之间的相对运动。建筑通常由各种材料构成，每种材料具有不同的特性和应力响应。当地震发生时，这些材料可能会膨胀、收缩或移动，导致潜在的结构失败。抗震缝充当缓冲器，在不妨碍整个建筑稳定性的情况下，容纳这些运动。此外，将抗震缝纳入建筑设计中不仅仅是一种反应措施；它是一种旨在增强韧性的主动策略。例如，在高层建筑中，由于地震期间的摇摆可能非常显著，使用抗震缝可以实现受控运动，防止灾难性失败。这一点在地震活动风险较高的拥挤城市地区尤为重要。此外，抗震缝可以根据具体设计要求进行定制。工程师可以根据预期的地震力和结构的独特特征，从扩展缝、收缩缝和隔离缝等各种类型的缝隙中进行选择。这种定制确保每栋建筑能够有效应对其环境所带来的特定挑战。使用抗震缝的另一个显著优势是它们对结构耐用性的贡献。通过最小化在地震事件期间建筑部件所承受的应力和应变，这些缝隙有助于保持所用材料的完整性。这种耐用性不仅延长了建筑的使用寿命，还降低了长期维护成本。总之，将抗震缝整合到建筑设计中代表了现代工程实践中确保安全和抗震能力的重要方面。随着城市的不断发展和地震活动威胁的持续存在，理解和实施抗震缝的重要性不容小觑。工程师和建筑师必须保持对这一领域进展的关注，因为有效使用抗震缝无疑将在塑造安全城市发展的未来中发挥关键作用。