aseismic design

简明释义

耐震设计

英英释义

例句

1.The aseismic design of the bridge ensures its safety during seismic events.

该桥的抗震设计确保在地震发生时的安全性。

2.Many architects specialize in aseismic design to create safer living environments.

许多建筑师专注于抗震设计以创造更安全的居住环境。

3.The new skyscraper incorporates aseismic design to withstand potential earthquakes.

这座新摩天大楼采用了抗震设计以抵御潜在的地震。

4.Incorporating aseismic design features can significantly reduce damage during an earthquake.

融入抗震设计特征可以显著减少地震期间的损害。

5.Engineers are required to follow strict aseismic design guidelines when constructing buildings in earthquake-prone areas.

在地震频发地区建造建筑时，工程师必须遵循严格的抗震设计指南。

作文

In recent years, the importance of aseismic design (抗震设计) has become increasingly evident, especially in regions prone to earthquakes. The concept of aseismic design refers to engineering practices that aim to make structures resistant to seismic forces. This is crucial for ensuring the safety and longevity of buildings, bridges, and other infrastructures in earthquake-prone areas. As urbanization continues to rise, more people are living in cities where the risk of seismic activity is significant. Therefore, understanding and implementing aseismic design principles is essential for architects, engineers, and city planners.The primary goal of aseismic design is to minimize the damage caused by earthquakes. This involves various strategies including the use of flexible materials, reinforced structures, and innovative architectural designs. For instance, buildings designed with a base isolation system can absorb seismic waves, allowing the structure to move independently of the ground motion. Such designs not only protect the integrity of the building but also safeguard the lives of its occupants.Moreover, aseismic design also emphasizes the importance of proper site selection and soil analysis. Engineers must assess the geological conditions before construction begins. Areas with soft soil are more susceptible to seismic waves, which can amplify the shaking effect during an earthquake. By conducting thorough geological surveys and choosing appropriate construction methods, the risks associated with seismic activities can be significantly reduced.Education and awareness about aseismic design are also vital. Many communities are still unaware of the potential dangers posed by earthquakes and the importance of designing buildings that can withstand such forces. Public seminars, workshops, and community engagement can play a significant role in spreading knowledge about aseismic design. When communities are educated about these principles, they can advocate for safer building practices and support policies that prioritize seismic safety.In conclusion, the significance of aseismic design cannot be overstated. As we continue to face the challenges of natural disasters, it is imperative that we adopt and promote engineering practices that prioritize safety and resilience. Architects and engineers must work collaboratively to innovate and implement aseismic design techniques in their projects. Ultimately, investing in aseismic design is not just about protecting structures; it is about safeguarding lives and ensuring a safer future for all. By prioritizing these practices, we can create communities that are better equipped to withstand the forces of nature, thus reducing the risk of catastrophic loss during seismic events.

近年来，抗震设计的重要性变得愈发明显，特别是在易发生地震的地区。抗震设计的概念是指旨在使结构抵御地震力的工程实践。这对于确保建筑、桥梁和其他基础设施在地震多发区的安全和耐久性至关重要。随着城市化的不断加速，越来越多的人居住在地震风险显著的城市。因此，理解和实施抗震设计原则对于建筑师、工程师和城市规划者来说是必不可少的。抗震设计的主要目标是最大限度地减少地震造成的损害。这涉及到多种策略，包括使用柔性材料、加固结构和创新的建筑设计。例如，采用基础隔震系统设计的建筑可以吸收地震波，使结构能够独立于地面运动。这种设计不仅能保护建筑的完整性，还能保障其居住者的生命安全。此外，抗震设计还强调了适当选址和土壤分析的重要性。在建设开始之前，工程师必须评估地质条件。软土区域对地震波的敏感性更高，可能在地震期间放大摇晃效果。通过进行全面的地质调查并选择合适的施工方法，可以显著降低与地震活动相关的风险。关于抗震设计的教育和意识也至关重要。许多社区仍然对地震带来的潜在危险及设计能够承受此类力量的建筑的重要性缺乏了解。公众研讨会、工作坊和社区参与可以在传播抗震设计知识方面发挥重要作用。当社区了解这些原则时，他们可以倡导更安全的建筑实践，并支持优先考虑地震安全的政策。总之，抗震设计的重要性不容小觑。随着我们继续面临自然灾害的挑战，采纳和推广以安全和韧性为重心的工程实践显得尤为重要。建筑师和工程师必须协同合作，在他们的项目中创新和实施抗震设计技术。最终，投资于抗震设计不仅仅是保护结构；它更是保障生命安全，确保我们所有人更安全的未来。通过优先考虑这些实践，我们可以创建更好地装备以抵御自然力量的社区，从而在地震事件中降低灾难性损失的风险。