aseismic district

简明释义

无震区;

英英释义

例句

1.Investors are more likely to fund projects in an aseismic district due to lower risk factors.

投资者更可能在抗震区资助项目，因为风险因素较低。

2.The government has designated this area as an aseismic district to promote safe construction practices.

政府已将该地区指定为抗震区以促进安全的建筑实践。

3.Schools located in aseismic districts can implement more relaxed safety drills.

位于抗震区的学校可以实施更放松的安全演练。

4.Urban planners often prioritize the development of aseismic districts to ensure community safety.

城市规划者通常优先发展抗震区以确保社区安全。

5.Living in an aseismic district gives residents peace of mind during earthquake season.

住在抗震区让居民在地震季节感到安心。

作文

In recent years, the increasing impact of climate change and natural disasters has prompted urban planners and policymakers to focus on creating safer living environments. One concept that has gained significant attention in this context is the idea of an aseismic district, which refers to a geographical area designed and constructed to minimize the risk of earthquake damage. These districts are engineered with specific materials and architectural designs that can withstand seismic activities, ensuring the safety of their inhabitants. As urbanization continues to expand, particularly in regions prone to earthquakes, understanding and implementing the principles of an aseismic district becomes crucial.The importance of developing aseismic districts cannot be overstated, especially in countries situated along tectonic plate boundaries. For instance, Japan and California are well-known for their seismic activity, making it imperative for cities in these regions to adopt measures that protect residents from potential disasters. The design of an aseismic district involves not only the construction of buildings that can endure tremors but also the planning of infrastructure, such as roads and bridges, that can remain functional during and after an earthquake.One of the key features of an aseismic district is the use of advanced engineering techniques. Buildings in these areas are often constructed with flexible materials that allow them to sway during an earthquake, rather than crack or collapse. Additionally, the layout of the district may include open spaces and strategically placed parks that can serve as evacuation zones if necessary. This thoughtful planning ensures that residents have safe places to gather and access emergency services in the event of a disaster.Moreover, community awareness and preparedness play a vital role in the effectiveness of an aseismic district. Educating residents about earthquake safety measures, such as drop, cover, and hold on, can significantly reduce injuries during an earthquake. Local governments can organize drills and workshops to enhance community resilience, fostering a culture of preparedness that complements the physical safety measures put in place.Another aspect of aseismic districts is the integration of technology in monitoring and predicting seismic activity. Advanced sensors can be installed throughout the district to provide real-time data on ground movements, allowing for timely alerts and responses. This technological integration not only enhances safety but also builds public confidence in the measures taken to protect them.In conclusion, the development of aseismic districts represents a proactive approach to urban planning in earthquake-prone areas. By combining innovative engineering, thoughtful design, community engagement, and technology, these districts aim to create safer living environments for their residents. As we continue to face the challenges posed by natural disasters, the implementation of aseismic districts will be essential in safeguarding lives and promoting sustainable urban growth. The future of urban planning must prioritize safety and resilience, ensuring that communities can thrive even in the face of adversity.

近年来，气候变化和自然灾害的影响日益增加，促使城市规划者和决策者关注创建更安全的生活环境。一个在这种背景下受到显著关注的概念是抗震区，指的是一个地理区域，旨在通过设计和建造来最小化地震损害的风险。这些地区采用特定的材料和建筑设计，可以抵御地震活动，确保居民的安全。随着城市化的持续扩展，特别是在地震频发的地区，理解和实施抗震区的原则变得至关重要。开发抗震区的重要性不容低估，特别是在位于构造板块边界的国家。例如，日本和加利福尼亚因其地震活动而闻名，这使得这些地区的城市必须采取措施来保护居民免受潜在灾害的影响。抗震区的设计不仅包括能够承受震动的建筑物的建造，还包括基础设施的规划，例如道路和桥梁，在地震期间和之后能够保持功能。抗震区的一个关键特征是使用先进的工程技术。这些地区的建筑通常采用灵活的材料建造，使它们在地震期间能够摇摆，而不是开裂或倒塌。此外，区域的布局可能包括开放空间和战略性设置的公园，可以在必要时作为疏散区。这种周到的规划确保居民在灾难发生时有安全的聚集地点并可以获得紧急服务。此外，社区意识和准备在抗震区的有效性中发挥着至关重要的作用。教育居民有关地震安全措施，例如“趴下、掩护和保持”，可以显著减少地震期间的伤害。地方政府可以组织演习和研讨会，以增强社区的韧性，培养一种与所采取的物理安全措施相辅相成的准备文化。抗震区的另一个方面是将技术整合到监测和预测地震活动中。可以在整个区域安装先进的传感器，以提供实时的地面运动数据，从而允许及时的警报和响应。这种技术整合不仅增强了安全性，还增强了公众对保护他们的措施的信心。总之，抗震区的开发代表了一种针对地震频发地区城市规划的积极主动的方法。通过结合创新的工程、周到的设计、社区参与和技术，这些区域旨在为居民创造更安全的生活环境。随着我们继续面临自然灾害带来的挑战，实施抗震区在保护生命和促进可持续城市发展方面将是必不可少的。城市规划的未来必须优先考虑安全和韧性，确保社区即使在逆境中也能蓬勃发展。