aseismic

简明释义

英[eɪˈzaɪzmɪk]美[eɪˈzaɪzmɪk]

adj. 无地震活动的；抗震的

英英释义

单词用法

同义词

反义词

例句

1.The aseismic test of buried pipe crossing fault is conducted. Some m.

首次进行了跨断层埋地管道抗震试验。取得了一些有益的结论。

2.The tests indicate that this type of joints has better aseismic behaviour.

试验表明，这类节点具有较好的抗震性能。

3.This result can offer reference for seismic risk analysis and structural aseismic checking computation.

该结果对地震危险性分析以及结构抗震验算有一定参考价值。

4.In this paper, an approach for the fuzzy optimum aseismic design of structures is further proposed.

本文进一步提出了抗震结构模糊优化设计的方法。

5.The results obtained in this paper can guide the design of aseismic structural control system.

本文的结论对上部结构抗震控制措施的设计具有一定的理论指导意义。

6.According to the property of the earthquake, the methods of aseismic calculation are speciafied and compared in this paper.

根据地震的特点，对抗震计算方法作了分类和比较。

7.Certain parts of the plate boundaries along subduction zones appear to be aseismic.

沿消减带的某些板块边界似乎长期无震。

8.The aseismic design development of masonry structure is always concerned by engineers.

砌体结构的抗震设计进展也始终为结构工程师所关注。

9.The dynamic structural behaviour and basic analysis method for aseismic design of underground structures are studied.

本文分析论述了地下结构的抗震特性，抗震分析的基本方法。

10.Architects are increasingly focusing on aseismic 抗震的 designs in urban planning.

建筑师们在城市规划中越来越关注抗震的设计。

11.The aseismic 抗震的 foundation helped the structure withstand the tremors of the recent quake.

这个抗震的基础帮助建筑物抵御了最近地震的震动。

12.The new building was designed to be aseismic 抗震的, ensuring safety during earthquakes.

这座新建筑被设计为抗震的，确保在地震期间的安全。

13.The government mandated that all new constructions be aseismic 抗震的 to protect residents.

政府规定所有新建建筑必须是抗震的以保护居民。

14.Engineers are developing aseismic 抗震的 technologies for bridges in earthquake-prone areas.

工程师们正在为地震频发地区的桥梁开发抗震的技术。

作文

In recent years, the topic of earthquake preparedness has gained significant attention, especially in regions that are prone to seismic activity. However, there are also areas that are classified as aseismic (无震动的), meaning they experience little to no seismic activity. Understanding the characteristics and implications of aseismic zones is crucial for urban planning, infrastructure development, and disaster management.Firstly, it is important to define what aseismic means in a geographical context. An aseismic area is one that does not experience significant earthquakes or tremors. This could be due to various geological factors, such as the absence of tectonic plate boundaries or fault lines in the vicinity. For instance, regions situated in the interior of tectonic plates, far from active fault lines, are often considered aseismic. This characteristic can provide a false sense of security to residents and planners alike, leading them to underestimate the importance of having robust building codes and emergency response plans.On the other hand, the concept of aseismic zones can sometimes lead to complacency. People living in these areas might believe that they are entirely safe from natural disasters. However, it is essential to recognize that while aseismic regions may not be prone to earthquakes, they are not immune to other types of natural disasters, such as floods, hurricanes, or landslides. Thus, even in aseismic areas, it is vital to have comprehensive disaster preparedness strategies in place.Moreover, the classification of an area as aseismic does not mean that it will always remain so. Geological conditions can change over time due to various factors, including human activities like mining or drilling, which can induce seismic events in previously stable regions. Therefore, continuous monitoring and research are necessary to ensure that urban planners and local governments are aware of any potential changes in seismic risk.In addition to these considerations, the implications of being located in an aseismic region can also affect economic development. Areas with low seismic risk may attract businesses and investors looking for stability. This can lead to growth and development opportunities that might not be available in more seismically active regions. However, this economic advantage must be balanced with the understanding that risks from other natural disasters still exist.Education plays a critical role in ensuring that residents of aseismic areas are aware of the potential risks associated with living in such regions. Schools and community organizations should provide information on disaster preparedness, emphasizing that safety measures are necessary regardless of the seismic classification of an area. By fostering a culture of preparedness, communities can better protect themselves against all forms of natural disasters.In conclusion, while aseismic (无震动的) regions may offer a sense of security due to their low risk of earthquakes, it is essential to remain vigilant and prepared for other types of natural disasters. Understanding the characteristics of aseismic areas, along with their potential vulnerabilities, is crucial for effective urban planning and disaster management. By prioritizing education and preparedness, communities can ensure a safer future for their residents, regardless of their seismic classification.

近年来，地震准备的话题引起了广泛关注，特别是在那些易发生地震的地区。然而，也有一些地区被归类为无震动的，即几乎没有地震活动。理解无震动的区域的特征及其影响对城市规划、基础设施发展和灾害管理至关重要。首先，在地理背景下定义无震动的的含义是重要的。一个无震动的区域是指没有显著地震或震动的地方。这可能由于各种地质因素造成，例如附近缺乏构造板块边界或断层线。例如，位于构造板块内部、远离活跃断层线的地区通常被认为是无震动的。这一特征可能给居民和规划者带来一种虚假的安全感，使他们低估了拥有健全建筑规范和应急响应计划的重要性。另一方面，无震动的区域的概念有时会导致自满。生活在这些地区的人们可能认为他们完全免受自然灾害的威胁。然而，必须认识到，尽管无震动的地区可能不易发生地震，但它们并非对其他类型的自然灾害如洪水、飓风或山体滑坡免疫。因此，即使在无震动的地区，制定全面的灾害准备策略仍然至关重要。此外，将一个地区分类为无震动的并不意味着它将永远保持如此。由于各种因素，包括人类活动（如采矿或钻探），地质条件可能会随着时间的推移而改变，这可能会在之前稳定的地区诱发地震事件。因此，持续的监测和研究是必要的，以确保城市规划者和地方政府了解任何潜在的地震风险变化。位于无震动的区域的地理位置的影响还可能影响经济发展。低地震风险的地区可能吸引寻求稳定的企业和投资者。这可能导致增长和发展机会，而这些机会在更具地震活跃性的地区可能无法获得。然而，这种经济优势必须与认识到其他自然灾害的风险并存。教育在确保无震动的地区的居民意识到生活在这些地区的潜在风险中发挥着至关重要的作用。学校和社区组织应提供有关灾害准备的信息，强调无论区域的地震分类如何，安全措施都是必要的。通过培养准备文化，社区可以更好地保护自己免受各种自然灾害的侵害。总之，尽管无震动的（无震动的）地区由于其低地震风险可能提供一种安全感，但保持警惕并为其他类型的自然灾害做好准备至关重要。理解无震动的区域的特征及其潜在脆弱性对于有效的城市规划和灾害管理至关重要。通过优先考虑教育和准备，社区可以确保其居民的未来更加安全，无论他们的地震分类如何。