2020年佩特里尼亚6.2级地震也破坏了坚实的线性基础设施:克罗地亚有类似的活动断层吗?

Tvrtko Korbar, S. Markušić, D. Stanko, D. Penava
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引用次数: 0

摘要

2020年12月29日,毁灭性的6.2级地震袭击了著名的佩特里尼亚震区,对佩特里尼亚、西萨克和格利纳的许多建筑物以及坚实的现代线性基础设施(道路、桥梁、人工河堤、管道等)造成了严重破坏。地震危害不仅取决于应用于EUROCODE 8结构抗震设计的估计同震地面加速度,而且还强烈依赖于当地土壤效应和强震的二次效应(山体滑坡、液化、渗水等)。此外,如果发生像Petrinja事件那样的地表同震破裂,则应评估地壳块体沿着穿过固体物体的断层线的运动。局部场地放大效应是上覆地表沉积物和土壤的几种物理过程(多次反射和衍射、聚焦、共振、波捕获)的结果,导致在受地震影响的不同局部地质单元中观察到不同的破坏分布。此外,多变的地表地形和地形的各种力学性质,如地下水位、斜坡、非均质性、结构不连续和空腔的存在,肯定会造成观测到的破坏,并增加震中地区的地质灾害。在克罗地亚我们能确定多少未知的活动断层?发生在浅层逆冲断层上的强烈地震的地表表现是什么?有没有什么主要的正常活动断层能让地震构造专家和土木工程师感到惊讶?作者在2020年3月22日萨格勒布事件后发表了第一篇科学论文,目前正在研究Kvarner地区和Hrvatsko Zagorje地区的活动构造。此外,克罗地亚科学基金会(HRZZ)刚刚启动了一个新的项目,特别关注土壤动力特性及其对Trakošćan、Šibenik和杜布罗夫尼克的旧文化建筑的地震危险性的影响。
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PETRINJA M6.2 EARTHQUAKE IN 2020 DAMAGED ALSO SOLID LINEAR INFRASTRUCTURE: ARE THERE SIMILAR ACTIVE FAULTS IN CROATIA?
On 29 December 2020 devastating M6.2 earthquake hit well known Petrinja epicentral area, and caused strong damage on many buildings in Petrinja, Sisak, and Glina, as well as on solid modern linear infrastructure (roads, bridges, artificial river embankments, pipelines etc.). The seismic hazard is not depending only on the estimated coseismic ground acceleration that should be used for EUROCODE 8 constructional seismic design, but is also strongly dependent on local soil effects and on the secondary effects of a strong earthquake (landslides, liquefaction, suffosion, etc.). Besides, movement of the crustal blocks along the fault lines that cross the solid objects, in case of surface coseismic rupture such was the Petrinja event, should be evaluated. Local site amplification effects are the results of several physical processes (multiple reflections and diffractions, focusing, resonance, wave trapping) in the overlying superifical deposits and soil, resulting in variable damage distribution that were observed in different local geological units affected by an earthquake. Also, the variable surface topography and various mechanical properties of the terrain such as water table, slopes, presence of heterogeneities, structural discontinuities and cavities, certainly can contribute to the observed damage and increase geological hazard in epicentral area. How many unknown active faults we can identified in Croatia? What could be surface manifestation of a strong earthquake that will occure on a shallow thrust (reverse) fault? Is there any major normal active fault that can surprise seismotectonic experts and civil engineers? The authors published first scientific paper after the Zagreb 22 March 2020 event and are currently working on active tectonics in Kvarner region and Hrvatsko Zagorje. Besides, a new Croatian Science Foundation (HRZZ) project has just been started with special attention on soil dynamic properties and its influence on the seismic hazard of the older cultural buildings in Trakošćan, Šibenik and Dubrovnik.
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PETRINJA M6.2 EARTHQUAKE IN 2020 DAMAGED ALSO SOLID LINEAR INFRASTRUCTURE: ARE THERE SIMILAR ACTIVE FAULTS IN CROATIA? Damage assessment after the Zagreb earthquake – The case study of the educational building Seismic shaking scenarios for city of Zagreb, Croatia BASE EARTHQUAKE
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