Non-linear site response and liquefaction analysis of soil site in Kahramanmaras during the Mw 7.7 and Mw 7.6 Turkey earthquakes

IF 5.1 2区 工程技术 Q1 ENGINEERING, MULTIDISCIPLINARY
Ersin Güler
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引用次数: 0

Abstract

In Turkey, one of the most important earthquake belts in Europe, two major earthquakes (Mw: 7.7 and 7.6) occurred about 8 h apart in Kahramanmaraş province on February 6, 2023. Located on the South Anatolian Fault Zone (EAFZ), Kahramanmaraş province and 10 surrounding provinces were affected by the earthquake, which killed approximately 50,000 people and injured approximately 250,000 people. When the cause of this effect was analyzed, it was determined that the building stock of the region was old, as well as the peak ground acceleration (PGA) values that occurred on the surface and to which the structures were exposed. In addition to structural problems, it has been determined that there are significant ground problems such as ground amplification and ground liquefaction in the geotechnical field. For this reason, it is necessary to accurately determine the spectral acceleration values, which show important parameters in the design of buildings, and to take necessary precautions by identifying problems such as soil bearing capacity, settlement problem, liquefaction, and soil amplification in advance. Turkey Building Earthquake Code (TEC 2019) entered into force in 2019. In this study, surface acceleration records exposed to the structures in the region were analyzed. Earthquake acceleration records were obtained from the stations closest to the epicenters of the earthquakes that occurred in Elbistan and Pazarcık in Kahramanmaraş province, and soil amplification analysis and liquefaction potential risk analysis were performed at 3 different points in Kahramanmaraş province. In addition, 11 earthquake acceleration records were selected from different parts of the world reflecting the earthquake characteristics of the region and the analysis was repeated and the design spectrum was compared with the data obtained from the field. Site-specific soil behavior analyses were performed in the study where the existing conditions of the structures in the region were also examined. The data obtained show that the regulation does not fully reflect the field in cases where the structures are exposed to high acceleration values on the surface due to the soil structure, at the same time, liquefaction problems are high and the structures have not undergone the necessary ground improvement processes.

土耳其 7.7 级和 7.6 级地震期间卡赫拉曼马拉什土壤场地的非线性场地响应和液化分析
土耳其是欧洲最重要的地震带之一,2023 年 2 月 6 日,卡赫拉曼马拉什省相隔约 8 小时发生了两次大地震(震级分别为 7.7 和 7.6)。卡赫拉曼马拉什省位于南安纳托利亚断裂带(EAFZ)上,该省及周边 10 个省都受到了地震的影响,地震造成约 50,000 人死亡,约 250,000 人受伤。在对造成这一影响的原因进行分析时,确定该地区的建筑存量老旧,以及地表发生的峰值地面加速度(PGA)值和建筑结构所承受的峰值地面加速度(PGA)值。除结构问题外,还确定在岩土工程领域存在严重的地面问题,如地面放大和地面液化。因此,有必要准确确定频谱加速度值,它是建筑物设计中的重要参数,并通过提前确定土壤承载力、沉降问题、液化和土壤膨胀等问题来采取必要的预防措施。土耳其建筑抗震规范(TEC 2019)于 2019 年生效。本研究分析了该地区结构暴露的地表加速度记录。地震加速度记录来自距离卡赫拉曼马拉什省埃尔比斯坦和帕扎尔奇克地震震中最近的台站,并在卡赫拉曼马拉什省的 3 个不同点进行了土壤放大分析和液化潜在风险分析。此外,还从世界不同地区选取了 11 个反映该地区地震特征的地震加速度记录,进行了重复分析,并将设计频谱与实地获得的数据进行了比较。在研究中还进行了特定场地土壤行为分析,并对该地区结构的现有条件进行了研究。获得的数据表明,在一些情况下,由于土壤结构的原因,建筑物表面的加速度值较高,同时液化问题严重,而且建筑物没有经过必要的地基改良处理,因此该规定并不能完全反映实地情况。
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来源期刊
Engineering Science and Technology-An International Journal-Jestech
Engineering Science and Technology-An International Journal-Jestech Materials Science-Electronic, Optical and Magnetic Materials
CiteScore
11.20
自引率
3.50%
发文量
153
审稿时长
22 days
期刊介绍: Engineering Science and Technology, an International Journal (JESTECH) (formerly Technology), a peer-reviewed quarterly engineering journal, publishes both theoretical and experimental high quality papers of permanent interest, not previously published in journals, in the field of engineering and applied science which aims to promote the theory and practice of technology and engineering. In addition to peer-reviewed original research papers, the Editorial Board welcomes original research reports, state-of-the-art reviews and communications in the broadly defined field of engineering science and technology. The scope of JESTECH includes a wide spectrum of subjects including: -Electrical/Electronics and Computer Engineering (Biomedical Engineering and Instrumentation; Coding, Cryptography, and Information Protection; Communications, Networks, Mobile Computing and Distributed Systems; Compilers and Operating Systems; Computer Architecture, Parallel Processing, and Dependability; Computer Vision and Robotics; Control Theory; Electromagnetic Waves, Microwave Techniques and Antennas; Embedded Systems; Integrated Circuits, VLSI Design, Testing, and CAD; Microelectromechanical Systems; Microelectronics, and Electronic Devices and Circuits; Power, Energy and Energy Conversion Systems; Signal, Image, and Speech Processing) -Mechanical and Civil Engineering (Automotive Technologies; Biomechanics; Construction Materials; Design and Manufacturing; Dynamics and Control; Energy Generation, Utilization, Conversion, and Storage; Fluid Mechanics and Hydraulics; Heat and Mass Transfer; Micro-Nano Sciences; Renewable and Sustainable Energy Technologies; Robotics and Mechatronics; Solid Mechanics and Structure; Thermal Sciences) -Metallurgical and Materials Engineering (Advanced Materials Science; Biomaterials; Ceramic and Inorgnanic Materials; Electronic-Magnetic Materials; Energy and Environment; Materials Characterizastion; Metallurgy; Polymers and Nanocomposites)
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