车福东, 王涛, 辛鹏, 张泽林, 梁昌玉, 刘甲美. 近远震作用下黄土滑坡动力响应与变形——以甘肃天水震区黎坪村滑坡为例[J]. 地质通报, 2020, 39(12): 1981-1992.
    引用本文: 车福东, 王涛, 辛鹏, 张泽林, 梁昌玉, 刘甲美. 近远震作用下黄土滑坡动力响应与变形——以甘肃天水震区黎坪村滑坡为例[J]. 地质通报, 2020, 39(12): 1981-1992.
    CHE Fudong, WANG Tao, XIN Peng, ZHANG Zelin, LIANG Changyu, LIU Jiamei. Investigation of dynamic response and deformation characteristics of loess landslide under near and far earthquakes: A case study of Liping landslide in Tianshui earthquake area, Gansu Province[J]. Geological Bulletin of China, 2020, 39(12): 1981-1992.
    Citation: CHE Fudong, WANG Tao, XIN Peng, ZHANG Zelin, LIANG Changyu, LIU Jiamei. Investigation of dynamic response and deformation characteristics of loess landslide under near and far earthquakes: A case study of Liping landslide in Tianshui earthquake area, Gansu Province[J]. Geological Bulletin of China, 2020, 39(12): 1981-1992.

    近远震作用下黄土滑坡动力响应与变形——以甘肃天水震区黎坪村滑坡为例

    Investigation of dynamic response and deformation characteristics of loess landslide under near and far earthquakes: A case study of Liping landslide in Tianshui earthquake area, Gansu Province

    • 摘要: 中国黄土高原区地震滑坡灾害效应重、潜在风险高,地震滑坡响应和变形机理是研究热点之一。以天水震区黎坪村大型黄土滑坡为例,采用标准正弦波探讨了近远震地震动要素对滑坡动力响应的影响特征,采用汶川远震和岷县近震地震动时程记录反演了滑坡实际变形特征。结果显示,测点PGA放大系数随振幅的变化规律与坡体位置有关,测点PGA放大系数在坡体位置大于0.75倍坡高时,随振幅的增加而减小;当小于0.75倍坡高时,随振幅的增加而显著增强;测点PGA放大系数与频率变化呈负相关性,即随着频率的增加而减小。坡体变形与振幅和持时变化呈正相关性,即测点最大水平和竖直位移随着振幅和持时增加而增加,滑坡急剧变形的临界幅值约为0.05 g;坡体变形与频率变化呈负相关性,坡体测点最大水平和竖直位移随频率变大呈下降趋势,滑坡急剧变形临界频率约为5 Hz;对比分析显示,振幅对坡体失稳的影响程度大于频率的影响程度。相比岷县近震,坡体主滑体滑动与汶川远震产生的高幅值、低频率及长持时的地震波作用密不可分,表明在地震滑坡稳定性研究时,如果忽视远场强震影响,可能导致潜在安全风险。关于近震和远震作用下滑坡动力响应及其变形差异研究方法对地震滑坡稳定性分析研究具有借鉴意义。

       

      Abstract: Seismic landslides in the loess plateau of China have severe disastrous effects and high potential risks.The response and deformation mechanism of seismic landslides is one of the hot topics of research.Taking the large-scale loess landslide in Liping Village in the Tianshui earthquake area as an example, the authors used the standard sine wave to explore the characteristics of the dynamic response influence on the landslide from local and remote earthquake ground motion elements, and inverted the actual Wenchuan remote earthquake and the local earthquake in Minxian County.According to the results obtained, the variation of PGA amplification factor at the measuring point with amplitude is related to the position of monitoring point:when the height of monitoring point is greater than 0.75 times overall height of the slope, the PGA amplification factor of monitoring point basically decreases with the increase of amplitude; when the height of monitoring point is less than 0.75 times overall height of the slope, the PGA amplification factor of monitoring point increases significantly with the increase of amplitude; the PGA amplification factor at the measuring point is negatively correlated with the frequency.Slope deformation is positively correlated with amplitude and duration:when the amplitude and duration increase, the maximum horizontal and vertical displacement of monitoring points shows an increasing trend, the critical amplitude of the slope body's sharp deformation is about 0.05 g; when slope deformation is negatively correlated with frequency, the frequency increases, the maximum horizontal and vertical displacement of monitoring points decreases, the critical frequency of rapid deformation is about 5 Hz; the impact of amplitude on slope instability is greater than that of frequency on slope instability.Compared with the local earthquake in Minxian, the movement of main sliding body is inseparable from the high amplitude, low frequency, and long-lasting seismic waves generated by the Wenchuan earthquake.If the strong far earthquakes is ignored in the study of earthquake landslide stability Impact, significant safety risks may occur.In this paper, the research method about dynamic response and deformation difference of landslides caused by near and far earthquakes has certain reference significance for the research on earthquake landslide stability.

       

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