平原土坝地震液化的能量判别模型及数值分析OA
Energy discrimination model for earthquake liquefaction of plain earth dams and numerical analysis
含透水层软基上平原土坝的地震液化问题严重威胁其工程安全,现有基于应力的液化判别方法难以顾及地震荷载的持时和随机特性,限制了其评估的准确性.本研究构建了一种基于能量的液化判别框架.该框架结合有限元数值模拟,以单位体积土体吸收的归一化耗散能为核心指标,用以评估液化触发的可能性.利用含砂土液化数据的典型历史地震记录对该方法进行验证,结果显示其具有高准确性.以平原水库土坝为工程实例,建立了三维有限元分析模型,模拟了地震动的倾斜入射,并应用所建方法预测了潜在液化区.结果表明,能量法与传统应力法预测的液化区域总体吻合,均集中于上下游坝脚,但前者可更精细地描述液化范围.该方法为平原土坝的地震液化评估提供了重要的理论参考和更可靠的分析手段.
Liquefaction of earth dams in plain areas with soft foundation of permeable layer poses a great threat to their safety.Previous liquefaction studies widely used in engineering were based on the stress of foundation soil,but this leads to a low accuracy due to the neglected effects of seismic load duration and randomness.This study presents an energy-based liquefaction discrimination method that calculates the normalized dissipated energy per unit soil volume and is implemented via finite element calculations for prediction of the liquefaction triggering possibility.We have verified the method using the historical records of soil liquefaction and achieved a good accuracy.In the case study of a plain reservoir,a three-dimensional model of its earth dam is constructed with the inclined incidence of ground motion being simulated,and the liquefaction region is predicted by this energy-based method.The results show its predictions improve significantly in comparison with the traditional stress method:the liquefaction locations are generally the same,both occurring at the dam toe and heel,but its ranges are more refined.Thus,our method would help theoretical and practical analysis of seismic liquefaction evaluation of earth dams in plain areas.
蔡志为;崔溦;季树凯
天津大学 水利工程智能建设与运维全国重点实验室,天津 300350天津大学 水利工程智能建设与运维全国重点实验室,天津 300350||天津大学 中国地震局地震工程综合模拟与城乡抗震韧性重点实验室,天津 300350天津水务投资集团有限公司,天津 300202
建筑与水利
土坝地震液化能量判别模型有限元分析
earth damseismic liquefactionenergy discrimination modelfinite element analysis
《水力发电学报》 2026 (5)
69-79,11
国家自然科学基金资助项目(52479131)
评论