地震荷载下露天矿边坡动力稳定性模拟分析
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摘要
以某风积土边坡为研究对象,通过对模型进行简化,研究了静荷载和动荷载荷载作用引起风积土的边坡静力安全系数、边坡动力安全系数、屈服地震系数以及破坏类型和动力稳定性判别,探讨了该边坡在地震荷载作用下产生的动力稳定性问题。研究结果表明,地震荷栽作用下此类边坡会因风积土液化而产生流滑破坏。应用ADINA软件对此边坡在地震荷载作用情况下进行了模拟,获得了动荷载作用前后的位移与应力变化关系和此边坡的动力动力安全系数。据此判别出该边坡在EI Centro波动荷载作用下会因风积土液化而产生流滑破坏。该研究结果对风积土边坡的动力稳定研究具有重要的参考价值。
Takes a infinite slope of aeolian soil as the research object,Static safety factor,dynamic safety factor and yield factor of earthquake of aeolian soil slope which aroused by static loads and dynamic loads have been studied.The damage type and how to evaluate dynamic stability have also been studied.Then the settling stability problem of infinite slope is discussed under vibration or earthquake loads.The results show that the slope will produce fluidized landslide under earthquake loads.Then this slope are simulated by ADINA under the earthquake loads and the relationship between displacement and stress are obtained and the dynamic safety factor F_d has been determined.The results show that this slope under EI Centro wave loads will produce fluidized landslide because of the liquefaction of aeolian soil based on the simulation results.The results provide a reference value to dynamic stability of aeolian soil slope.
Takes a infinite slope of aeolian soil as the research object,Static safety factor,dynamic safety factor and yield factor of earthquake of aeolian soil slope which aroused by static loads and dynamic loads have been studied.The damage type and how to evaluate dynamic stability have also been studied.Then the settling stability problem of infinite slope is discussed under vibration or earthquake loads.The results show that the slope will produce fluidized landslide under earthquake loads.Then this slope are simulated by ADINA under the earthquake loads and the relationship between displacement and stress are obtained and the dynamic safety factor F_d has been determined.The results show that this slope under EI Centro wave loads will produce fluidized landslide because of the liquefaction of aeolian soil based on the simulation results.The results provide a reference value to dynamic stability of aeolian soil slope.
引文
[1]王兰民.黄土动力学[M].北京:地震出版社,2003.
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[4]张国栋,刘学,金星,等.基于有限单元法的岩土边坡动力稳定分析及评价方法研究进展[J].工程力学,2008,25(增刊Ⅱ):44-52.
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[13]王兰民,刘红玫,李兰,等.饱和黄土液化机理与特性的试验研究[J].岩土工程学报,2000,22(1):89-94.
[14]刘汉龙,佘跃心,王兰民.C-强夯黄土地基液化试验研究.见:刘汉龙.土动力学与岩土地震工程.北京:中国建筑工业出版社, 2002:218-223.
[15]钱家欢,殷宗泽.土工原理与计算[M].2版.北京:中国水利水电出版社,1996.
[16]白铭学,张苏民.高烈度地震时黄土地层的液化移动[J].工程勘察,1990,6:1-5.
[17]白占平,刘志斌,曹兰柱,等.海州矿北帮F_(El)断层变形区稳定性预测[J].阜新矿业学院学报(自然科学版),1995,14(4):1-6.
[2]王思敬,张菊明.边坡岩体滑动稳定的动力学分析[J].地质科学,1982,2:162-170.
[3]刘忠玉,慕青松.饱和黄土边坡的动力失稳机制研究[J].岩土工程学报,2005,27(9):1 016-1 020.
[4]张国栋,刘学,金星,等.基于有限单元法的岩土边坡动力稳定分析及评价方法研究进展[J].工程力学,2008,25(增刊Ⅱ):44-52.
[5]BI0NDI G,CASCONE E,MAUGERI M,et al.Seismic response of saturated cohesion less slopes[J].Soil Dynamic and Earthquake Engineering, 2000,20:209-215.
[6]邵生俊,谢定义.饱和砂土的动强度及破坏准则[J].岩土工程学报.1991,13(1):24-33.
[7]黄建梁,王威中,薛宏交.坡体地震稳定性的动态分析[J].地震工程与工程振动,1997,17(4):113-122.
[8]刘忠玉,魏建东.饱和黄土边坡的动力稳定性分析[J].岩土力学,2005,26(2):198-202.
[9]刘公社,巫志辉.动荷载下饱和黄土的孔压演化规律及其在地基动力分析中的应用[J].工业建筑,1994,3:40-44.
[10]杨振茂,赵成刚,王兰民,等.饱和黄土的液化特性与稳态强度[J].岩石力学与工程学报,2004,23(22):3 853-3 860.
[11]SARMA S K.Seismic stability of earth dams and embankments[J]. Geotechnique,1975,25:743-61.
[12]余跃心,刘汉龙,高玉峰.饱和黄土孔压增长模式与液化机理试验研究[J].岩土力学,2002,23(4):395-399.
[13]王兰民,刘红玫,李兰,等.饱和黄土液化机理与特性的试验研究[J].岩土工程学报,2000,22(1):89-94.
[14]刘汉龙,佘跃心,王兰民.C-强夯黄土地基液化试验研究.见:刘汉龙.土动力学与岩土地震工程.北京:中国建筑工业出版社, 2002:218-223.
[15]钱家欢,殷宗泽.土工原理与计算[M].2版.北京:中国水利水电出版社,1996.
[16]白铭学,张苏民.高烈度地震时黄土地层的液化移动[J].工程勘察,1990,6:1-5.
[17]白占平,刘志斌,曹兰柱,等.海州矿北帮F_(El)断层变形区稳定性预测[J].阜新矿业学院学报(自然科学版),1995,14(4):1-6.
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