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Experimental study of development of strain and pore water pressure during liquefaction of saturated Lanzhou loess

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ã€Authorã€‘ SUN Hai-mei1,2,WANG Lan-ming1,2,WANG Ping1,2,LIU Hong-mei1,2 (1.Lanzhou Research Base of Earthquake Sciences,China Earthquake Administration,Lanzhou 730000,China;2.Lanzhou Institute of Seismology,China Earthquake Administration,Lanzhou 730000,China)

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ã€Abstractã€‘ Using a dynamic hollow cylinder apparatus WF12440 as the test platform,this paper firstly studied the loess saturation by the back pressure method.The developments of pore water pressure,axial strain,deviatoric stress-axial strain curve during liquefaction are then investigated.Testing results indicate that the back pressure method can be successfully used for loess saturation;and the pore water pressure coefficient could achieve 0.95 and more.Under the condition of isotropic consolidation,pore water pressure increased slowly at the beginning;after several cycles the pore water pressure increased rapidly until it reached the effective consolidation pressure.The deviatoric stress-axial strain curve developed with the increase of cycles;and plastic strain increased step by step.When the axial strain was less than 2%,the pore water pressure increased slowly;afterwards,its increase ratio was much larger,and a strain of 3% could appear at the initial liquefaction process.Before liquefaction of the loess,the mean effective stress under negative deviatoric stress is larger than that under the positive deviatoric stress.æ›´å¤š è¿˜åŽŸ

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ã€Key wordsã€‘ loessï¼› liquefactionï¼› pore water pressureï¼› strainï¼› experimental studyï¼›

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Experimental study of development of strain and pore water pressure during liquefaction of saturated Lanzhou loess

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