岩石力学与工程学报
巖石力學與工程學報
암석역학여공정학보
CHINESE JOURNAL OF ROCK MECHANICS AND ENGINEERING
2013年
11期
2334-2341
,共8页
土力学%青岛海砂%应力路径%颗粒级配%三轴试验%数值试验%细观机制
土力學%青島海砂%應力路徑%顆粒級配%三軸試驗%數值試驗%細觀機製
토역학%청도해사%응력로경%과립급배%삼축시험%수치시험%세관궤제
soil mechanics%Qingdao sea sand%stress path%grain gradation%triaxial tests%numerical tests%mesomechanism
利用GDS应力路径三轴试验系统与颗粒流程序PFC2D,对2种不同颗粒粒径与级配的青岛海砂进行不同应力路径下的室内三轴试验与数值模拟试验,探研应力路径和颗粒级配对砂土影响的细观机制。首先,进行青岛粗细砂在不同密实度与3种应力路径下的室内三轴试验,获得青岛粗细海砂的宏观力学响应,并进行初步地机制分析;然后,进行与室内试验匹配和补充的PFC2D数值模拟试验,挖掘室内物理试验中难以得到的细观信息,如颗粒配位数,转动速度,颗粒位移等,定量地解释不同级配的砂土在不同路径下力学响应的细观原因;最后,进行不同颗粒级配砂土在循环加载路径下力学性质的PFC2D数值试验,从细观角度分析砂土在该路径下的变形机制。
利用GDS應力路徑三軸試驗繫統與顆粒流程序PFC2D,對2種不同顆粒粒徑與級配的青島海砂進行不同應力路徑下的室內三軸試驗與數值模擬試驗,探研應力路徑和顆粒級配對砂土影響的細觀機製。首先,進行青島粗細砂在不同密實度與3種應力路徑下的室內三軸試驗,穫得青島粗細海砂的宏觀力學響應,併進行初步地機製分析;然後,進行與室內試驗匹配和補充的PFC2D數值模擬試驗,挖掘室內物理試驗中難以得到的細觀信息,如顆粒配位數,轉動速度,顆粒位移等,定量地解釋不同級配的砂土在不同路徑下力學響應的細觀原因;最後,進行不同顆粒級配砂土在循環加載路徑下力學性質的PFC2D數值試驗,從細觀角度分析砂土在該路徑下的變形機製。
이용GDS응력로경삼축시험계통여과립류정서PFC2D,대2충불동과립립경여급배적청도해사진행불동응력로경하적실내삼축시험여수치모의시험,탐연응력로경화과립급배대사토영향적세관궤제。수선,진행청도조세사재불동밀실도여3충응력로경하적실내삼축시험,획득청도조세해사적굉관역학향응,병진행초보지궤제분석;연후,진행여실내시험필배화보충적PFC2D수치모의시험,알굴실내물리시험중난이득도적세관신식,여과립배위수,전동속도,과립위이등,정량지해석불동급배적사토재불동로경하역학향응적세관원인;최후,진행불동과립급배사토재순배가재로경하역학성질적PFC2D수치시험,종세관각도분석사토재해로경하적변형궤제。
The laboratory triaxial tests and numerical tests of Qingdao sea sands with different grain size gradations under different stress paths are carried out by using the GDS stress path triaxial system and particle flow code in two dimensions(PFC2D),in order to study the mesomechanism of the influence of stress path and grain size gradation on sands mechanical behavior. The macromechanical properties of Qingdao sea sands are obtained by three stress paths triaxial tests;and the deformation mechanism is analyzed preliminarily. Numerical tests are presented as the match and complement of laboratory tests. Some meso-information such as particle coordination number,rotational velocity and particle displacement,which cannot be obtained from laboratory tests,are extracted to explain quantitatively the meso-reasons of the peculiar mechanical behavior of sands with different gradations and stress paths. The numerical tests of different gradations particles under cyclic loads are also presented;and the macromechanical behavior and its mesomechanism are given.