煤
煤
매
Coal
2015年
10期
9-11
,共3页
大采高%覆岩移动%数值模拟%塑性区
大採高%覆巖移動%數值模擬%塑性區
대채고%복암이동%수치모의%소성구
large mining height are broken%strata movement%numerical simulation%the plastic zone
为了确定大采高工作面覆岩移动规律与采厚的关系,以某矿201 工作面为工程背景,采用UDEC数值模拟不同采厚下工作面推进过程中工作面发生初次来压时覆岩垮落特征、塑性区及主应力场分布范围.结果表明:随着工作面采高增加,工作面初次垮落步距增大、覆岩垮落高度增加,塑性区及主应力场分布范围变大,同时为合理开采提供有利依据.
為瞭確定大採高工作麵覆巖移動規律與採厚的關繫,以某礦201 工作麵為工程揹景,採用UDEC數值模擬不同採厚下工作麵推進過程中工作麵髮生初次來壓時覆巖垮落特徵、塑性區及主應力場分佈範圍.結果錶明:隨著工作麵採高增加,工作麵初次垮落步距增大、覆巖垮落高度增加,塑性區及主應力場分佈範圍變大,同時為閤理開採提供有利依據.
위료학정대채고공작면복암이동규률여채후적관계,이모광201 공작면위공정배경,채용UDEC수치모의불동채후하공작면추진과정중공작면발생초차래압시복암과락특정、소성구급주응력장분포범위.결과표명:수착공작면채고증가,공작면초차과락보거증대、복암과락고도증가,소성구급주응력장분포범위변대,동시위합리개채제공유리의거.
In order to determine the large mining height strata movement rule and the relationship between mining thick,with 201 work-ing face of a mine as engineering background,the state of numerical simulation under different mining thick supports to press for the first time in the process of working face advancing strata caving characteristics,plastic zone and the stress field distribution. Results show that with the increase of working face mining height are broken,first step caving working face distance increases,strata caving height increase,plastic zone and the stress field distribution,at the same time provide good basis for rational mining.
