岩土力学
巖土力學
암토역학
ROCK AND SOIL MECHANICS
2013年
4期
1179-1184
,共6页
江红祥%杜长龙%刘送永%刘增辉
江紅祥%杜長龍%劉送永%劉增輝
강홍상%두장룡%류송영%류증휘
岩石切削%数值方法%刀具%作用力%线性回归分析
巖石切削%數值方法%刀具%作用力%線性迴歸分析
암석절삭%수치방법%도구%작용력%선성회귀분석
rock cutting%numerical method%cutter%acting force%linear regression analysis
为研究岩石切削过程中刀具的力学特性以及刀具平均峰值作用力的预测,基于断裂力学和有限元理论建立了岩石切削的数值模型.模拟分析岩石对刀具的反作用过程,得到不同力学特性岩石和刀具作用条件下刀具所受的反作用力,结果表明,冲击速度在一定范围内对刀具平均峰值作用力影响较小;岩石体积呈阶跃性递减,刀具作用力大小与崩落岩石碎片体积变化一致.对模拟、实验以及已有理论计算得到的刀具平均峰值作用力进行线性回归分析,研究结果表明,数值方法计算结果与实验结果、Goktan[1]理论计算结果的线性相关系数分别为0.812、0.930,相关性较好,表明所建数值模型用于模拟岩石切削是正确和可靠的.
為研究巖石切削過程中刀具的力學特性以及刀具平均峰值作用力的預測,基于斷裂力學和有限元理論建立瞭巖石切削的數值模型.模擬分析巖石對刀具的反作用過程,得到不同力學特性巖石和刀具作用條件下刀具所受的反作用力,結果錶明,遲擊速度在一定範圍內對刀具平均峰值作用力影響較小;巖石體積呈階躍性遞減,刀具作用力大小與崩落巖石碎片體積變化一緻.對模擬、實驗以及已有理論計算得到的刀具平均峰值作用力進行線性迴歸分析,研究結果錶明,數值方法計算結果與實驗結果、Goktan[1]理論計算結果的線性相關繫數分彆為0.812、0.930,相關性較好,錶明所建數值模型用于模擬巖石切削是正確和可靠的.
위연구암석절삭과정중도구적역학특성이급도구평균봉치작용력적예측,기우단렬역학화유한원이론건립료암석절삭적수치모형.모의분석암석대도구적반작용과정,득도불동역학특성암석화도구작용조건하도구소수적반작용력,결과표명,충격속도재일정범위내대도구평균봉치작용력영향교소;암석체적정계약성체감,도구작용력대소여붕락암석쇄편체적변화일치.대모의、실험이급이유이론계산득도적도구평균봉치작용력진행선성회귀분석,연구결과표명,수치방법계산결과여실험결과、Goktan[1]이론계산결과적선성상관계수분별위0.812、0.930,상관성교호,표명소건수치모형용우모의암석절삭시정학화가고적.
In order to study the mechanical characteristics of the cutter in rock cutting process and the prediction of mean peak force reaction on the cutter, a numerical model of rock cutting is established based on the fracture mechanics and finite element theory. The process of the rock reaction on the cutter is simulated and investigated; and the reaction forces on the cutter are obtained with different rock mechanical characteristics and impacting conditions of the cutter. The results show that the impacting velocity within a certain range has less effect on the peck cutting force, the variation of reaction force is unanimous to rock volume changes with stepwise decreasing. The relationship of mean peak force reaction on the cutter obtained from simulations, experiments and theoretical models is investigated with the linear regression analysis. The results show good correlations that the linear correlation coefficients between numerical results and the results of experiments and Goktan’s theory are 0.812, 0.930 respectively; and it is indicated that this numerical model is proper and feasible to simulate the rock cutting process.