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
2010年
1期
59-64
,共6页
毕忠伟%张明%段仲沅%金峰%丁德馨
畢忠偉%張明%段仲沅%金峰%丁德馨
필충위%장명%단중원%금봉%정덕형
边坡工程%岩质边坡%细观损伤力学%代表性体积单元
邊坡工程%巖質邊坡%細觀損傷力學%代錶性體積單元
변파공정%암질변파%세관손상역학%대표성체적단원
slope engineering%rock slope%meso-damage mechanics%representative volume element(RVE)
对湖南仁瑞寺岩质边坡进行地质勘查,该边坡结构面主要为X节理,一组走向为170°~265°,另一组走向为105°~125°,倾角较陡,普遍为50°~90°.通过6组实验分别确定岩块与结构面的力学参数.基于细观损伤力学理论,认为节理岩体是由岩块与微裂纹构成的各向异性材料,并利用代表性体积单元建立微裂纹的滑裂准则.通过编制相应的软件建立坡角为60°、节理倾角为52.5°和90.0°的岩质边坡计算模型,并对该边坡的稳定性进行分析.采用逐步去除约束的方式进行开挖模拟,得到边坡的塑性贯通区.通过与实际滑坡形式进行对比,模拟效果好,证明微裂纹是控制岩质边坡破坏的主要因素,对理解节理边坡的破坏机制具有重要意义.同时,该方法对于预测节理边坡破坏面的形状与位置以及复杂边坡的稳定性分析都有一定的借鉴意义.
對湖南仁瑞寺巖質邊坡進行地質勘查,該邊坡結構麵主要為X節理,一組走嚮為170°~265°,另一組走嚮為105°~125°,傾角較陡,普遍為50°~90°.通過6組實驗分彆確定巖塊與結構麵的力學參數.基于細觀損傷力學理論,認為節理巖體是由巖塊與微裂紋構成的各嚮異性材料,併利用代錶性體積單元建立微裂紋的滑裂準則.通過編製相應的軟件建立坡角為60°、節理傾角為52.5°和90.0°的巖質邊坡計算模型,併對該邊坡的穩定性進行分析.採用逐步去除約束的方式進行開挖模擬,得到邊坡的塑性貫通區.通過與實際滑坡形式進行對比,模擬效果好,證明微裂紋是控製巖質邊坡破壞的主要因素,對理解節理邊坡的破壞機製具有重要意義.同時,該方法對于預測節理邊坡破壞麵的形狀與位置以及複雜邊坡的穩定性分析都有一定的藉鑒意義.
대호남인서사암질변파진행지질감사,해변파결구면주요위X절리,일조주향위170°~265°,령일조주향위105°~125°,경각교두,보편위50°~90°.통과6조실험분별학정암괴여결구면적역학삼수.기우세관손상역학이론,인위절리암체시유암괴여미렬문구성적각향이성재료,병이용대표성체적단원건립미렬문적활렬준칙.통과편제상응적연건건립파각위60°、절리경각위52.5°화90.0°적암질변파계산모형,병대해변파적은정성진행분석.채용축보거제약속적방식진행개알모의,득도변파적소성관통구.통과여실제활파형식진행대비,모의효과호,증명미렬문시공제암질변파파배적주요인소,대리해절리변파적파배궤제구유중요의의.동시,해방법대우예측절리변파파배면적형상여위치이급복잡변파적은정성분석도유일정적차감의의.
Geological investigation has been carried out for the rock slopes of Hunan Renrui temple. The slope structural planes are mainly with X joints,and one group trend is 170°-265° and the other group is 105°-125°. Both the joints are with steep dip angle,and are general in the interval of 50°-90°. Mechanical parameters of rock block and joint plane are determined by six groups of tests. According to meso-damage mechanical theory,jointed rock is anisotropic material composed of rock blocks and microcracks;and the slip crack criterion of the microcracks is established by representative volume element(RVE). Stability analysis is conducted on rock slope based on the established calculation model with a slope angle of 60° and two joint inclinations of 52.5° and 90.0° by corresponding software. The plastic penetration area of rock slope is obtained by using gradual constraint removal to conduct excavation simulation. Compared with the actual landslide,the simulation result is good,which proves that the microcrack is the primary factor to control the rock slope failure;and it is very valuable for understanding the failure mechanism of the jointed slope. Simultaneously,this method can provide references to the forecast of the shape and position of jointed slope failure plane and stability analysis of complex slopes.