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
2014年
8期
1597-1608
,共12页
隧道工程%围压%应变软化%塑性剪切应变%剪胀
隧道工程%圍壓%應變軟化%塑性剪切應變%剪脹
수도공정%위압%응변연화%소성전절응변%전창
tunneling engineering%confining pressure%strain-softening%plastic shear strain%dilatancy
不同围压下岩石应变软化与剪胀特性不同,若在隧洞开挖中考虑围岩塑性区域内变化围压影响,其应力-应变场求解方式将区别于既有文献中的传统方法。根据围压影响下应变软化围岩的临界塑性剪切应变变化特征,给出改进的判断围岩是否进入塑性残余区域的规则;引入考虑围压与临界塑性剪切应变的非线性剪胀模型。基于Hoek-Brown屈服准则,根据一定径向应力增量将围岩塑性软化与残余区域分层,采用有限差分法对围岩应力-应变场进行求解;为分析围压对围岩稳定性的影响,根据临界塑性剪切应变与剪胀系数变化与否,设定4种非线性力学模型,深入分析并比较4种力学模型下临界塑性剪切应变、剪胀系数与围岩变形等在塑性软化与残余区域的分布规律。研究结果表明:地质强度指标GSI较小时,考虑围压影响下的围岩应力-应变场与未考虑时差异明显;此时临界塑性剪切应变的减小对开挖边界的围岩剪胀性具一定抑制作用。
不同圍壓下巖石應變軟化與剪脹特性不同,若在隧洞開挖中攷慮圍巖塑性區域內變化圍壓影響,其應力-應變場求解方式將區彆于既有文獻中的傳統方法。根據圍壓影響下應變軟化圍巖的臨界塑性剪切應變變化特徵,給齣改進的判斷圍巖是否進入塑性殘餘區域的規則;引入攷慮圍壓與臨界塑性剪切應變的非線性剪脹模型。基于Hoek-Brown屈服準則,根據一定徑嚮應力增量將圍巖塑性軟化與殘餘區域分層,採用有限差分法對圍巖應力-應變場進行求解;為分析圍壓對圍巖穩定性的影響,根據臨界塑性剪切應變與剪脹繫數變化與否,設定4種非線性力學模型,深入分析併比較4種力學模型下臨界塑性剪切應變、剪脹繫數與圍巖變形等在塑性軟化與殘餘區域的分佈規律。研究結果錶明:地質彊度指標GSI較小時,攷慮圍壓影響下的圍巖應力-應變場與未攷慮時差異明顯;此時臨界塑性剪切應變的減小對開挖邊界的圍巖剪脹性具一定抑製作用。
불동위압하암석응변연화여전창특성불동,약재수동개알중고필위암소성구역내변화위압영향,기응력-응변장구해방식장구별우기유문헌중적전통방법。근거위압영향하응변연화위암적림계소성전절응변변화특정,급출개진적판단위암시부진입소성잔여구역적규칙;인입고필위압여림계소성전절응변적비선성전창모형。기우Hoek-Brown굴복준칙,근거일정경향응력증량장위암소성연화여잔여구역분층,채용유한차분법대위암응력-응변장진행구해;위분석위압대위암은정성적영향,근거림계소성전절응변여전창계수변화여부,설정4충비선성역학모형,심입분석병비교4충역학모형하림계소성전절응변、전창계수여위암변형등재소성연화여잔여구역적분포규률。연구결과표명:지질강도지표GSI교소시,고필위압영향하적위암응력-응변장여미고필시차이명현;차시림계소성전절응변적감소대개알변계적위암전창성구일정억제작용。
Rocks exhibit different strain-softening and dilatancy behaviors under various confining pressures. For tunnel excavation,the method to obtain the stress and strain states considering variability of the confining pressure in the plastic zone is different from those in the existing studies. According to the variation of critical plastic shear strain of the strain-softening rock mass influenced by the confining pressure,a modified criterion was presented to determine whether the rock mass resides within the plastic residual zone. A nonlinear dilatancy model was introduced to account for the confining pressure and the critical plastic shear strain. The plastic softening and residual zones were divided according to a certain radial stress increment. The stress and strain components are obtained based on Hoek-Brown failure criterion with the finite difference method. In order to discuss the influence of the confining pressure on the rock mass stability,four nonlinear mechanical models were established according to whether the critical shear strain or dilatancy coefficient was changed or not. The critical plastic shear strain,the dilatancy coefficient and the rock mass deformation in the plastic softening and residual zones were further studied under the four models. The calculated results show that for lower geological strength index(GSI),the stress and strain states considering the confining pressure distinguish greatly from those not considering it. A reduction of the critical plastic shear strain restrains the dilatancy behaviour of surrounding rock mass near the opening surface to a certain extent.