岩土力学
巖土力學
암토역학
ROCK AND SOIL MECHANICS
2014年
4期
1187-1193
,共7页
崔岚%郑俊杰%章荣军%张威
崔嵐%鄭俊傑%章榮軍%張威
최람%정준걸%장영군%장위
非线性剪胀效应%应变软化特性%有限差分法%剪胀系数
非線性剪脹效應%應變軟化特性%有限差分法%剪脹繫數
비선성전창효응%응변연화특성%유한차분법%전창계수
nonlinear dilatancy effect%strain-softening behavior%finite difference method%dilatancy coefficient
隧道围岩非线性体积膨胀影响施工安全,如何正确评价隧道围岩塑性区域内扩容机制非常重要。多数研究从理论上推导深埋圆形隧洞应变软化围岩应力-应变场时仅采用恒定或线性变化剪胀模型,针对此不足,提出了一种基于有限差分法的分析方法,能够合理地考虑围岩非线性剪胀效应及其应变软化特性。利用已有的研究成果,验证了该方法的合理性,并进一步探讨了不同质量石灰岩与支护压力下剪胀系数在围岩塑性区域内的影响因素,比较了恒定与非线性变化剪胀模型下围岩变形的不同。结果表明:对于地质强度指标(GSI)较小、质量较差的岩体,塑性区域内主要由围压控制剪胀效应程度;恒定与非线性变化剪胀模型下围岩洞壁变形差别显著。
隧道圍巖非線性體積膨脹影響施工安全,如何正確評價隧道圍巖塑性區域內擴容機製非常重要。多數研究從理論上推導深埋圓形隧洞應變軟化圍巖應力-應變場時僅採用恆定或線性變化剪脹模型,針對此不足,提齣瞭一種基于有限差分法的分析方法,能夠閤理地攷慮圍巖非線性剪脹效應及其應變軟化特性。利用已有的研究成果,驗證瞭該方法的閤理性,併進一步探討瞭不同質量石灰巖與支護壓力下剪脹繫數在圍巖塑性區域內的影響因素,比較瞭恆定與非線性變化剪脹模型下圍巖變形的不同。結果錶明:對于地質彊度指標(GSI)較小、質量較差的巖體,塑性區域內主要由圍壓控製剪脹效應程度;恆定與非線性變化剪脹模型下圍巖洞壁變形差彆顯著。
수도위암비선성체적팽창영향시공안전,여하정학평개수도위암소성구역내확용궤제비상중요。다수연구종이론상추도심매원형수동응변연화위암응력-응변장시부채용항정혹선성변화전창모형,침대차불족,제출료일충기우유한차분법적분석방법,능구합리지고필위암비선성전창효응급기응변연화특성。이용이유적연구성과,험증료해방법적합이성,병진일보탐토료불동질량석회암여지호압력하전창계수재위암소성구역내적영향인소,비교료항정여비선성변화전창모형하위암변형적불동。결과표명:대우지질강도지표(GSI)교소、질량교차적암체,소성구역내주요유위압공제전창효응정도;항정여비선성변화전창모형하위암동벽변형차별현저。
The nonlinear volumetric increase of rock masses can influence the safety of tunnel excavation; thus it is important to accurately evaluate the dilation mechanism of surrounding rock masses in the plastic zone. However, most of the existing studies solve the stress and strain states in strain-softening rock masses of deep circular tunnels by using the constant or linear dilation model. In order to overcome this deficiency, based on the finite difference method, a new analysis approach is proposed. It can consider the nonlinear dilatancy effect as well as the strain-softening behavior of surrounding rock masses. Moreover, the calculated results are compared with those from other existing methods to verify the calculation accuracy of the proposed method. And then a further study is made to investigate the influence factors of the dilatancy coefficient in the plastic zone with different qualities and support pressures of limestone rock masses, and to compare deformations of surrounding rock masses by the constant and nonlinear dilation models. The results indicate that: for rock masses with lower value of geotechnical strength index (GSI) and poor quality, the confining stress primarily controls the degree of the dilation in the plastic zone; and the deformations at the opening surface with constant and nonlinear dilation models distinguish greatly.