江西理工大学学报
江西理工大學學報
강서리공대학학보
JOURNAL OF JIANGXI UNIVERSITY OF SCIENCE AND TECHNOLOGY
2015年
1期
43-48
,共6页
赵奎%余乐兴%邵海%何文%吴冰%程三建
趙奎%餘樂興%邵海%何文%吳冰%程三建
조규%여악흥%소해%하문%오빙%정삼건
爆破振动%地下水%降雨%边坡稳定性
爆破振動%地下水%降雨%邊坡穩定性
폭파진동%지하수%강우%변파은정성
blasting vibration%groundwater%rainfall%slope stability
文章采用Geostudio软件中的Quake/w模块和Slope/w模块对边坡进行了爆破稳定性研究,在Quake/w模块中加入了爆破振动速度时程曲线和降雨后实测的边坡水位线作为数值计算的两种边界条件,并将动态响应结果导入Slope/w模块中,应用有限元极限平衡法计算爆破振动时边坡的安全系数,以此分析考虑水时边坡在爆破振动影响下的稳定性.同时,为研究水位线对计算结果的影响,分别将有水位线、无水位线及自重应力场下三者的计算结果进行了对比分析.研究表明,与纯自重应力场作用下的边坡稳定性相比,爆破振动下的安全系数降低了6.88%,爆破振动与地下水联合作用下的安全系数降低了24%,地下水对边坡稳定性有非常明显的影响.
文章採用Geostudio軟件中的Quake/w模塊和Slope/w模塊對邊坡進行瞭爆破穩定性研究,在Quake/w模塊中加入瞭爆破振動速度時程麯線和降雨後實測的邊坡水位線作為數值計算的兩種邊界條件,併將動態響應結果導入Slope/w模塊中,應用有限元極限平衡法計算爆破振動時邊坡的安全繫數,以此分析攷慮水時邊坡在爆破振動影響下的穩定性.同時,為研究水位線對計算結果的影響,分彆將有水位線、無水位線及自重應力場下三者的計算結果進行瞭對比分析.研究錶明,與純自重應力場作用下的邊坡穩定性相比,爆破振動下的安全繫數降低瞭6.88%,爆破振動與地下水聯閤作用下的安全繫數降低瞭24%,地下水對邊坡穩定性有非常明顯的影響.
문장채용Geostudio연건중적Quake/w모괴화Slope/w모괴대변파진행료폭파은정성연구,재Quake/w모괴중가입료폭파진동속도시정곡선화강우후실측적변파수위선작위수치계산적량충변계조건,병장동태향응결과도입Slope/w모괴중,응용유한원겁한평형법계산폭파진동시변파적안전계수,이차분석고필수시변파재폭파진동영향하적은정성.동시,위연구수위선대계산결과적영향,분별장유수위선、무수위선급자중응력장하삼자적계산결과진행료대비분석.연구표명,여순자중응력장작용하적변파은정성상비,폭파진동하적안전계수강저료6.88%,폭파진동여지하수연합작용하적안전계수강저료24%,지하수대변파은정성유비상명현적영향.
This paper studies the influence of blasting vibration on the slope stability by using Quake/w module and Slope/w module of Geostudio software, as two kinds of boundary conditions for numerical calculation. The velocity time history curve of blasting vibration and slope water line measured after rainfall are added to the Quake/w module, and results of dynamic response are imported into the Quake/w module, with the limit equilibrium method used to compute the safety factor of slope blasting vibration. Then, the stability of the slope containing water is analyzed in the influence of blasting vibration. Meanwhile, in order to study the effect of water level on results, the three results that contain water line or not and under self-weight stress field are compared and analyzed. Research shows that compared with the safety factor of slope stability under pure gravity stress field, it reduced by 6.88 % under the blasting vibration, and 24 % under the joint action of blasting vibration and groundwater. Thus groundwater had obvious influence on the slope stability.