采矿与安全工程学报
採礦與安全工程學報
채광여안전공정학보
JOURNAL OF MINING AND SAFETY ENGINEERING
2014年
2期
175-179
,共5页
应力波%冲击矿压%能量密度
應力波%遲擊礦壓%能量密度
응력파%충격광압%능량밀도
stress wave%rock burst%energy density
能量积聚程度及积聚位置是判别冲击矿压是否发生的2个重要参数,据此提出了评价冲击矿压危险性的能量密度准则。运用LS-DYNA模拟了扰动载荷作用下巷道围岩的能量积聚过程及应力波强度对冲击矿压危险程度的影响,得到了一定围岩应力状态下巷帮围岩能量积聚的大小、位置及能量密度因子等结果。模拟研究表明:1)随扰动强度pmax的增加,能量积聚区总体向外扩张,范围增大,且能量积聚区逐步向巷道边缘位置移近;当pmax由5 MPa至20 MPa变化时,巷道围岩能量积聚区最大能量密度Udmax由2.007 MJ/m3增至3.981 MJ/m3,增幅达到198%。2)受扰动影响,能量积聚区逐步向巷道边缘位置移动,能量密度因子值增大,k值由1.384 MJ/m4增至4.976 MJ/m4,增幅达到259%,发生冲击矿压的危险性显著提高。
能量積聚程度及積聚位置是判彆遲擊礦壓是否髮生的2箇重要參數,據此提齣瞭評價遲擊礦壓危險性的能量密度準則。運用LS-DYNA模擬瞭擾動載荷作用下巷道圍巖的能量積聚過程及應力波彊度對遲擊礦壓危險程度的影響,得到瞭一定圍巖應力狀態下巷幫圍巖能量積聚的大小、位置及能量密度因子等結果。模擬研究錶明:1)隨擾動彊度pmax的增加,能量積聚區總體嚮外擴張,範圍增大,且能量積聚區逐步嚮巷道邊緣位置移近;噹pmax由5 MPa至20 MPa變化時,巷道圍巖能量積聚區最大能量密度Udmax由2.007 MJ/m3增至3.981 MJ/m3,增幅達到198%。2)受擾動影響,能量積聚區逐步嚮巷道邊緣位置移動,能量密度因子值增大,k值由1.384 MJ/m4增至4.976 MJ/m4,增幅達到259%,髮生遲擊礦壓的危險性顯著提高。
능량적취정도급적취위치시판별충격광압시부발생적2개중요삼수,거차제출료평개충격광압위험성적능량밀도준칙。운용LS-DYNA모의료우동재하작용하항도위암적능량적취과정급응력파강도대충격광압위험정도적영향,득도료일정위암응력상태하항방위암능량적취적대소、위치급능량밀도인자등결과。모의연구표명:1)수우동강도pmax적증가,능량적취구총체향외확장,범위증대,차능량적취구축보향항도변연위치이근;당pmax유5 MPa지20 MPa변화시,항도위암능량적취구최대능량밀도Udmax유2.007 MJ/m3증지3.981 MJ/m3,증폭체도198%。2)수우동영향,능량적취구축보향항도변연위치이동,능량밀도인자치증대,k치유1.384 MJ/m4증지4.976 MJ/m4,증폭체도259%,발생충격광압적위험성현저제고。
The energy accumulation and its position are two main factors on judging the rock burst oc-curring. An energy density criterion to distinguish the danger of rock burst is put forward based on this assumption in this paper. The process of the energy accumulation and the effect of the intensity of stress wave pmax to the energy accumulation are simulated and analyzed by employing ANSYS/LS-DYNA, and the characteristic and the position of the energy accumulation are obtained. Research results show that:1) With the stress wave increasing the value of the Udmax is increasing. When the intensity of stress wave pmax increasing from 5 MPa to 20 MPa,the incremental value of the energy density is 2.007 MJ/m3 to 3.981 MJ/m3,incremental rate reaching 98%;2) Due to the impact of the distribution intensity pmax,with the stress wave increasing the position of Udmax moves to the inside of the roadway side. When the intensity of stress wave pmax increasing from 5 MPa to 20 MPa,the incremental value of en-ergy density factor k is 1.384 MJ/m4 to 4.976 MJ/m4,incremental rate reaching 259%,which means the notable increase of the possibility of the rock burst.