터널과지하공간 (Tunnel and Underground Space)

  • 제8권2호
  • /
  • Pages.118-129
  • /
  • 1998
  • /
  • 1225-1275(pISSN)
  • /
  • 2287-1748(eISSN)
한국암반공학회 (Korean Society for Rock Mechanics and Rock Engineering)
권호 표지

三次元 境界要素法 BEAP3D에 의한 採掘空洞 安定性 評價

Stability Analysis for Mine Openings by a Three Dimensional Boundary Element Method-BEAP3D

  • 발행 : 1998.06.01
PDF 다운로드
⟨ 이전 논문 다음 논문 ⟩

초록

A three dimensional boundary element method-BEAP3D was applied to the stability analysis of the mine openings not only to improve the stability during mining operations but also to serve the evaluation of the mine openings for further utilization. Stability analysis on the stability of the room-and-pillar stopes underneath of the old mine openings and the openings to be created by the newly proposed sublevel stoping method at the Nowhado Pyrophyllite Mine, showed that rock mass around the old and new stopes would be stable. Six stopes of a sublevel stoping designed for the Choongmu Limestone Quarry would be stable, too. A sublevel stoping method consisting of six stopes was similarly suggested for the Keumpyung Quartzite Mine. The stability can be guaranteed through out six stopes. Since mining starts from the bottom 1st sublevel to the uppermost sublevel, the safety of the stopes will improve together with the mining process. It would highly be recommended to investigate in-situ rock properties and the rock stresses for future studies. Even though the rock around the uppermost part and bottom of all the stopes have a very high factor of safety, spot reinforcements such as rock bolting would be recommended to mitigate the intermediate and minor principal stresses acting in a tensile mode.

키워드

참고문헌

  1. BEAP User Manual MRL Lab. & GEMCOM Services Inc.
  2. Deparment of Min. & Min. Proc.Eng., U.B.C. Three dimensional stress analysis using BEAP, Computer application in the mineral industry Grant D. R.;Hudyma M. R.;Diering J. A. C.
  3. First Canadian Symposium on Numerical Modelling Applications in Mining and Geomehanics Three dimensional stress analysis technique applied to mine design at Golden Giant Mine Grant D. R.;Potvin Y.;Pocque P.
  4. Proceedings-Stresses in Underground Structures BEAP3D-A Boundary Element Application Package for three-di-mensional Stress Analysis of Mine Structures Yu Y. S.;Closset L.
  5. Department of Min. & Min. Proc. Eng., U.B.C. A practical mining application using the BEAP3D software package, Computer application in the mineral industry Yu Y. S.;Closset L.;Towes N. A.;Thomson S.;Hamel G.
  6. 연구보고서(KIGAM Research Report) Study for the Mechanization of Mining Method for Large Scale Ore Bodies 김임호;정소걸;조영도;한공창;선우춘;류창하;류시영
  7. 연구보고서(KIGAM Research Report) Study for the Mechanization of Mining Method for Large Scale Ore Bodies 김임호;정소걸;조영도
  8. 연구보고서(KIGAM Research Report) Study for the Mechanization of Mining Method for Large Ore Bodies 김임호;정소걸;강선덕;조영도
  9. Int. J. for Numerical Method in Engineering v.10 Effective Numerical Treatment of Boundary Integral E-quations: A Formulation for Three-Dimensional Ealstostatics Lachet J. C.;Watson J. O.
  10. Mine Designer-An automated graphical data generation program integrating numerical modelling with the mine design process(Version 2.0) Thomson S.
  11. Proc. of 15th Canadian Rock Mechanics Symp. The Hoek-Brown Failure Criterion-a 1988 Update, Rock Engineering for Underground Excavation Hoek, E.;E. T. Brown
  12. Proc. of the Int. Symp. on Engineering Geology and Underground Construction v.1 Considerations of the Geomechanical Clssification of Bieniawski Serafim, J. L.;J. P. Pereira
  13. Int. J. Rock Mech. Min. Sci. v.15 Determining rock mass deformability-experience from histories Bjeniawski Z. T.
  14. J. Geotech. Eng. Div. v.106 Empirical strengh criterion for rock mass Hoek E.;E. T. Brown
  15. Strata control in mineral engineering Bieniawski Z. T.
  16. Quarterly of applied mathmatics v.10 Soil mechanics and plastic analysis or limit design Drucker D.C.;W. Prager