손상모델을 이용한 심부터널 주변암반의 손상영역 평가

Numerical Evaluation of the Rock Damaged Zone Around a Deep Tunnel

  • 장수호 (한국건설기술연구원 토목연구부 지반구조물 그룹) ;
  • 이정인 (서울대학교 지구환경시스템 공학부) ;
  • 이연규 (군산대학교 해양 응용공학부)
  • 발행 : 2002.10.01

초록

본 연구에서는 탄성, 탄소성 및 실험을 통해 유도된 비선형-취성-소성 모델을 지하 심부 원형터널의 경우에 적용하여 각 모델에 따른 특성과 추정되는 응력재분배 및 응력교란 범위를 비교하였다. 현지 초기응력의 크기와 주응력차가 커질수록 파괴영 역이 파괴되지 않은 영역에 미치는 응력재분배와 교란의 영향이 증가되기 때문에, 탄소성 또는 탄성 해석의 경우보다 비선형-취성-소성 해석결과에서 응력재분배 및 교란영역, 주응력차와 변위가 더 크게 발생하였다. 따라서 현지 응력 수준과 현지 주응력차가 클 경우, 비선형-취성-소성 해석에 의해 손상영 역의 범위가 더 크게 발생할 것으로 예측되므로 손상해석의 필요성이 증대될 것으로 판단되었다.

The nonlinear-brittle-plastic model derived from experiments as well as elastic and elasto-plastic models was applied to the analysis of the rock damaged zone around a highly stressed circular tunnel. The depths of stress redistribution and disturbed zone as well as the characteristic behaviors predicted from each numerical model were compared, As the magnitudes and stress differences of in situ stresses increased, influences of stress redistribution and stress disturbance on un(tiled region of rock mass also intensified. As a result, larger stress redistribution and disturbed zone as well as greater deviatoric stress and displacement were obtained by the nonlinear-brittle-plastic model rather than other conventional models such as elasto-plastic and elastic models. from such results, it was concluded that as the magnitudes and stress differences of in situ stresses increased, larger rock damaged zone might be predicted by the nonlinear-brittle-plastic model. Therefore, it is thought that the damage analysis may be indispensable far highly stressed tunnels.

키워드

참고문헌

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