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Analysis on the Influence of the Dynamic Loads on the Stability for Vertical Arranged Underground Caverns

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ã€Authorã€‘ YAN Chang-bin,XU Guo-yuan(School of Resources and Safety Engineering,Central South University,Changsha Hunan 410083,China)

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ã€Abstractã€‘ Influence of amplitude,frequency of dynamic loads and engineering factors on the stability of vertical arranged underground caverns is studied systemically with FLAC^3D,and the stability of underground caverns under blasting vibration is analyzed with example.The results show that the influence of amplitude on the stability of underground caverns is most obvious,and the interlayer can magnify the effects of dynamic loads.When the amplitude is 0.5 mÂ·s^-1,the magnifying coefficient is 1.35.The magnifying coefficient and the area of plastic zone of surrounding rock increase with the increase of amplitude.The displacement of interlayer increases at the beginning and then decreases later with the increase of frequency.And the dynamic load of 50 Hz is most disadvantageous for the stability of underground caverns.With the increase of distance between two caverns, the displacement of interlayer decreases,which is advantageous for the stability of underground caverns.The displacement increases with the increase of span of above cavern.Stress concentration occurs in surrounding rocks,while the maximum tension stress is less than the tensile strength of rock mass,so tensile crack does not take place.The stability of underground caverns under blasting vibration is analyzed through engineering case.The results show that the displacement of entrance is maximal and the displacement of middle part is minimum along with the axes of underground caverns.It agrees well with the observed results.æ›´å¤š è¿˜åŽŸ

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ã€Key wordsã€‘ Dynamic loadï¼› Vertical arranged underground cavernsï¼› Stabilityï¼› Numerical simulationï¼› FLAC^3Dï¼›

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Analysis on the Influence of the Dynamic Loads on the Stability for Vertical Arranged Underground Caverns

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