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Stabality Analysis of Deep Roadway Based on Coupled Thermo-Hydro-Mechanical Behaviors
In order to research the stability of excavation in deep mines under high ground stress, high rock temperature and high karst hydraulic, the interaction of stress field, seepage field and temperature field are discussed through basic constitutive relation, seepage equation, thermometer equation and coupled thermo-hydro-mechanical equation. A numerical model was built to simulate the excavation of deep roadway. The result shows that the simulated ground stress based on three fields coupled is much closer to the field measured value and the change of stress and displacement caused by the excavation are limited which is about same as the later monitoring.
Stabality Analysis of Deep Roadway Based on Coupled Thermo-Hydro-Mechanical Behaviors
In order to research the stability of excavation in deep mines under high ground stress, high rock temperature and high karst hydraulic, the interaction of stress field, seepage field and temperature field are discussed through basic constitutive relation, seepage equation, thermometer equation and coupled thermo-hydro-mechanical equation. A numerical model was built to simulate the excavation of deep roadway. The result shows that the simulated ground stress based on three fields coupled is much closer to the field measured value and the change of stress and displacement caused by the excavation are limited which is about same as the later monitoring.
Stabality Analysis of Deep Roadway Based on Coupled Thermo-Hydro-Mechanical Behaviors
Advanced Materials Research ; 594-597 ; 2564-2568
2012-11-29
5 pages
Article (Journal)
Electronic Resource
English
Stabality Analysis of Deep Roadway Based on Coupled Thermo-Hydro-Mechanical Behaviors
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