A reliable numerical simulation method and large-scale in-situ test method for super-thick coal seams are very important to determine the failure range of mining floors, which is often the basis to protect Ordovician limestone water, an important drinking water source for people in North China. This paper takes Yushupo Coal Mine as an example; the explicit–implicit coupling simulation method and the corresponding double scalar elastic–plastic constitutive model were established to predict the failure depth of the floor numerically, and verified by the full section borehole stress–strain in-situ testing method. The results show that the explicit–implicit coupling numerical program and the double scalar elastoplastic constitutive model are su...
To study the caving of thick hard overburdens and evolution of water-conducting fracture zones in fu...
There is abundant coal resource of Jurassic period in Yulin City, and the problem of shallow buried ...
As the dangerous level of floor water inrush in Chinese coal field is becoming more and more serious...
Ordovician limestone water on the floor is a serious threat to the safety of coal mine production in...
As the depth of coal mining in China increases, the dangerous break-up and the water inrush of the w...
Secondary development of FLAC3D software was carried out based on FISH language, and a 3D fluid-soli...
Mining above confined aquifer has become an important task for water inrush prevention in China. To ...
The stress change law of a collapse column and the failure depth of a coal seam floor before and aft...
AbstractUsing the software FLAC3D, we simulated the rule of deformation and failure of deep stope fl...
To study the mining-induced failure depth of floor rocks in a fully-mechanized mining caving field a...
The Zhaogu No. 2 coal mine is a single thick coal seam mining mine with high gas content. Due to the...
Abstract: In order to research on stress distribution and failure depth of mining floor during the f...
The Taiyuan Formation limestone aquifer and Ordovician limestone aquifer are widely distributed in t...
Disturbances owing to coal mining result in the movement and failure of floor strata. Mining-induced...
In the process of coal mining, the surface subsidence under ultrathick loose layer is abnormal (subs...
To study the caving of thick hard overburdens and evolution of water-conducting fracture zones in fu...
There is abundant coal resource of Jurassic period in Yulin City, and the problem of shallow buried ...
As the dangerous level of floor water inrush in Chinese coal field is becoming more and more serious...
Ordovician limestone water on the floor is a serious threat to the safety of coal mine production in...
As the depth of coal mining in China increases, the dangerous break-up and the water inrush of the w...
Secondary development of FLAC3D software was carried out based on FISH language, and a 3D fluid-soli...
Mining above confined aquifer has become an important task for water inrush prevention in China. To ...
The stress change law of a collapse column and the failure depth of a coal seam floor before and aft...
AbstractUsing the software FLAC3D, we simulated the rule of deformation and failure of deep stope fl...
To study the mining-induced failure depth of floor rocks in a fully-mechanized mining caving field a...
The Zhaogu No. 2 coal mine is a single thick coal seam mining mine with high gas content. Due to the...
Abstract: In order to research on stress distribution and failure depth of mining floor during the f...
The Taiyuan Formation limestone aquifer and Ordovician limestone aquifer are widely distributed in t...
Disturbances owing to coal mining result in the movement and failure of floor strata. Mining-induced...
In the process of coal mining, the surface subsidence under ultrathick loose layer is abnormal (subs...
To study the caving of thick hard overburdens and evolution of water-conducting fracture zones in fu...
There is abundant coal resource of Jurassic period in Yulin City, and the problem of shallow buried ...
As the dangerous level of floor water inrush in Chinese coal field is becoming more and more serious...