Font Size: a A A
Keyword [strength reduction]
Result: 41 - 60 | Page: 3 of 5
41. Application Of Finite Element Strength Reduction Method In Vertical Shaft Uncovering Outburst Coal Seam Analysis
42. Study On Landslide Disaster Warning Standard Of Oil And Gas Long Distance Pipeline Engineering Between China And Myanmar
43. Stability Analysis And Instability Process Of A Tailings Based On PFC2D
44. Study On Stability And Dam - Break Simulation Of Tailings Dam In Qiushan Iron Mine Based On PFC 2D
45. Failure Mechanism And Control Measures On South Slope Of Fushun West Open-pit Mine
46. The Stability Analysis Of Ternary Hole Tailings Dam Based On Seepage And Stress Coupled-Strength Reduction Method
47. The Analysis Of Strain Localization In The Mining Failure Process Of Open Pit Mining Slope
48. Research On The Assessment Of Construction Risk In The Accumulation Landslide Area Along The China-Myanmar Oil And Gas Pipeline
49. Hei Tie Jiao Tailings Dam Stability Analysis Under Seismic Action
50. Numerical Simulation Study On The Stability Of A Tailing Dam By Particle Flow Code
51. Slope Stability Of Open Pit To Underground Mining In Tiegukeng Mining Area Considering Deformation Parameters Of Filling Body
52. Analysis Of Slope Stability Of Nan-fen Open Pit Mine Under Blasting Vibration
53. Mechanism Investigation On The Influence Of MgO On The Strength And Reduction-melting Property
54. Study On Stability Of Open Pit Slope In Dahongshan Iron Mine
55. Study On The Heterogeneous Property And Seepage Field And Slope Stability Of Waste Pile In Municipal Solid Waste Landfill
56. Slope Stability Analysis In Hongshaquan Open-pit Coal Mine
57. The Study On Stability Of The Northern Slope Of JDC Open Pit Mine Under The Influence Of Yanmen'ao Fault Belt
58. Numerical Analysis Of Stability Of Caverns In Construction Process
59. Study On Stope Stability And Stope Structure Parameters Optimization Of A Mine
60. Stability Analysis Of Open Pit Mine Slope Under The Underground Mining Based On FLAC3D
  <<First  <Prev  Next>  Last>>  Jump to