| [1] |
Liang Ming 无无.
Study on reasonable parameters of pre-splitting blasting pressure relief of residual coal pillar in upper coal seam
[J]. Coal Engineering, 2023, 55(4): 82-86.
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| [2] |
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[J]. Coal Engineering, 2020, 52(12): 61-66.
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| [3] |
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[J]. Coal Engineering, 2020, 52(11): 57-63.
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| [4] |
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Study on roof weakening technology of shaped charge presplitting blasting
[J]. Coal Engineering, 2020, 52(4): 58-61.
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| [5] |
郭隆鑫, 李希建, 刘柱.
Risk Analysis of Roof Accident in Coal Mine Based on Improved Analytic Hierarchy Process and Catastrophe Theory
[J]. Coal Engineering, 2020, 52(3): 172-176.
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| [6] |
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Application of Joint Grouting Reinforcement Technology in the End Mining Project of Large Mining Height Working Face
[J]. COAL ENGINEERING, 2019, 51(4): 49-53.
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| [7] |
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APPLICATION OF HYDRAULIC FRACTURING TECHNOLOGY IN HARD AND STABLE ROOF IN COAL MINE
[J]. COAL ENGINEERING, 2019, 51(4): 54-57.
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| [8] |
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[J]. COAL ENGINEERING, 2019, 51(3): 45-49.
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| [9] |
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Research of super-deep hole presplitting blasting technology on steep working face with hard roof
[J]. COAL ENGINEERING, 2018, 50(5): 60-63.
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| [10] |
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[J]. COAL ENGINEERING, 2018, 50(5): 10-14.
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| [11] |
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Hydraulic Fracturing of Coal SeamRockStope Shift Its Influence on Behavior of Ground Pressure
[J]. COAL ENGINEERING, 2018, 50(1): 56-59.
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| [12] |
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[J]. COAL ENGINEERING, 2017, 49(7): 75-77.
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| [13] |
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Study on CO2 phase-transforming fracturing technology for coal seam roof weakening in fully mechanized caving face
[J]. COAL ENGINEERING, 2017, 49(5): 58-59.
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| [14] |
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Based on PPV Safety Criteria of Weakening Roof Blasting Parameter Optimization Design
[J]. COAL ENGINEERING, 2017, 49(4): 43-45.
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| [15] |
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The technology research on collapse area in mining face with steeply inclined, weak and outburst coal Seam
[J]. COAL ENGINEERING, 2017, 49(3): 60-62.
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