![]()
-
[21] 任帅,王方田,李少涛.深部煤层超高水充填开采采动控制效果研究,2021,2021年05期:11-16,6
-
[22] 张村,韩鹏华,王方田,何祥.采动水浸作用下矿井地下水库残留煤柱稳定性,2021,:220-227+247,9
-
[23] Zhang, Cun,王方田,Bai, Qingsheng.Underground space utilization of coalmines in China: A review of underground water reservoir construction,2021,卷: 107
-
[24] 王方田,马奇,张村.Overlying strata movement and stress evolution laws triggered by fault structures in backfilling longwall face with deep depth,2020
-
[25] 王方田,李岗,班建光,彭新宁,李少涛,刘士法.深部开采充填体与煤柱协同承载效应研究,2020,2020年02期:311-318,8
-
[26] 王方田,Zhang, Cun.Reasonable coal pillar design and remote control mining technology for highwall residual coal resources,2019,卷: 6期: 4
-
[27] 王方田,梁宁宁,李岗.Damage and Failure Evolution Mechanism for Coal Pillar Dams Affected by Water Immersion in Underground Reservoirs,2019
-
[28] Zhai, Jinghui,Liu, Danlong,李岗,王方田.Floor Failure Evolution Mechanism for a Fully Mechanized Longwall Mining Face above a Confined Aquifer,2019,卷: 2019
-
[29] 王方田.Overlying Strata Movement Laws Induced by Longwall Mining of Deep Buried Coal Seam with Superhigh-Water Material Backfilling Technology,2018,2018;4306239;1-10
-
[30] 王方田.Gas permeability evolution mechanism and comprehensive gas drainage technology for thin coal seam mining,2017,10;9;1-17
