[1]张杰,杨涛,王斌,等.王洼煤矿软岩巷道变形破坏及支护对策[J].采矿与安全工程学报,2015,32(3):518-522.
ZHANG Jie,YANG Tao,WANG Bin,et al.Deformation and fracture and its supporting measures in soft rock roadway in Wangwa coal mine[J].Journal of Mining & Safety Engineering,2015,32(3):518-522.
[2]张杰,程学智,樊贵强,等.王洼矿巷道围岩特征的实验研究[J].辽宁工程技术大学学报(自然科学版),2011,30(6):818-821.
ZHANG Jie,CHENG Xuezhi,FAN Guiqiang,et al.Experimental study on rock-mass characteristic at roadways in Wangwa coal mine[J].Journal of Liaoning Technical University(Natural Science),2011,30(6):818-821.
[3]孟庆彬,韩立军,乔卫国,等.泥质弱胶结软岩巷道变形破坏特征与机理分析[J].采矿与安全工程学报,2016,33(6):1014-1022.
MENG Qingbin,HAN Lijun,QIAO Weiguo,et al.Deformation failure characteristics and mechanism analysis of muddy weakly cemented soft rock roadway[J].Journal of Mining & Safety Engineering,2016,33(6):1014-1022.
[4]文志杰,卢建宇,肖庆华,等.软岩回采巷道底臌破坏机制与支护技术[J].煤炭学报,2019,44(7):1991-1999.
WEN Zhijie,LU Jianyu,XIAO Qinghua,et al.Failure mechanism of floor heave and supporting technology of soft rock roadway[J].Journal of China Coal Society,2019,44(7):1991-1999.
[5]张辉,李国盛,支光辉.松散煤岩体钻封注耦合注浆锚固机理与试验研究[J].中国安全生产科学技术,2018,14(8):141-145.
ZHANG Hui,LI Guosheng,ZHI Guanghui.Mechanism and experimental study of coupled grouting and anchoring for drilling,sealing and grouting of loose coal and rock mass[J].Journal of Safety Science and Technology,2018,14(8):141-145.
[6]谢小平,徐光,许瑞强.软岩轨道大巷围岩失稳机理及控制技术[J].煤矿安全,2019,50(1):161-164.
XIE Xiaoping,XU Guang,XU Ruiqiang.Control technology and instability mechanism of main rail-tunnel with weak surrounding rock[J].Safety in Coal Mines,2019,50(1):161-164.
[7]王羽扬,刘勇,王沉,等.高应力大变形软岩巷道“三壳”围岩控制机理及应用[J].中国安全生产科学技术,2019,15(7):100-106.
WANG Yuyang,LIU Yong,WANG Chen,et al.Control mechanism and application of “Triple shell” surrounding rock in high stress and large deformation soft rock roadway[J].Journal of Safety Science and Technology,2019,15(7):100-106.
[8]李学彬,杨春满,王波,等.西部弱胶结软岩巷道新型聚合物喷层支护研究[J].煤炭科学技术,2017,45(12):76-80.
LI Xuebin,YANG Chunman,WANG Bo,et al.Study on new polymer spraying support of mine roadway with weak cemented soft rock in West China[J].Coal Science and Technology,2017,45(12):76-80.
[9]李学彬,曲广龙,杨春满,等.弱胶结巷道新型聚合物喷层材料及其喷射支护技术研究[J].采矿与安全工程学报,2019,36(1):95-102.
LI Xuebin,QU Guanglong,YANG Chunman,et al.Study on new polymer spray-layer material and its spray support technology for weakly cemented rock roadway[J].Journal of Mining & Safety Engineering,2019,36(1):95-102.
[10]孙振伟,陈维龙.弱胶结软岩巷道底鼓变形机理及控制技术研究[J].煤炭技术,2019,38(3):31-34.
SUN Zhenwei,CHEN Weilong.Study on floor heave deformation mechanism and control technique in weakly cemented soft rock road way[J].Coal Technology,2019,38(3):31-34.
[11]贺广良,王渭明,张为社,等.弱胶结软岩巷道断面形式及支护优化研究[J].煤炭工程,2017,49(1):38-41.
HE Guangliang,WANG Weiming,ZHANG Weishe,et al.Study on cross-section form and support optimization in weakly consolidated soft rock roadway[J].Coal Engineering,2017,49(1):38-41.
[12]陈佃浩,李廷春,吕学安,等.弱胶结软岩地层相邻大断面巷道合理间距研究[J].矿冶工程,2016,36(4):16-20,25.
CHEN Dianhao,LI Tingchun,LYU Xuean,et al.Reasonable spacing for adjacent large-section roadway in weakly cemented soft rock strata[J].Mining and Metallurgical Engineering,2016,36(4):16-20,25.
[13]朱先龙,杨张杰,潘忠德,等.弱胶结富水顶板采动巷道全锚索支护技术[J].煤炭技术,2020,39(3):26-30.
ZHU Xianlong,YANG Zhangjie,PAN Zhongde,et al.Full anchored cable support technology for dynamic pressure roadway with weakly cemented water-rich roof[J].Coal Technology,2020,39(3):26-30.
[14]赵增辉,马庆,高晓杰,等.弱胶结软岩巷道围岩非协同变形及灾变机制[J].采矿与安全工程学报,2019,36(2):272-279,289.
ZHAO Zenghui,MA Qing,GAO Xiaojie,et al.Non-synergistic deformation and catastrophic mechanism of surrounding rock of weakly cemented soft rock roadway [J].Journal of Mining & Safety Engineering,2019,36(2):272-279,289.
[15]张官禹,赵龙,尚玉强.软岩巷道底鼓成因分析及关键控制技术研究[J].煤炭科学技术,2019,47(11):63-67.
ZHANG Guanyu,ZHAO Long,SHANG Yuqiang.Study on key control technology of floor heave in soft rock roadway[J].Coal Science and Technology,2019,47(11):63-67.
[1]王法凯,蒋承林,吴爱军,等.特别破碎测压围岩环境改造工艺技术研究[J].中国安全生产科学技术,2010,6(3):23.
WANG Fa-kai,JIANG Cheng-lin,WU Ai-jun,et al.Sutdy on particular broken rock manometry of environmental reform process technology[J].JOURNAL OF SAFETY SCIENCE AND TECHNOLOGY,2010,6(10):23.