建井技术
建井技術
건정기술
Mine Construction Technology
2015年
z2期
59-60,49
,共3页
齐金龙%徐华生%田瑞胜%王风健
齊金龍%徐華生%田瑞勝%王風健
제금룡%서화생%전서성%왕풍건
立井井筒%断层破碎带%注浆加固%复合加强支护
立井井筒%斷層破碎帶%註漿加固%複閤加彊支護
립정정통%단층파쇄대%주장가고%복합가강지호
shaft%belt%broken fault F47 grouting reinforcement%composite support
潘三矿深部进风井井筒受F47断层影响,应力集中,易造成井壁破坏及装载硐室失稳。为安全、高效通过该区段采取了多种注浆及复合加强支护技术,顺利通过了该断层破碎带,为不稳定地层中大断面硐室施工提供了有益的经验。
潘三礦深部進風井井筒受F47斷層影響,應力集中,易造成井壁破壞及裝載硐室失穩。為安全、高效通過該區段採取瞭多種註漿及複閤加彊支護技術,順利通過瞭該斷層破碎帶,為不穩定地層中大斷麵硐室施工提供瞭有益的經驗。
반삼광심부진풍정정통수F47단층영향,응력집중,역조성정벽파배급장재동실실은。위안전、고효통과해구단채취료다충주장급복합가강지호기술,순리통과료해단층파쇄대,위불은정지층중대단면동실시공제공료유익적경험。
Deep air shaft in Pansan Mine affected by fault F47 ,and it has the stress concentration phe‐nomenon ,so it is easy to cause the damage of shaft wall and the loading chamber instability. For safe‐ty ,high efficiency through the section to adopt a series of composite reinforced support technology , smoothly through the fault fracture zone ,provides useful experience for the unstable formation in big section chamber construction.
