岩石力学与工程学报
巖石力學與工程學報
암석역학여공정학보
CHINESE JOURNAL OF ROCK MECHANICS AND ENGINEERING
2013年
1期
33-40
,共8页
许江%程立朝%谭皓月%王雷%吴慧
許江%程立朝%譚皓月%王雷%吳慧
허강%정립조%담호월%왕뢰%오혜
岩石力学%水平裂纹%垂直裂纹%细观观测%剪切试验
巖石力學%水平裂紋%垂直裂紋%細觀觀測%剪切試驗
암석역학%수평렬문%수직렬문%세관관측%전절시험
rock mechanics%horizontal crack%vertical crack%meso-observation%shear test
利用自主研发的煤岩细观剪切加载试验装置,开展不同加载速率剪切载荷作用下,含水平和垂直表面原生裂纹煤岩的裂纹开裂扩展时空演化模式、宏观裂纹形态及细观裂纹贯通机制的研究.研究结果表明:水平表面原生裂纹影响煤岩宏观裂纹发育数目,破坏后宏观形态呈H型或H+L型,而垂直表面原生裂纹对宏观裂纹发育数目无影响,破坏后宏观形态呈L型;原生裂纹对新裂纹发展演化的影响限于预定剪切面附近局部区域内,位于预定剪切面远处的原生裂纹,以及煤岩岩样制作中在预定剪切面远处产生的岩样缺损,其形态均未发生明显变化,未对剪切面附近宏观裂纹发育产生明显影响;在预定剪切面附近,后期产生的宏观主裂纹会引起前期右侧产生的裂纹受压而闭合,预定剪切面左侧的非贯通垂直原生裂纹,对宏观主裂纹的起裂、扩展无影响;细观分析表明,水平表面原生裂纹使煤岩局部破坏模式复杂多样化,包括压破坏、拉破坏、剪破坏及组合破坏模式,导致裂纹开裂位置可能出现在煤岩中部原生裂纹处,而垂直表面原生裂纹对煤岩破坏模式影响不明显.
利用自主研髮的煤巖細觀剪切加載試驗裝置,開展不同加載速率剪切載荷作用下,含水平和垂直錶麵原生裂紋煤巖的裂紋開裂擴展時空縯化模式、宏觀裂紋形態及細觀裂紋貫通機製的研究.研究結果錶明:水平錶麵原生裂紋影響煤巖宏觀裂紋髮育數目,破壞後宏觀形態呈H型或H+L型,而垂直錶麵原生裂紋對宏觀裂紋髮育數目無影響,破壞後宏觀形態呈L型;原生裂紋對新裂紋髮展縯化的影響限于預定剪切麵附近跼部區域內,位于預定剪切麵遠處的原生裂紋,以及煤巖巖樣製作中在預定剪切麵遠處產生的巖樣缺損,其形態均未髮生明顯變化,未對剪切麵附近宏觀裂紋髮育產生明顯影響;在預定剪切麵附近,後期產生的宏觀主裂紋會引起前期右側產生的裂紋受壓而閉閤,預定剪切麵左側的非貫通垂直原生裂紋,對宏觀主裂紋的起裂、擴展無影響;細觀分析錶明,水平錶麵原生裂紋使煤巖跼部破壞模式複雜多樣化,包括壓破壞、拉破壞、剪破壞及組閤破壞模式,導緻裂紋開裂位置可能齣現在煤巖中部原生裂紋處,而垂直錶麵原生裂紋對煤巖破壞模式影響不明顯.
이용자주연발적매암세관전절가재시험장치,개전불동가재속솔전절재하작용하,함수평화수직표면원생렬문매암적렬문개렬확전시공연화모식、굉관렬문형태급세관렬문관통궤제적연구.연구결과표명:수평표면원생렬문영향매암굉관렬문발육수목,파배후굉관형태정H형혹H+L형,이수직표면원생렬문대굉관렬문발육수목무영향,파배후굉관형태정L형;원생렬문대신렬문발전연화적영향한우예정전절면부근국부구역내,위우예정전절면원처적원생렬문,이급매암암양제작중재예정전절면원처산생적암양결손,기형태균미발생명현변화,미대전절면부근굉관렬문발육산생명현영향;재예정전절면부근,후기산생적굉관주렬문회인기전기우측산생적렬문수압이폐합,예정전절면좌측적비관통수직원생렬문,대굉관주렬문적기렬、확전무영향;세관분석표명,수평표면원생렬문사매암국부파배모식복잡다양화,포괄압파배、랍파배、전파배급조합파배모식,도치렬문개렬위치가능출현재매암중부원생렬문처,이수직표면원생렬문대매암파배모식영향불명현.
Using self-made meso-shear test equipment for gas-containing coal and rock,the researchs on the evolution process of cracking and development,macroscopic crack morphology,and meso-crack coalescence mode of raw coal containing horizontal and vertical surface cracks,are carried out under different loading speed conditions. Results show that horizontal surface crack influenced the numbers of macrocrack development,made macroscopic shear crack morphology of raw coal containing horizontal crack manifested H or H+L type;while, vertical surface crack had no effect on the number of macroscopic crack development;raw coal containing vertical crack showed L type. Effects of original cracks on the development and evolution of the new crack were limited to the local area near predetermined shear plane,cracks far from predetermined shear plane and rock samples defects far from predetermined shear plane induced by making of raw coal samples,whose shape were not changed significantly,had no significant effect on the macroscopic crack development near shear plane. Nearby predetermined shear plane,later macro main crack will cause pre-generated right side crack closed. Vertical original crack on the left side of the shear plane had no effect on crack initiation and expansion of macro main crack. Meso-analysis show that,horizontal surface original crack made coal rock failure mode complex and diversification,including compressed failure,shear failure,tension failure,and combination mode,lead crack initiation location to appear at the original crack nearby predetermined shear plane,while vertical surface original cracks less affected the coal rock failure mode.
