岩土力学
巖土力學
암토역학
ROCK AND SOIL MECHANICS
2014年
5期
1269-1274
,共6页
节理岩体%表面形貌%强度特性%直剪试验%破坏强度
節理巖體%錶麵形貌%彊度特性%直剪試驗%破壞彊度
절리암체%표면형모%강도특성%직전시험%파배강도
joints rock mass%surface morphology%strength behavior%direct shear test%failure strength
通过直剪模型试验,研究节理表面形貌下非贯通节理岩体扩展贯通强度特性。非贯通节理岩体的扩展贯通过程分为4个阶段:初裂前阶段、稳定扩展阶段、非稳定扩展阶段和摩擦阶段。结合试验现象和切向变形曲线,研究了非贯通节理岩体的初裂强度、临界强度、贯通破坏强度、残余强度等特性。在相同的法向应力下,节理表面越粗糙,不仅非贯通节理岩体的贯通破坏强度越大,而且初裂强度、临界强度、残余强度也越大。在不同的节理表面形貌下,初裂强度与贯通破坏强度的比值约为70%;临界强度与贯通破坏强度的比值约为90%;不过,残余强度与贯通破坏强度的比值变化较大,约为50%~90%。试验为进一步研究非贯通节理岩体破坏理论提供试验验证。
通過直剪模型試驗,研究節理錶麵形貌下非貫通節理巖體擴展貫通彊度特性。非貫通節理巖體的擴展貫通過程分為4箇階段:初裂前階段、穩定擴展階段、非穩定擴展階段和摩抆階段。結閤試驗現象和切嚮變形麯線,研究瞭非貫通節理巖體的初裂彊度、臨界彊度、貫通破壞彊度、殘餘彊度等特性。在相同的法嚮應力下,節理錶麵越粗糙,不僅非貫通節理巖體的貫通破壞彊度越大,而且初裂彊度、臨界彊度、殘餘彊度也越大。在不同的節理錶麵形貌下,初裂彊度與貫通破壞彊度的比值約為70%;臨界彊度與貫通破壞彊度的比值約為90%;不過,殘餘彊度與貫通破壞彊度的比值變化較大,約為50%~90%。試驗為進一步研究非貫通節理巖體破壞理論提供試驗驗證。
통과직전모형시험,연구절리표면형모하비관통절리암체확전관통강도특성。비관통절리암체적확전관통과정분위4개계단:초렬전계단、은정확전계단、비은정확전계단화마찰계단。결합시험현상화절향변형곡선,연구료비관통절리암체적초렬강도、림계강도、관통파배강도、잔여강도등특성。재상동적법향응력하,절리표면월조조,불부비관통절리암체적관통파배강도월대,이차초렬강도、림계강도、잔여강도야월대。재불동적절리표면형모하,초렬강도여관통파배강도적비치약위70%;림계강도여관통파배강도적비치약위90%;불과,잔여강도여관통파배강도적비치변화교대,약위50%~90%。시험위진일보연구비관통절리암체파배이론제공시험험증。
By direct shear test, strength behavior of rock mass containing discontinuous joints with different joint surface morphologies is researched. The extension process to the rock mass can be divided into 4 stages:before initial cracking stage, crack stable growth stage, unsteady growth stage and friction stage. According to the experimental phenomena and the shear deformation curve, initial cracking strength, critical strength, failure strength and residual strength are researched. With the same normal stress, the joint surface morphology is rougher, not only the failure strength is higher, but also the initial cracking strength, critical strength, and residual strength are higher. With different joint surface morphologies, the ratio of the initial cracking strength and failure strength is about 70%;the ratio of the critical strength and failure strength is about 90%;but the ratio of t initial cracking strength and failure strength is not stable, which is about 50%-90%. The experimental verification is provided to further study failure theory of rock mass containing discontinuous joints.
