中国有色金属学报
中國有色金屬學報
중국유색금속학보
THE CHINESE JOURNAL OF NONFERROUS METALS
2015年
5期
1325-1331
,共7页
双扭试件%常位移松弛法%水化学作用%亚临界裂纹扩展%应力强度因子
雙扭試件%常位移鬆弛法%水化學作用%亞臨界裂紋擴展%應力彊度因子
쌍뉴시건%상위이송이법%수화학작용%아림계렬문확전%응력강도인자
double torsion specimen%constant displacement load relaxation method%chemical water-rock interaction%subcritical crack growth%stress intensity factor
亚临界裂纹扩展是岩体工程时间相依性的主要原因之一,利用Inston1342型电液伺服材料试验机,采用常位移松弛法分别进行自然状态以及饱水状态下岩块的亚临界裂纹扩展实验,获得了两种环境下岩石裂纹扩展速率v 与应力强度因子KI的关系及亚临界裂纹扩展参数,研究水对岩石亚临界裂纹扩展规律的影响,并对两种环境下亚临界裂纹扩展参数进行了对比分析。结果表明:两种环境下岩石的lgK I?lgv有较好的线性规律,岩石的亚临界裂纹扩展速率与裂纹尖端应力强度因子服从幂函数关系;在双对数坐标空间中,含饱和水试件的lgK I?lgv曲线位于空气中试件lgK I?lgv曲线的左上角,含饱和水试件的曲线斜率较空气中试件的减小,而截距增加。在同一应力强度因子水平上,含饱和水试件的裂纹扩展速度大,表明水加速了岩体亚临界裂纹扩展。该实验结果可为水化学作用下复杂岩体的稳定性分析提供可靠依据。
亞臨界裂紋擴展是巖體工程時間相依性的主要原因之一,利用Inston1342型電液伺服材料試驗機,採用常位移鬆弛法分彆進行自然狀態以及飽水狀態下巖塊的亞臨界裂紋擴展實驗,穫得瞭兩種環境下巖石裂紋擴展速率v 與應力彊度因子KI的關繫及亞臨界裂紋擴展參數,研究水對巖石亞臨界裂紋擴展規律的影響,併對兩種環境下亞臨界裂紋擴展參數進行瞭對比分析。結果錶明:兩種環境下巖石的lgK I?lgv有較好的線性規律,巖石的亞臨界裂紋擴展速率與裂紋尖耑應力彊度因子服從冪函數關繫;在雙對數坐標空間中,含飽和水試件的lgK I?lgv麯線位于空氣中試件lgK I?lgv麯線的左上角,含飽和水試件的麯線斜率較空氣中試件的減小,而截距增加。在同一應力彊度因子水平上,含飽和水試件的裂紋擴展速度大,錶明水加速瞭巖體亞臨界裂紋擴展。該實驗結果可為水化學作用下複雜巖體的穩定性分析提供可靠依據。
아림계렬문확전시암체공정시간상의성적주요원인지일,이용Inston1342형전액사복재료시험궤,채용상위이송이법분별진행자연상태이급포수상태하암괴적아림계렬문확전실험,획득료량충배경하암석렬문확전속솔v 여응력강도인자KI적관계급아림계렬문확전삼수,연구수대암석아림계렬문확전규률적영향,병대량충배경하아림계렬문확전삼수진행료대비분석。결과표명:량충배경하암석적lgK I?lgv유교호적선성규률,암석적아림계렬문확전속솔여렬문첨단응력강도인자복종멱함수관계;재쌍대수좌표공간중,함포화수시건적lgK I?lgv곡선위우공기중시건lgK I?lgv곡선적좌상각,함포화수시건적곡선사솔교공기중시건적감소,이절거증가。재동일응력강도인자수평상,함포화수시건적렬문확전속도대,표명수가속료암체아림계렬문확전。해실험결과가위수화학작용하복잡암체적은정성분석제공가고의거。
Subcritical crack growth is one of the main causes of time-dependent behavior in rock mass engineering. By using Instronl 1342 type electro hydraulic servo test machine and adopting the double-torsion load-relaxation method at constant displacement, two groups of specimens, one immersed in groundwater and the other in air, were tested to study the relationship between the crack growth ratev and fracture toughnessKI, and the parameters of subcritical crack growth in the two different environments were gotten. The influence of water on the subcritical crack growth mechanism was analyzed, and comparisons of the parameters of the growth of subcritical crack were made for the two different environments above-mentioned.The results show that the parameters of lgKI?lgv are in accord with linear rules, the relationship between subcritical crack growth velocityvand stress intensity factorKI agrees power function. In the double logarithmic coordinates space, the lgKI?lgvcurves of those specimens in saturated water locate at the left coner above those of the specimens in air with smaller slope but larger intercept. In addition, the subcritical crack growth velocity of saturated water specimen is higher at the same stress intensity factor, which indicates that water speeds up the subcritical crack growth. Those results can provide reliable references to study the complicated rock mass stability under the effects of water.