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
z2期
3064-3072
,共9页
韩铁林%陈蕴生%师俊平%余朝%何明明
韓鐵林%陳蘊生%師俊平%餘朝%何明明
한철림%진온생%사준평%여조%하명명
岩石力学%砂岩%水化学腐蚀%细观化学损伤变量%孔隙率%黏聚力%内摩擦角
巖石力學%砂巖%水化學腐蝕%細觀化學損傷變量%孔隙率%黏聚力%內摩抆角
암석역학%사암%수화학부식%세관화학손상변량%공극솔%점취력%내마찰각
rock mechanics%sandstone%hydrochemical erosion%meso-chemical damage variable%porosity%cohesion%internal friction angle
通过砂岩在不同水化学溶液中浸泡后的常规三轴压缩试验,对比分析受不同 pH 值、不同浓度和不同化学成分的化学溶液腐蚀后砂岩的变形特性、强度特性及其微细观结构特征,并监测化学溶液中Ca2+,Mg2+离子浓度的变化规律,初步探讨砂岩试样的水化学腐蚀机制。试验结果表明:化学腐蚀后,砂岩试样有从脆性向延性转化的趋势;砂岩的力学参数均有不同程度的降低,并且,砂岩力学参数的劣化程度与其物理化学参数之间存在密切的关系,试样的孔隙率或纵波波速变化越大,或溶出的离子浓度越多,其力学参数的降低程度越大。引入新的损伤参量来定量地表达试样力学参数随水化学损伤的演化过程。
通過砂巖在不同水化學溶液中浸泡後的常規三軸壓縮試驗,對比分析受不同 pH 值、不同濃度和不同化學成分的化學溶液腐蝕後砂巖的變形特性、彊度特性及其微細觀結構特徵,併鑑測化學溶液中Ca2+,Mg2+離子濃度的變化規律,初步探討砂巖試樣的水化學腐蝕機製。試驗結果錶明:化學腐蝕後,砂巖試樣有從脆性嚮延性轉化的趨勢;砂巖的力學參數均有不同程度的降低,併且,砂巖力學參數的劣化程度與其物理化學參數之間存在密切的關繫,試樣的孔隙率或縱波波速變化越大,或溶齣的離子濃度越多,其力學參數的降低程度越大。引入新的損傷參量來定量地錶達試樣力學參數隨水化學損傷的縯化過程。
통과사암재불동수화학용액중침포후적상규삼축압축시험,대비분석수불동 pH 치、불동농도화불동화학성분적화학용액부식후사암적변형특성、강도특성급기미세관결구특정,병감측화학용액중Ca2+,Mg2+리자농도적변화규률,초보탐토사암시양적수화학부식궤제。시험결과표명:화학부식후,사암시양유종취성향연성전화적추세;사암적역학삼수균유불동정도적강저,병차,사암역학삼수적열화정도여기물이화학삼수지간존재밀절적관계,시양적공극솔혹종파파속변화월대,혹용출적리자농도월다,기역학삼수적강저정도월대。인입신적손상삼량래정량지표체시양역학삼수수수화학손상적연화과정。
The triaxial compression tests of sandstone sample soaked in different water chemical solutions are carried out. The effects of different pH values,different concentrations and different chemical compositions of chemical solution on deformation parameter,strength parameter and its microstructure are investigated,and the change regulation of Ca2+and Mg2+concentration of chemical solution are monitored,at the same time,the mechanism of hydrochemical damage to sandstone sample is discussed. The experimental results show that chemical corrosion results in the transformation of brittle failure to ductile failure of sandstone. The mechanical parameters of sandstone are reduced,and the degradation of mechanical parameters of sandstone is related to its physico-chemical parameters,the greater change of its porosity or longitudinal wave,or the greater the ion concentration from sandstone sample,the greater degradation of mechanical parameters. A new variable is introduced to quantitatively express the hydrochemical damage process of physico-mechanical parameters of sandstone samples.