岩土力学
巖土力學
암토역학
ROCK AND SOIL MECHANICS
2013年
1期
80-84
,共5页
毛管水%粉土%强度%固结%渗流
毛管水%粉土%彊度%固結%滲流
모관수%분토%강도%고결%삼류
capillary water%silty soils%strength%consolidation%seepage
阐述了毛管水对土体强度、变形和渗流的影响.粉性土既有较高的毛管水头,又有一定的渗透性,水压传递快;毛管水对此类土的地基、基坑和堤坝等工程有明显的影响.研究的主要成果有:①根据试样浸水与否的无侧限抗压强度比较试验及理论分析,证明毛管水张力增高了土体强度,强度增高的数值,试验结果和理论分析相符;②计算分析雨季粉性土地表层毛管水张力消失和土体膨胀的过程;③借砂模试验和电拟试验,分析了毛管水对堤坝渗流流态的影响,毛管水增高了渗流量和出逸点高度;④提出了砂土和粉性土毛管水头 hc 和渗透系数 k 新的经验计算式.研究成果可应用于粉性土地基、基坑和堤坝等工程.
闡述瞭毛管水對土體彊度、變形和滲流的影響.粉性土既有較高的毛管水頭,又有一定的滲透性,水壓傳遞快;毛管水對此類土的地基、基坑和隄壩等工程有明顯的影響.研究的主要成果有:①根據試樣浸水與否的無側限抗壓彊度比較試驗及理論分析,證明毛管水張力增高瞭土體彊度,彊度增高的數值,試驗結果和理論分析相符;②計算分析雨季粉性土地錶層毛管水張力消失和土體膨脹的過程;③藉砂模試驗和電擬試驗,分析瞭毛管水對隄壩滲流流態的影響,毛管水增高瞭滲流量和齣逸點高度;④提齣瞭砂土和粉性土毛管水頭 hc 和滲透繫數 k 新的經驗計算式.研究成果可應用于粉性土地基、基坑和隄壩等工程.
천술료모관수대토체강도、변형화삼류적영향.분성토기유교고적모관수두,우유일정적삼투성,수압전체쾌;모관수대차류토적지기、기갱화제패등공정유명현적영향.연구적주요성과유:①근거시양침수여부적무측한항압강도비교시험급이론분석,증명모관수장력증고료토체강도,강도증고적수치,시험결과화이론분석상부;②계산분석우계분성토지표층모관수장력소실화토체팽창적과정;③차사모시험화전의시험,분석료모관수대제패삼류류태적영향,모관수증고료삼류량화출일점고도;④제출료사토화분성토모관수두 hc 화삼투계수 k 신적경험계산식.연구성과가응용우분성토지기、기갱화제패등공정.
This paper deals with the influence of capillary water on the strength and deformation of soils, and on the seepage flow state of levees and dams. Silty soils possess both higher water head and higher permeability, water pressure transmitting rapidly. So that the influence of capillary water in the engineering with silty soils is obvious. The principal research results are: ①According to the comparison tests of unconfined compression strength with samples immersed in the water or not, and with theoretical analysis, it has been demonstrated the capillary water head results the further consolidation and strength increasing of the soil. The strength increasing values of the tests are the same as the values of theoretical calculation. ②Analyzing and calculating the decreasing process of capillary water tension accompanied by soil expansion in silty surface strata on heavy rain condition. ③Using electric analog test and sand model test, the influence of capillary water on the seepage flow state of levees and dams is studied. The capillary water results the increasing of the seepage flow quantity and the height of release point. ④Two new empirical formulae of capillary water head and permeability coefficient of sand and silty soils are presented. The research results can be applied to the engineering of foundation foundation pits, levees and dams with silty soils.