水利与建筑工程学报
水利與建築工程學報
수리여건축공정학보
TECHNIQUE OF SEEPAGE CONTROL
2014年
5期
73-78,97
,共7页
孙柏涛%徐博%王忠涛%王诺
孫柏濤%徐博%王忠濤%王諾
손백도%서박%왕충도%왕낙
软粘土地基%沉降%离心模型实验
軟粘土地基%沉降%離心模型實驗
연점토지기%침강%리심모형실험
soft clay foundation%settlement%centrifugal model test
考虑大连新海上机场的实际工程特点,提出合理的简化模型,采用鼓式离心模型实验,有效地模拟了深厚软粘土地基的长期沉降,同时考察了回填速率、柔性加载幅值和地基厚度及固结时间对沉降的影响。通过实验拟合获得了长期沉降过程中土体不排水剪切强度随含水率的变化关系,分别运用一维固结理论和对数曲线模型推求了时程沉降及最终沉降的理论值,并与离心模型实验结果进行了对比分析。结果表明,回填速率越快,加载幅值越大,地基厚度越大,固结时间越长,对应沉降量越大。同时经过55 a的长期沉降模拟,孔隙水压力尚未消散完毕,沉降仍在继续。对数曲线模型预测地基的工后沉降更为合理,为实际工程建设提供了可靠的技术参考。
攷慮大連新海上機場的實際工程特點,提齣閤理的簡化模型,採用鼓式離心模型實驗,有效地模擬瞭深厚軟粘土地基的長期沉降,同時攷察瞭迴填速率、柔性加載幅值和地基厚度及固結時間對沉降的影響。通過實驗擬閤穫得瞭長期沉降過程中土體不排水剪切彊度隨含水率的變化關繫,分彆運用一維固結理論和對數麯線模型推求瞭時程沉降及最終沉降的理論值,併與離心模型實驗結果進行瞭對比分析。結果錶明,迴填速率越快,加載幅值越大,地基厚度越大,固結時間越長,對應沉降量越大。同時經過55 a的長期沉降模擬,孔隙水壓力尚未消散完畢,沉降仍在繼續。對數麯線模型預測地基的工後沉降更為閤理,為實際工程建設提供瞭可靠的技術參攷。
고필대련신해상궤장적실제공정특점,제출합리적간화모형,채용고식리심모형실험,유효지모의료심후연점토지기적장기침강,동시고찰료회전속솔、유성가재폭치화지기후도급고결시간대침강적영향。통과실험의합획득료장기침강과정중토체불배수전절강도수함수솔적변화관계,분별운용일유고결이론화대수곡선모형추구료시정침강급최종침강적이론치,병여리심모형실험결과진행료대비분석。결과표명,회전속솔월쾌,가재폭치월대,지기후도월대,고결시간월장,대응침강량월대。동시경과55 a적장기침강모의,공극수압력상미소산완필,침강잉재계속。대수곡선모형예측지기적공후침강경위합리,위실제공정건설제공료가고적기술삼고。
According to the practical condition of the new Dalian offshore airport ,a properly simplified model was pro-posed to effectively simulate the long-term settlement of the deep soft clay foundation with the use of a drum-shaped cen-trifugal machine .Meanwhile ,the influences of backfilling rate ,flexible loading amplitude ,foundation thickness and consolidation time on the settlement were discussed . Through the test , the interaction between the undrained shear strength and water content of the clay in the process of long-term settlement was studied .The theoretical values of time-dependent and final settlement were derived with the help of one-dimensional consolidation theory and logarithmic curve model ,and then compared with those obtained from the centrifugal model test .The results reveal that with the increasing of the backfilling rate ,the loading amplitude gets wider ,foundation thickness gets deeper ,consolidation time becomes longer and the corresponding settlement becomes larger .In the meantime ,pore pressure still exits and the settlement is still ongoing after the long-term settlement simulation of 55 years .The logarithmic curve model has a better capacity of settlement prediction after the construction ,thus provides reliable technical references for engineering construction .