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
1期
67-71,111
,共6页
周仁%倪小东%王媛%许修亮
週仁%倪小東%王媛%許脩亮
주인%예소동%왕원%허수량
Asaoka法%预压时效%软土地基%渗透系数变化
Asaoka法%預壓時效%軟土地基%滲透繫數變化
Asaoka법%예압시효%연토지기%삼투계수변화
Asaoka’s method%preloading time effect%soft soil foundation%change of permeability coefficient
Asaoka法是以土体固结系数保持不变为前提推导而来,而工程中压缩模量和渗透系数的改变会引起固结系数的变化。借助ABAQUS软件,研究预压时效和渗透系数变化对Asaoka法预测精度的影响,分析一般性粘土和软土在常规渗透系数和变渗透系数下预压时效对Asaoka法预测最终沉降的影响。结果表明:预压期越长,Asaoka法推算的最终沉降量越大,相对误差越小;变渗透系数下相同预压时间的Asaoka法预测精度明显小于常规渗透系数下的预测精度,其中以软土的差别最大;Asaoka法运用于渗透系数较小的软土中在较长的预压期内预测精度较高。
Asaoka法是以土體固結繫數保持不變為前提推導而來,而工程中壓縮模量和滲透繫數的改變會引起固結繫數的變化。藉助ABAQUS軟件,研究預壓時效和滲透繫數變化對Asaoka法預測精度的影響,分析一般性粘土和軟土在常規滲透繫數和變滲透繫數下預壓時效對Asaoka法預測最終沉降的影響。結果錶明:預壓期越長,Asaoka法推算的最終沉降量越大,相對誤差越小;變滲透繫數下相同預壓時間的Asaoka法預測精度明顯小于常規滲透繫數下的預測精度,其中以軟土的差彆最大;Asaoka法運用于滲透繫數較小的軟土中在較長的預壓期內預測精度較高。
Asaoka법시이토체고결계수보지불변위전제추도이래,이공정중압축모량화삼투계수적개변회인기고결계수적변화。차조ABAQUS연건,연구예압시효화삼투계수변화대Asaoka법예측정도적영향,분석일반성점토화연토재상규삼투계수화변삼투계수하예압시효대Asaoka법예측최종침강적영향。결과표명:예압기월장,Asaoka법추산적최종침강량월대,상대오차월소;변삼투계수하상동예압시간적Asaoka법예측정도명현소우상규삼투계수하적예측정도,기중이연토적차별최대;Asaoka법운용우삼투계수교소적연토중재교장적예압기내예측정도교고。
Asaoka’s method is based on the theory that the consolidation coefficient of soil keeps constant ,but in fact , the changes of compression modulus and the permeability coefficient can cause the change of consolidation coefficient .For studying the influence of preloading time-effect and variable permeability coefficient in the prediction of Asaoka ’s method by using ABAQUS software ,the influence of preloading time-effect of clay and soft soil on the settlement magnitude by using Asaoka’s method was analyzed in the case of constant permeability coefficient and variable permeability coefficient . The results show that the final settlement magnitude by using Asaoka ’ s method is large and the relative error is small when the preloading time is long .The prediction accuracy is significantly small in the case of variable permeability coeffi-cient ,especially in the soft soil .It needs longer preloading time when using Asaoka ’s method in the soft soil with small permeability coefficient so as to achieve the higher prediction accuracy .