水利学报
水利學報
수리학보
2013年
10期
1165-1174
,共10页
湿颗粒材料%非饱和土%球体颗粒%持水曲线%滞回
濕顆粒材料%非飽和土%毬體顆粒%持水麯線%滯迴
습과립재료%비포화토%구체과립%지수곡선%체회
wet particulate material%unsaturated soil%sphere particle%water retention curve%hysteresis
非饱和土持水特性的滞回机理是土力学界的热点问题之一。将非饱和土看作“湿颗粒材料”并以“土-颗粒-系统”为视角更易认识其持水特性的滞回机理。以均匀湿颗粒材料为研究对象,用轴对称圆锥形孔隙内水分的充填和排出过程来模拟边界增、减湿过程,提出一种物理模型以描述其滞回特性的物理内涵,并利用已有文献中3种砂土和2种含黏砂土的持水试验结果验证了该模型在表征均匀湿颗粒材料边界滞回持水曲线时的有效性。该模型的优点在于不仅对同种均匀湿颗粒材料滞回的边界减、增湿持水曲线可采用同一组具有物理意义的参数模拟,而且可反映孔隙水内封闭气泡对持水曲线的影响。
非飽和土持水特性的滯迴機理是土力學界的熱點問題之一。將非飽和土看作“濕顆粒材料”併以“土-顆粒-繫統”為視角更易認識其持水特性的滯迴機理。以均勻濕顆粒材料為研究對象,用軸對稱圓錐形孔隙內水分的充填和排齣過程來模擬邊界增、減濕過程,提齣一種物理模型以描述其滯迴特性的物理內涵,併利用已有文獻中3種砂土和2種含黏砂土的持水試驗結果驗證瞭該模型在錶徵均勻濕顆粒材料邊界滯迴持水麯線時的有效性。該模型的優點在于不僅對同種均勻濕顆粒材料滯迴的邊界減、增濕持水麯線可採用同一組具有物理意義的參數模擬,而且可反映孔隙水內封閉氣泡對持水麯線的影響。
비포화토지수특성적체회궤리시토역학계적열점문제지일。장비포화토간작“습과립재료”병이“토-과립-계통”위시각경역인식기지수특성적체회궤리。이균균습과립재료위연구대상,용축대칭원추형공극내수분적충전화배출과정래모의변계증、감습과정,제출일충물리모형이묘술기체회특성적물리내함,병이용이유문헌중3충사토화2충함점사토적지수시험결과험증료해모형재표정균균습과립재료변계체회지수곡선시적유효성。해모형적우점재우불부대동충균균습과립재료체회적변계감、증습지수곡선가채용동일조구유물리의의적삼수모의,이차가반영공극수내봉폐기포대지수곡선적영향。
Hysteresis mechanism for water retention behavior is increasingly concerned by unsaturated soil mechanics researchers. It is easier to cognize the essence of this mechanism for wet particulate material such as unsaturated soil,from the perspective of“soil-particle-system”. A physical water retention model is proposed for uniform wet particulate material, where boundary wetting and drying processes are considered to be the filling and draining processes of assumed symmetrical cone-shaped pores. The model is then veri-fied using the retention data for three sands and two clayed sands in the past literature. In summary,the advantage of this model is that all model parameters,which have definite physical base,behave unique for hysteresis boundary retention curves,and the influence of the closed air bubbles in pore water is also con-sidered.
