中国有色金属学报
中國有色金屬學報
중국유색금속학보
THE CHINESE JOURNAL OF NONFERROUS METALS
2014年
5期
1345-1351
,共7页
张志军%李亚俊%刘玄钊%潘文鑫%刘永
張誌軍%李亞俊%劉玄釗%潘文鑫%劉永
장지군%리아준%류현쇠%반문흠%류영
尾矿坝%毛细水%上升高度
尾礦壩%毛細水%上升高度
미광패%모세수%상승고도
tailings dam%capillary water%rising height
尾矿坝坝体材料的物理力学特性因毛细作用会发生较大变化,这种变化势必影响尾矿坝的安全稳定状态。为此,开展了尾矿坝现场取样、室内毛细水上升测试等研究工作。结果表明,尾矿砂中毛细水的上升规律呈初期迅速而后期缓慢的变化趋势,这是其受多种作用力的共同作用所致。毛细水在短时间内就能上升到较大高度,前3天的毛细水上升高度约为最终上升高度的50%以上,之后毛细水持续缓慢上升直至稳定。这表明尾矿坝内毛细水将随浸润线的升高而迅速升高,从而影响尾矿砂的物理力学性质,进而可能在短期内影响尾矿坝的稳定性。采用幂函数对该金属矿山尾矿坝尾矿砂中毛细水随时间的变化关系进行了拟合,获得了毛细水上升规律计算式。
尾礦壩壩體材料的物理力學特性因毛細作用會髮生較大變化,這種變化勢必影響尾礦壩的安全穩定狀態。為此,開展瞭尾礦壩現場取樣、室內毛細水上升測試等研究工作。結果錶明,尾礦砂中毛細水的上升規律呈初期迅速而後期緩慢的變化趨勢,這是其受多種作用力的共同作用所緻。毛細水在短時間內就能上升到較大高度,前3天的毛細水上升高度約為最終上升高度的50%以上,之後毛細水持續緩慢上升直至穩定。這錶明尾礦壩內毛細水將隨浸潤線的升高而迅速升高,從而影響尾礦砂的物理力學性質,進而可能在短期內影響尾礦壩的穩定性。採用冪函數對該金屬礦山尾礦壩尾礦砂中毛細水隨時間的變化關繫進行瞭擬閤,穫得瞭毛細水上升規律計算式。
미광패패체재료적물리역학특성인모세작용회발생교대변화,저충변화세필영향미광패적안전은정상태。위차,개전료미광패현장취양、실내모세수상승측시등연구공작。결과표명,미광사중모세수적상승규률정초기신속이후기완만적변화추세,저시기수다충작용력적공동작용소치。모세수재단시간내취능상승도교대고도,전3천적모세수상승고도약위최종상승고도적50%이상,지후모세수지속완만상승직지은정。저표명미광패내모세수장수침윤선적승고이신속승고,종이영향미광사적물리역학성질,진이가능재단기내영향미광패적은정성。채용멱함수대해금속광산미광패미광사중모세수수시간적변화관계진행료의합,획득료모세수상승규률계산식。
The influence of capillary water on the physical and mechanical properties of dam materials of tailings dam is great, which will affect on the stability of tailings dam. Therefore, in-situ sampling and laboratory rising tests were carried out to study the rising law of capillary water in a tailings dam of a metal mine. The results show that the tendency of rising velocity of capillary water is fast increasing then decreasing, which is caused by combined action of several forces. The rising height of the capillary water in early 3 days is above 50% of the final rising height and keeps on increasing until stable. This indicate that capillary water will rise rapidly with the increase of phreatic level of tailings dam, which can impact the physical and mechanical properties of tailings sand and influence the stability of the tailings dam in a short time. The relation between rising height of capillary water and time can be better fitted by the power function, and the calculation equations are obtained.
