试验研究了水泥-大理石粉浆体剪切应力和塑性黏度随剪切速率变化的规律,使用Bingham流体模型和PowerLaw流体模型分别对浆体低剪切速率和高剪切速率阶段的剪切应力进行拟合,得到浆体屈服应力,塑性黏度系数.探究了水泥-大理石粉颗粒丛特性即颗粒分布宽度、颗粒数密度、总比表面积和Zeta电位与浆体屈服应力和塑性黏度的关系.研究结果表明:大理石粉比表面积小于640m2/kg时,起到稀化浆体的作用,大于640m2/kg时起稠化作用,且稀化或稠化的作用随其掺量的增加而增大.浆体中颗粒间接触点数量和固-液相接触面积增大使浆体屈服应力,塑性黏度提高.大理石粉降低了水泥浆体Zeta电位,浆体中粒子间静电作用力减弱,对流动性起到削弱作用.
参考文献
| [1] | Rana, Aditya;Kalla, Pawan;Csetenyi, Laszlo J..Sustainable use of marble slurry in concrete[J].Journal of cleaner production,2015May 1(May 1):304-311. |
| [2] | 桂苗苗;曾冲盛;江达宣;龚明子.惰性石粉在预拌混凝土中的应用技术初探[J].新型建筑材料,2014(9):6-10,94. |
| [3] | Vardhan, Kirti;Goyal, Shweta;Siddique, Rafat;Singh, Malkit.Mechanical properties and microstructural analysis of cement mortar incorporating marble powder as partial replacement of cement[J].Construction and Building Materials,2015Oct.15(Oct.15):615-621. |
| [4] | Ali A. Aliabdo;Abd Elmoaty M. Abd Elmoaty;Esraa M. Auda.Re-use of waste marble dust in the production of cement and concrete[J].Construction and Building Materials,2014Jan.(Jan.):28-41. |
| [5] | Seung Heun Lee;Hong Joo Kim;Etsuo Sakai.Effect of particle size distribution of fly ash - cement system on the fluidity of cement pastes[J].Cement and Concrete Research,20035(5):763-768. |
| [6] | Prakash Nanthagopalan;Michael Haist;Manu Santhanam.Investigation on the influence of granular packing on the flow properties of cementitious suspensions[J].Cement & concrete composites,20089(9):763-768. |
| [7] | Dale P. Bentz;Chiara F. Ferraris;Michael A. Galler.Influence of particle size distributions on yield stress and viscosity of cement-fly ash pastes[J].Cement and Concrete Research,20122(2):404-409. |
| [8] | Moulin P.;Roques H..Zeta potential measurement of calcium carbonate[J].Journal of Colloid and Interface Science,20031(1):115-126. |
| [9] | M. Castellote;I. Llorente;C. Andrade.Influence of the composition of the binder and the carbonation on the zeta potential values of hardened cementitious materials[J].Cement and Concrete Research,200610(10):1915-1921. |
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