水泥-双掺料胶凝体系碾压混凝土孔结构试验研究
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摘要
将磨细水淬矿渣与石灰石粉按一定比例混合制成双掺料,利用扫描电镜、压汞测孔技术研究了水泥-双掺料胶凝体系水化硬化浆体的密实度和孔结构发展规律,同时进行大掺量双掺料碾压混凝土强度及抗渗性随龄期变化试验。结果表明,随着水化龄期的增长,双掺料与粉煤灰相似,具有优化浆体孔结构的作用,硬化浆体无害孔比例明显增加,浆体密实度改善,混凝土强度及抗渗性能均有显著提高。
Ground blast furnance slags(GBFS)and limestone powder mixed in appropriate proportions can be made into bi-component admixture.The development of the pore system in the hardened cement paste,which contains a high-volume of the bi-component admixture,was studied using scanning electron microscopy(SEM)and mercury intrusion porosimetry(MIP).Meanwhile,mechanical tests and the impermeability tests were performed on roller-compacted concrete(RCC)contains the bi-component admixture.Experimental results showed that the bi-component admixture,similar with fly ash,can optimize the pore system in the paste with the increasing of hydration age.Also,the porosity of the hardened paste decreased and the percentage of the sound pores increased significantly,leading to an improvement of its density.In addition,the strength and the impermeability of the bi-component RCC was significantly improved.
Ground blast furnance slags(GBFS)and limestone powder mixed in appropriate proportions can be made into bi-component admixture.The development of the pore system in the hardened cement paste,which contains a high-volume of the bi-component admixture,was studied using scanning electron microscopy(SEM)and mercury intrusion porosimetry(MIP).Meanwhile,mechanical tests and the impermeability tests were performed on roller-compacted concrete(RCC)contains the bi-component admixture.Experimental results showed that the bi-component admixture,similar with fly ash,can optimize the pore system in the paste with the increasing of hydration age.Also,the porosity of the hardened paste decreased and the percentage of the sound pores increased significantly,leading to an improvement of its density.In addition,the strength and the impermeability of the bi-component RCC was significantly improved.
引文
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[3]陈改新,孔祥芝.石灰石粉——一种新的碾压混凝土掺合料[J].中国水利,2007(21):16-18.
[4]邓山翔.戈兰滩水电站碾压混凝土坝十大筑坝特点[J].云南水力发电,2008,24(S1):45-49.
[5]肖佳,何彦琪,郭明磊,等.石粉对混凝土抗渗性能的影响[J].混凝土,2015(12):89-92.
[6]吴中伟,廉慧珍.高性能混凝土[M].北京:中国铁道出版社,1999(9).
[7] P.梅泰.混凝土的结构、性能与材料[M].祝永年,沈威,译.上海:同济大学出版社,1991(11).
[8]赵铁军.混凝土渗透性[M].北京:科学出版社,2006(1).
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