养护龄期对EDTA滴定法测定尾砂胶结充填体水泥含量的影响
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摘要
在应用EDTA滴定法测尾砂胶结充填体水泥含量中,因充填体的EDTA二钠标准溶液消耗量随养护龄期的增长而降低导致测定不同养护龄期充填体的水泥含量需分别制定标准曲线。为研究养护龄期对充填体EDTA二钠标准溶液消耗量的影响,通过开展试验,并利用扫描电子显微镜(SEM)进一步分析验证试验结果,得出养护龄期主要是通过影响水泥水化进程,进而影响NH4Cl弱酸溶液溶解充填体中的Ca~(2+)含量而影响充填体EDTA二钠标准溶液消耗量的结论。
In the determination of cement content in cemented tailings backfill by EDTA titration method,the cement content of different curing age of filling bodides should be determined separately,because the consumption of EDTA disodium standard solution decreases with the increase of curing age.To study the effect of curing age on the consumption of EDTA disodium standard solution of the filling body,the research experiment and further verification test using scanning electron microscopy(SEM)were conducted in this paper and it concluded that the maintenance age influenced the consumption of EDTA disodium standard solution of the filling body mainly through affecting the process of cement hydration and the Ca2+content in the filling body dissolved by the NH4Cl weak acid solution.
In the determination of cement content in cemented tailings backfill by EDTA titration method,the cement content of different curing age of filling bodides should be determined separately,because the consumption of EDTA disodium standard solution decreases with the increase of curing age.To study the effect of curing age on the consumption of EDTA disodium standard solution of the filling body,the research experiment and further verification test using scanning electron microscopy(SEM)were conducted in this paper and it concluded that the maintenance age influenced the consumption of EDTA disodium standard solution of the filling body mainly through affecting the process of cement hydration and the Ca2+content in the filling body dissolved by the NH4Cl weak acid solution.
引文
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[2]周爱民.中国充填技术概述[J].矿业研究与开发,2004,24(增刊1):1-7.ZHOU Aimin.Overview of filling technology in China[J].Mining Research and Development,2004,24(S1):1-7.
[3]陈鑫政,杨小聪,郭利杰,等.尾砂胶结充填体的水泥含量测定试验研究[J].有色金属工程,2018,8(6):69-74.CHEN Xinzheng,YANG Xiaocong,GUO Lijie,et al.Experimental study on the determination of cement content in cemented tailings backfill[J].Nonferrous Metals Engineering,2018,8(6):69-74.
[4]王保田,张永奇,宋为广,等.EDTA滴定法检测水泥搅拌桩水泥含量影响因素试验研究[J].科学技术与工程,2015,15(3):270-274.WANG Baotian,ZHANG Yongqi,SONG Weiguang,et al.Experimental study on the factor that EDTA titration detects the cement content of cement mixing pile[J].Science Technology and Engineering,2015,15(3):270-274.
[5]许爱国.EDTA滴定法影响因素的讨论[J].长沙铁道学院学报(社会科学版),2012,13(2):200-201.XU Aiguo.Discussion on the influencing factors of EDTA titration[J].Journal of Changsha Railway University(Social Science),2012,13(2):200-201.
[6]李艳红.分析化学[M].北京:石油工业出版社,2008.LI Yanhong.Analytical chemistry[M].Beijing:Petroleum Industry Press,2008.
[7]李茂辉,杨志强,高谦,等.全尾砂新型充填胶凝材料开发及其水化机理探讨[J].河海大学学报(自然科学版),2015,43(4):335-340.LI Maohui,YANG Zhiqiang,GAO Qian,et al.Discussion on exploitation of new backfilling cementing materials with unclassified tailings and associated hydration mechanisms[J].Journal of Hohai University(Natural Sciences),2015,43(4):335-340.
[8]王培铭,刘贤萍,胡曙光,等.硅酸盐熟料-煤矸石/粉煤灰混合水泥水化模型研究[J].硅酸盐学报,2007,35(增刊1):184-190.WANG Peiming,LIU Xianping,HU Shuguang,et al.Hydration Models of Portland Coal Gangue Cement and Portland Fly-ash Cement[J].Journal of Chinese Ceramic Society,2007,35(S1):184-190.
[9]何小芳,张亚爽,李小庆,等.水泥水化产物的热分析研究进展[J].硅酸盐通报,2012,31(5):140-144.HE Xiaofang,ZHANG Yashuang,LI Xiaoqing,et al.Research progress of thermal analysis in cement hydration[J].Bulletin of the Chinese Ceramic Society,2012,31(5):140-144.
[10]康宇.硅酸盐类水泥早期水化特性及其关系的探索[D].南宁:广西大学,2006.KANG Yu.Investigation on portland-type cement early hydration characteristics and their relations[D].Nanning:Guangxi University,2006.
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