Materials Reports 2020, Vol. 34 Issue (Z2): 250-254 |
INORGANIC MATERIALS AND CERAMIC MATRIX COMPOSITES |
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Study on Chloride Ion Dissolution of Coral Sand for Concrete |
SONG Putao1,2, WANG Jing1,2, GUAN Qingfeng1,2, ZHOU Yongxiang1,2, HUANG Jing1,2, LENG Faguang1,2
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1 China Academy of Building Research, Beijing 100013, China 2 CABR Building Materials Co., LTD, Beijing 100013, China |
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Abstract Chloride dissolution of coral sand with 0.03% chloride ion in deionized water, saturated calcium hydroxide solution and cement slurry filtrate was studied, the chloride release from coral sand with different grain size and the effect of artificial grinding on the chloride release from coral sand were studied. It was found that the content of chloride ion decreased in Saturated Calcium hydroxide solution with the increase of soaking time, while the content of chloride ion increased in deionized water and cement slurry filtrate with the increase of soaking time. The amount of chloride ion dissolved from coral sand in deionized water, saturated calcium hydroxide and filtrate of cement slurry was stable after soaking for 14 d,12 h and 12 h, and then the contents of chloride ion in three solvents were 0.032 0%,0.012 8% and 0.013 8% respectively. During the desalination process, the longest dissolution time of chloride ions was 7 d for coral sand grain sizes of ≤0.075 mm and 2.36—4.75 mm particles, while that of other grain sizes was shorter to 2—12 h. The final concentration of chloride ion in coral sand of particle size from 2.36 mm to 4.75 mm was the highest(1.919×10-3 μg/mL),the final chloride ion concentration decreased at first and then increased with the decrease of the maximum particle size of each size fraction. The release time of chloride ion was shortened from 7 d to 2 h, and the concentration of chloride ion was decreased from 1.919×10-3 μg/mL to 0.707×10-3 μg/mL, after the coral sand was ground from 2.36—4.75 mm to 1.18—2.36 mm.
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Published: 08 January 2021
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Fund:This work was financially supported by the National Key R & D Program of China (2017YFB0309900). |
About author:: Putao Song received his M.S. degree from Wuhan University of Technology. He is a senior engineer in High Performance Concrete Research Center, China Academy of Building Research (CABR). His research interests are the research and application technology of concrete admixture, cement grouting agent (materials) and shield grouting material and so on. As a major member, he participated in Polycarboxylates high performance water-reducing admixture JG/T 223, Compound mineral admixtures for concrete JG/T 486, Technical specification for simultaneous grouting material in shield projects and many other items. More than 20 articles have been published in important journals. |
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1 林伟才. 海水拌制珊瑚礁砂混凝土的特性及工程应用研究.硕士学位论文,华南理工大学,2017. 2 王以贵. 水运工程,1988(9), 46. 3 马林建,李增,陈欣星,等.硅酸盐通报, 2018, 37(8), 2471. 4 王越洋,欧忠文,刘晋铭,等. 混凝土,2018(9), 114. 5 达波. 高强全珊瑚海水混凝土的制备技术、耐久性及构件力学性能研究.博士学位论文,南京航空航天大学,2017. 6 周文,周永祥,宋普涛,等.新型建筑材料,2019,46(12), 21. 7 郭超,潘跃进,倪琦,等.公路交通科技(应用技术版),2018,14(1), 122. 8 苏丽,牛荻涛,罗大明.材料导报:综述篇,2018,32(10), 3387. 9 邓绍云. 混凝土,2019(7),137. 10 陈飞翔,张国志,丁沙,等. 混凝土与水泥制品,2016(7),16. 11 张彭辉,侯健,郭为民. 装备环境工程, 2018(5), 10. 12 余以明,刘松,吴柯,等. 新型建筑材料,2018,45(3), 27. 13 李捷,方祥位,张伟,等.水利与建筑工程学报,2017,15(2), 43. 14 Elakneswaran Y, Nawa T, Kurumisawa K. Cement and Concrete Research, 2009,39(4),340. 15 耿海宁. 偏高岭土改性海工混凝土的若干问题研究. 博士学位论文,武汉理工大学,2014. 16 傅建彬. 海砂建筑材料资源化几个关键技术的研究. 硕士学位论文,武汉大学,2005. 17 刘伟,蒲正霖,孙红芳,等. 建筑材料学报, 2016, 19(5), 921. 18 郭元强. 新型建筑材料, 2019, 46(1), 50. |
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