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混凝土再生粉复合锰渣的胶凝性试验研究

Experimental study on gelling properties of recycled concrete powder composite manganese slag
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摘要 原材料各组分对胶凝材料性能的影响较大,为此,探讨混凝土再生粉、锰渣、Na2SO4的掺量及水灰比对砂浆力学性能的影响,并采用吸水动力学法测定砂浆的孔结构参数(孔均匀系数、平均孔径、干表观密度),同时测定高温后砂浆的力学性能。结果表明:砂浆中掺入适量的Na2SO4、混凝土再生粉、锰渣或降低水灰比,均有利于提高砂浆的抗折强度,在早期较为显著,对后期的影响较小;适量的锰渣掺量有利于提高砂浆的抗压强度和耐高温性能; Na2SO4、混凝土再生粉、锰渣和水灰比都能在一定程度上改变砂浆的孔径分布,细化孔结构。因此,适量混凝土再生粉、锰渣、Na2SO4的掺入或降低水灰比,有利于提高砂浆的抗折/抗压强度和耐高温性能,细化砂浆孔结构。 The components and test conditions has great effect on the mechanical properties of mortar. Therefore,the content of concrete reclaimed powder,manganese slag,Na2SO4 and the ratio of water to cement were discussed.The pore structure parameters (pore homogeneity,average pore diameter and dry apparent density)of the mortar were determined by the water absorption kinetics method.The mechanical properties of the mortar after high temperature were also measured.The results show that adding mortar with proper amount of Na2SO4,recycled powder of concrete,manganese slag or reducing the ratio of water to cement can improve the flexural strength of mortar,and the effect was more significant in the early stage and then decreased.Appropriate amount of manganese slag content is conducive to improving the mortar compressive strength and high temperature performance.Na2SO4,concrete reclaimed powder, manganese slag and water -cement ratio all can change the pore size distribution of mortar to a certain extent and refine the pore structure.Therefore,the proper amount of recycled concrete powder,manganese slag,Na2SO4 ,incorporation or reduce the water -cement ratio is conducive to improve the mortar flexural/compressive strength and high temperature performance,and refine the pore structure of mortar.
作者 邓洪刚 吴福飞 朱丽菊 罗成 DENG Honggang;WU Fufei;ZHU Liju;LUO Cheng(School of Materials and Architectural Engineering,Guizhou Normal University,Guiyang 550025,China;The First Construction Co.,Ltd.of China Fourth Construction Bureau,Guangzhou 510800,China)
出处 《水资源与水工程学报》 CSCD 2018年第5期208-212,217,共6页 Journal of Water Resources and Water Engineering
基金 贵州师范大学2017年大学生创新创业训练计划项目(201710663004) 贵州师范大学2016年博士科研启动项目(0517073) 贵州科技厅-贵州师范大学联合基金项目(黔科合LH字[2017]7351号) 贵州省教育厅青年科技人才成长项目(2018)
关键词 混凝土再生粉 复合锰渣 砂浆 力学性能 孔结构 高温性能 recycled concrete powder compound manganese slag mortar mechanical property pore structure high temperature performance
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