采用CO2养护加速碳化镁渣砂浆,制备了低碳胶凝材料。研究了水灰比和碳化龄期对碳化镁渣砂浆的力学性能及微观结构的影响。结果表明:在CO2浓度为99.9%、压力为0.1 MPa、温度为23℃的碳化养护条件下,水灰比为0.4的镁渣砂浆碳化14 d后,抗压强度是其碳化前强度值的9.9倍,延长碳化时间有利于强度的提高。水灰比对碳化砂浆强度影响显著,低水灰比试件碳化后强度提高更多。通过微观分析发现,碳化养护提高镁渣砂浆强度的原因是,碳化后生成大量的CaCO3,使试件更加致密,孔隙率降低。
Low carbon cementitious materials were prepared via carbonating magnesium slag mortars .The effects of water to cement ratio and carbonation curing duration on the compressive strength and microstructure of magnesium slag mortars were investigated .Results show that , the compressive strengths of mortars with a water to cement ratio of 0.4, after carbonation curing in CO 2 with a concentration of 99.9%and gas pressure of 0.1 MPa at 23 ℃ for 14 d, are increased by up to 9.9 times compared to those mortars without carbonation curing .The increase of carbonation curing duration increased the compressive strengths of the mortars .The influence of water to cement ratio on the strength of mortars was remarkable . The strength of specimens with lower water to cement ratio increased more after carbonation .According to microstructure analysis , it was found that the treatment of CO 2 enhanced the microstructures densification and decreased the amount of relatively coarse pores and total pore volume due to the formation of calcite ( CaCO 3 ) .
参考文献
| [1] | Emad Benhelal;Gholamreza Zahedi;Ezzatollah Shamsaei;Alireza Bahadori.Global strategies and potentials to curb CO_2 emissions in cement industry[J].Journal of cleaner production,2013Jul.15(Jul.15):142-161. |
| [2] | 邵曰剑;贾志琦;陈健.山西省镁工业污染防治现状与对策研究[J].山西科技,2007(5):11-12,31. |
| [3] | 赵琳琳 .闻喜县镁工业区镁生产对土壤环境的污染特点——含量水平和空间分布特点[D].山西大学,2011. |
| [4] | 田玉明;周少鹏;王凯悦;陈战考;柴跃生.镁渣资源化研究新进展[J].山西冶金,2014(1):1-4. |
| [5] | 章启军;刘育鑫;吴玉锋.金属镁渣的回收利用现状[J].再生资源与循环经济,2011(6):30-32. |
| [6] | 肖力光;王思宇;雒锋.镁渣等工业废渣应用现状的研究及前景分析[J].吉林建筑工程学院学报,2008(1):1-7. |
| [7] | 张丰;莫立武;邓敏.碳化MgO-CaO-粉煤灰-水泥四元组分制备砂浆的强度和微观结构[J].硅酸盐学报,2015(8):1032-1039. |
| [8] | 常钧;吴昊泽.钢渣碳化机理研究[J].硅酸盐学报,2010(7):1185-1190. |
| [9] | Liwu Mo;Daman K. Panesar.Effects of accelerated carbonation on the microstructure of Portland cement pastes containing reactive MgO[J].Cement and Concrete Research,20126(6):769-777. |
| [10] | Daman K. Panesar;Liwu Mo.Properties of binary and ternary reactive MgO mortar blends subjected to CO_2 curing[J].Cement & concrete composites,2013:40-49. |
| [11] | M. Fernandez Bertos;S.J.R. Simons;C.D. Hills;P.J. Carey.A review of accelerated carbonation technology in the treatment of cement-based materials and sequestration of CO_2[J].Journal of hazardous materials,20043(3):193-205. |
| [12] | Fang, Yanfeng;Chang, Jun.Microstructure changes of waste hydrated cement paste induced by accelerated carbonation[J].Construction and Building Materials,2015Feb.1(Feb.1):360-365. |
| [13] | P. De Suva;L. Bucea;D.R. Moorehead.Carbonate binders: Reaction kinetics, strength and microstructure[J].Cement & concrete composites,20067(7):613-620. |
| [14] | Jun Chang;Yong Li;Mingli Cao;Yanfeng Fang.Influence of magnesium hydroxide content and fineness on the carbonation of calcium hydroxide[J].Construction and Building Materials,2014Mar.(Mar.):82-88. |
| [15] | Martin Liska.Ultra-green construction: reactive MgO masonry products[J].Proceedings of the institution of civil engineers: Waste and resource management,2009WR4(WR4):185-196. |
| [16] | M. Liska;L. J. Vandeperre;A. Al-Tabbaa.Influence of carbonation on the properties of reactive magnesia cement-based pressed masonry units[J].Advances in Cement Research,20082(2):53-64. |
| [17] | 吴昊泽;张林菊;叶正茂;程新;常钧;郑文军.水分对钢渣碳化的影响[J].济南大学学报(自然科学版),2009(3):221-224. |
| [18] | Mo, Liwu;Zhang, Feng;Deng, Min.Effects of carbonation treatment on the properties of hydrated fly ash-MgO-Portland cement blends[J].Construction and Building Materials,2015Oct.15(Oct.15):147-154. |
| [19] | 吴昊泽 .利用钢渣和造纸污泥吸收工业废气制备建材制品[D].济南大学,2011. |
- 下载量()
- 访问量()
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%