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引用本文:	许星星,李晶,陈啸洋,余红发,关岩.蔗糖和活性氧化镁对硫氧镁水泥水化进程的影响[J].建筑材料学报,2023,26(2):193-199

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蔗糖和活性氧化镁对硫氧镁水泥水化进程的影响
许星星¹，李晶²，陈啸洋²，余红发³，关岩^1,4
1.辽宁科技大学材料与冶金学院, 辽宁鞍山 114051;2.辽宁科技大学化学工程学院, 辽宁鞍山 114051;3.南京航空航天大学土木工程学院, 江苏南京 210016;4.辽宁科技大学科大峰驰镁建材研究院, 辽宁鞍山 114051

摘要:

为了缩短硫氧镁水泥（MOSC）的凝结时间，提高其早期力学性能，以蔗糖为分散剂，用不同水化活性的氧化镁（MgO）粉制备了MOSC，分析了蔗糖对MOSC凝结时间、水化性能、抗压强度、物相组成、微观形貌和孔结构的影响. 结果表明：活性为75.0%的MgO粉较活性为65.5%的MgO粉制备的MOSC凝结时间更短，早期抗压强度更高；蔗糖作为分散剂更适用于活性为75.0%的MgO粉制备的MOSC体系，通过其空间位阻效应的发挥，改善新拌浆体的流动度，延长新拌浆体的初凝时间和终凝时间，还能抑制Mg（OH）₂的生长，降低硬化浆体的孔隙率，提高其28 d的抗压强度；蔗糖可促进MOSC吸收大气中的CO₂形成MgCO₃晶体.

关键词: 硫氧镁水泥活性氧化镁粉蔗糖水化进程抗压强度水化产物孔结构

DOI：10.3969/j.issn.1007-9629.2023.02.012

分类号:TQ172.1

基金项目:国家重点研发计划资助项目（2020YFC1909304）；国家自然科学基金资助项目（51778101）

Effect of Sucrose and Active Magnesia on the Hydration Process of Magnesium Oxysulfate Cement

XU Xingxing¹, LI Jing², CHEN Xiaoyang², YU Hongfa³, GUAN Yan^1,4

1.School of Materials and Metallurgy， University of Science and Technology Liaoning， Anshan 114051， China;2.School of Chemical Engineering， University of Science and Technology Liaoning， Anshan 114051， China;3.Department of Civil Engineering， Nanjing University of Aeronautics and Astronautics， Nanjing 210016， China;4.Reseach Institution of Keda Fengchi Magnesium Building Materials， Anshan 114051， China

Abstract:

To shorten the setting time and improve the early mechanical property of magnesium oxysulfate cement （MOSC）， MOSC was prepared using magnesia（MgO） powder with different activities， and sucrose was used as a dispersing agent. The effect of sucrose on the setting time， hydration performance， compressive strength， phase composition， microstructure and pore structure of MOSC was investigated. The results show that， compared with samples prepared using MgO powder with 65.5% hydration activity， the setting time of MOSC prepared using MgO powder with 75.0% hydration activity is shorter and its early compressive strength is higher. Sucrose is preferable to MOSC prepared using MgO powder with 75.0% hydration activity. The sterically hindered effect of sucrose improves the fluidity of fresh MOSC paste， prolongs the initial and final setting time， inhibits the formation of Mg（OH）₂， reduces the total porosity and enhances the 28 d compressive strength of hardened MOSC paste. The addition of sucrose is beneficial for MOSC to absorb CO₂ in the atmosphere to form MgCO₃.

Key words: magnesium oxysulfate cement（MOSC） active magnesia powder sucrose hydration process compressive strength hydration product pore structure