喷射补偿收缩混凝土中胶凝材料微观结构分析被引量：12

Analysis on Microstructure of Gelled Material in Shrinkage-Compensating Shotcrete

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摘要为了研究喷射补偿收缩混凝土中胶凝材料的相容性,采用X射线、电镜扫描等测试手段,对HCSA、UEA、HEA和CSA四种膨胀剂与D型速凝剂和硅酸盐水泥配制的水泥浆进行微观结构试验,对其水化产物微观晶体的形貌、矿物成分及显微结构进行分析。试验结果表明:硅酸盐水泥、膨胀剂和速凝剂三者之间有较好的适应性。水中养护3 d时水化产物中产生大量的钙矾石,28d时基本形成密实的水泥石结构。通过试验对比分析,得出掺CSA膨胀剂配制的水泥浆水化3 d时生成多而大的柱状钙矾石(AFt),水化28 d的钙矾石相比其他膨胀剂明显增多和长大,XRD图谱中钙矾石衍射峰明显增强,从表观特性上分析得出CSA膨胀剂与水泥和速凝剂相容性最好,适宜配制喷射补偿收缩混凝土。 In order to study the compatibility of the gelled material in the shrinkage-compensating shotcrete,the X ray and the electric scanning as well as other measuring and test means were applied to the micro structure tests on HCSA,UEA,HEA and CSA expanding agents and the cement grouts prepared with D type accelerating agent and the Portland cement and to analyze the micro crystal shape,mineral components and micro structure of the hydrate.The test results showed that there would be a good adaptability between the Portland cement,expanding agent and accelerating agent.In 3 days＇ water curing,great entringite would be formed from the hydrate and in the 28 days＇ water curing,the compacted cement rock structure would be formed basically.With the comparison analysis on the tests,after the 3 days＇ hydratization,the cement grout added with CSA expanding agent would form many and large column entringite.After 28 days＇ hydratization,the entringite would be more increased and enlarged than other expanding agents.In XRD chart,the diffraction peak of the entringite would be obviously increased.From the apparent features,the analysis showed that CSA expanding agent would have the best compatibility with the cement and accelerating agent and could be suitable to prepare the shrinkage-compensating shotcrete.

作者黄伟马芹永

机构地区安徽理工大学矿山地下工程教育部工程研究中心淮南联合大学建筑工程系

出处《煤炭科学技术》 CAS 北大核心 2011年第3期22-24,28,共4页 Coal Science and Technology

基金高校博士学科点专项基金资助项目(20093415110001) 安徽省高校省级自然科学研究资助项目(KJ2010A103)

关键词喷射补偿收缩混凝土膨胀剂微观结构胶凝材料相容性 shrinkage-compensating shotcrete expanding agent micro structure gelled material compatibility

分类号 TD352.3 [矿业工程—矿井建设]

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参考文献9

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